CN104640224A - Network data transmission method, device and system - Google Patents

Abstract

An embodiment of the invention discloses a network data transmission method, device and system. The method includes: predicting network resource transmission condition of a target terminal in certain future time; based on the network resource transmission condition, generating a selective scheduling strategy which ensures user experience; in a central scheduling interval, transmitting network data to the target terminal according to the selective scheduling strategy. The network data are used for the target terminal to run current services between the central scheduling interval and an application interval. The embodiment has the advantages that running smoothness of services in the mobile terminal is guaranteed and user experience is guaranteed.

Description

A kind of network data transmission method, Apparatus and system

Technical field

The present invention relates to the communications field, particularly relate to a kind of network data transmission method, Apparatus and system.

Background technology

Along with the development of network technology, the network speed that user uses is also more and more faster, and such user's browsing network resources also can get more and more.Such as, the development of 4G network, just can faster browsing network document when user uses mobile terminal, or browses more Multi net voting resource.Such as, but use mobile terminal viewing network resources in the process of movement being applied to user, user car watches video or browses news etc. handing over to the collective or the state, or when user travels, touring car is watched video tour news etc.And user in moving process (mobile terminal is in moving process in other words) often through different communities, when user moves to cell edge, Deterministic service speed cannot be ensured reliably, or channel condition is poor, namely user moves to the little viewing video of cell edge or browses the situation that news probably there will be card, and namely the Internet resources such as video resource or News Resources represent not smooth.Visible, in existing network system, the business that mobile terminal runs is smooth not, poor user experience.

Summary of the invention

Embodiments provide a kind of network data transmission method, Apparatus and system, can ensure that the business that mobile terminal runs is smooth, promote Consumer's Experience.

First aspect, a kind of network data transmission method that the embodiment of the present invention provides, comprising:

Target of prediction terminal is in the network resource transmission situation of following certain hour section;

The selectivity scheduling strategy ensureing Consumer's Experience is generated based on described network resource transmission situation, wherein, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use;

Described network data is sent according to described selectivity scheduling strategy to described target terminal in described centralized dispatching interval; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business.

In the first possible implementation of first aspect, described target of prediction terminal, in the network resource transmission situation of following certain hour section, comprising:

The network resource transmission situation of described target terminal in following certain hour section is inquired from the network performance data storehouse obtained in advance; Wherein, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section.

In conjunction with first aspect or second aspect, in the implementation that the second of first aspect is possible, described target terminal is the network resource transmission situation of described target terminal each position in the motion track of following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the regioselectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and described use interval are between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching; Or

The network resource transmission situation that described target terminal is each time point of the position of described target terminal residing for following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the time selectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and the described time interval using the different time points of interval position residing for described target terminal, described centralized dispatching is interval interval early than described use.。

In conjunction with the second possibility implementation of first aspect, in the third possible implementation of first aspect, described centralized dispatching interval is between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length pre-set; Or

Described centralized dispatching interval is between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length calculated according to real time information, and described real time information comprises following at least one item:

The service rate of the network resource transmission condition information of described motion track, the translational speed of described target terminal, described target terminal requires the traffic information of information, described motion track.

In conjunction with the third possibility implementation of first aspect, in the 4th kind of possible implementation of first aspect, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of specific location area, and described motion track is positioned at described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation;

Inquired described target terminal the described network performance data storehouse from obtaining in advance before the network resource transmission situation of following certain hour section, described method also comprises:

Obtain channel quality level situation and/or the cell load situation of described specific location area;

The network performance data storehouse of the network resource transmission situation for representing specific location area is set up according to the channel quality level situation obtained and/or cell load situation.

In conjunction with the 4th kind of possible implementation of first aspect, in the 5th kind of possibility implementation of first aspect, the channel quality level situation of the described specific location area of described acquisition, comprising:

Reception is positioned at described ad-hoc location and quantity is greater than the channel information of the user terminal to send up of predetermined number, and analyzes the channel information received, to obtain the channel quality level situation of described specific location area; Or

The channel quality level situation of described specific location area is measured by the associating reception technique of multiple cell and multi-antenna technology;

The cell load situation of the described specific location area of described acquisition, comprising:

This cell load condition information that the base station obtaining each community of described specific location area reports, and the cell load situation combining that the cell load condition information obtained obtains described specific location area.。

In conjunction with the third possible implementation of first aspect or the 4th kind of possible implementation of first aspect, in the 6th kind of possibility implementation of first aspect, described target of prediction terminal, before the network resource transmission situation of following certain hour section, describedly also to comprise:

Obtain the motion track of described target terminal in following certain hour section.

In conjunction with the 6th kind of possible implementation of first aspect, in the 7th kind of possibility implementation of first aspect, described acquisition target terminal at least comprises at the motion track of following certain hour section with one of under type:

The motion track of target terminal in following certain hour section is obtained by the route model coupling of public transit facility;

The positional information reported by described target terminal obtains the motion track of target terminal in following certain hour section;

The motion track of target terminal in following certain hour section is obtained by multi-antenna technology;

The motion track of target terminal in following certain hour section is obtained by the historical movement path of described target terminal.

In conjunction with the third possible implementation of first aspect or the 4th kind of possible implementation of first aspect, in the 8th kind of possibility implementation of first aspect, the described regioselectivity scheduling strategy generating guarantee Consumer's Experience based on described network resource transmission situation, comprising:

Obtain the characteristic information of described target terminal, and generate according to the network resource transmission situation of each position in described characteristic information and described motion track the regioselectivity scheduling strategy ensureing Consumer's Experience; Wherein, described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described characteristic information comprises following at least one item:

The service rate of described target terminal requires information, the translational speed information of described target terminal and the traffic information of described motion track.

In conjunction with the 8th kind of possible implementation of first aspect, in the 9th kind of possibility implementation of first aspect, the characteristic information of the described target terminal of described acquisition, and generate according to the network resource transmission situation of each position in described characteristic information and described motion track the regioselectivity scheduling strategy ensureing Consumer's Experience, comprising:

Select described centralized dispatching interval according to the network resource transmission situation of each position in described motion track, and it is interval from described motion track, to select according to described centralized dispatching interval the use be positioned at after described centralized dispatching interval;

Obtain the described characteristic information of described target terminal, and predict that described target terminal is in described centralized dispatching interval and the described time using interval movement according to described characteristic information;

According to the business of the current operation of described target terminal and described time prediction, target terminal is interval and describedly use the business run during interval movement in described centralized dispatching;

Generate the regioselectivity scheduling strategy ensureing Consumer's Experience; Described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching.

In conjunction with the 9th kind of possible implementation of first aspect, in the tenth kind of possibility implementation of first aspect, the described regioselectivity scheduling strategy generating guarantee Consumer's Experience, comprising:

The first network data loaded required for the business that target terminal runs when described centralized dispatching interval is mobile according to the service rate requirement forecast of described time and target terminal, and target of prediction terminal described use interval mobile time the business run required for the second network data that load;

Generate the regioselectivity scheduling strategy ensureing Consumer's Experience, described regioselectivity scheduling strategy comprises the data message for representing described first network data and second network data and the block information for described centralized dispatching interval.

In conjunction with the 9th kind of possible implementation of first aspect, in the 11 kind of possibility implementation of first aspect, described characteristic information comprises the translational speed information of described target terminal and the traffic information of described motion track; The described characteristic information of the described target terminal of described acquisition, and predict that described target terminal is in described centralized dispatching interval and the described time using interval movement, comprising according to described characteristic information:

According to the traffic information of the current translational speed of described target terminal and described motion track, predict described target terminal in described centralized dispatching the interval and described translational speed using interval;

According to the translational speed that described target terminal is interval in described centralized dispatching and described use is interval, predict that described target terminal is in described centralized dispatching interval and the described time using interval movement.

In conjunction with the third possible implementation of first aspect or the 4th kind of possible implementation of first aspect, in the 12 kind of possibility implementation of first aspect, described regioselectivity scheduling strategy also comprises for representing that described target terminal is in described centralized dispatching interval and the described velocity information using interval translational speed; Describedly send described network data according to described regioselectivity scheduling strategy to described target terminal, comprising:

Obtain the translational speed that described target terminal is current, and predict according to this translational speed the real-time translational speed that described target terminal is interval in described centralized dispatching and described use is interval;

Described target terminal is compared in described centralized dispatching interval and the described translational speed in interval that uses in described centralized dispatching interval and the described described target terminal using interval real-time translational speed and described velocity information to represent, and adjusts the data message of described regioselectivity scheduling strategy according to this comparative result;

The network data represented by the data message after described adjustment is sent to described target terminal.

In conjunction with the implementation that the second of first aspect is possible, in the 13 kind of possibility implementation of first aspect, described centralized dispatching interval is the time interval of the specific duration that in described following certain hour section special time interval, network resource transmission situation is best, and described following certain hour section comprises special time interval described at least one, wherein, described specific duration is the length pre-set; Or

Described centralized dispatching interval is between the lane place of the specific duration that in described following certain hour section special time interval, network resource transmission situation is best, and described following certain hour section comprises special time interval described at least one, wherein, described specific duration is the length calculated according to real time information, and described real time information comprises following at least one item:

The network resource transmission condition information of described following certain hour section and the service rate of described target terminal require information.

In conjunction with the 13 kind of possible implementation of first aspect, in the 14 kind of possibility implementation of first aspect, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of each time point of described following certain hour section specific location area, and the position residing for described target terminal belongs to described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation;

Inquired described target terminal the described network performance data storehouse from obtaining in advance before the network resource transmission situation of following certain hour section, described method also comprises:

Obtain channel quality level situation and/or the cell load situation of each time point of the described specific location area of described following certain hour section;

The network performance data storehouse of the network resource transmission situation for representing the described specific location area of described following certain hour section is set up according to the channel quality level situation obtained and/or cell load situation.

In conjunction with the 14 kind of possible implementation of first aspect, in the 15 kind of possibility implementation of first aspect, the channel quality level situation of each time point of the described specific location area of the described following certain hour section of described acquisition and/or cell load situation, comprising:

The channel quality level situation of each time point of the described specific location area of described following certain hour section is obtained by the temporal regularity of the channel quality level situation of described specific location area; And/or

The cell load situation of each time point of the described specific location area of described following certain hour section is obtained by the temporal regularity of the cell load situation of described specific location area.

In conjunction with the 13 kind of possible implementation of first aspect or the 14 kind of possible implementation of first aspect or the 15 kind of possible implementation of first aspect, in the 16 kind of possibility implementation of first aspect, described target of prediction terminal, before the network resource transmission situation of following certain hour section, describedly also to comprise:

Predict the position of described target terminal residing for following certain hour section.

In conjunction with the 16 kind of possible implementation of first aspect, in the 17 kind of possibility implementation of first aspect, the position of the described target terminal of described prediction residing for following certain hour section at least comprises with one of under type:

The positional information reported by described target terminal predicts the position of described target terminal residing for following certain hour section;

The position of described target terminal residing for following certain hour section is predicted by the present position historical record of described target terminal.

In conjunction with the 13 kind of possible implementation of first aspect or the 14 kind of possible implementation of first aspect or the 15 kind of possible implementation of first aspect, in the 18 kind of possibility implementation of first aspect, generate based on described network resource transmission situation the time selectivity scheduling strategy ensureing Consumer's Experience, comprising:

Select described centralized dispatching interval according to the network resource transmission situation of each time point of the position of described target terminal residing for following certain hour section, and it is interval from following certain hour section, to select according to described centralized dispatching interval the use being later than described centralized dispatching interval;

According to the traffic forecast of the current operation of described target terminal, target terminal is in described centralized dispatching interval and the described business using interval to run;

Generate the time selectivity scheduling strategy ensureing Consumer's Experience; Described time selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching.

In conjunction with the 18 kind of possible implementation of first aspect, in the 19 kind of possibility implementation of first aspect, the described time selectivity scheduling strategy generating guarantee Consumer's Experience, comprising:

Interval according to described centralized dispatching and use target terminal described in the service rate requirement forecast of interval duration and described target terminal to load required for the interval business run of described centralized dispatching first network data, and target of prediction terminal uses described the second network data loaded required for the interval business run;

Generate the time selectivity scheduling strategy ensureing Consumer's Experience, described time selectivity scheduling strategy comprises the data message for representing described first network data and second network data and the block information for described centralized dispatching interval.

In conjunction with the third possible implementation of first aspect or the 5th kind of possible implementation of the 4th kind of possible implementation of first aspect or first aspect or the 13 kind of possible implementation of first aspect or the 14 kind of possible implementation of first aspect or the 15 kind of possible implementation of first aspect, in the 20 kind of possibility implementation of first aspect, described according to described selectivity scheduling strategy to after described target terminal sends described network data, described method also comprises:

Carry out for keeping the essential information that the link of described target terminal current business and this business is presence to transmit at described interval and the described target terminal of using; And/or

When described network data does not comprise described target terminal in the network data that the described service needed using interval excess minutes to run loads, intervally send to described target terminal the network data that described target terminal loads in the service needed that described excess minutes runs described use; And/or

When described target terminal current business sends change, receive described target terminal that described target terminal sends report change after the service quality of business need information.

In conjunction with the third possible implementation of first aspect or the 5th kind of possible implementation of the 4th kind of possible implementation of first aspect or first aspect or the 13 kind of possible implementation of first aspect or the 14 kind of possible implementation of first aspect or the 15 kind of possible implementation of first aspect, in the 21 kind of possibility implementation of first aspect, described network data is used to indicate target terminal reporting uplink data; Described according to described selectivity scheduling strategy to after described target terminal sends described network data, described method also comprises:

The upstream data that described target terminal responds the transmission of described network data is received in described centralized dispatching interval.

Second aspect, the embodiment of the present invention provides a kind of network data transmission method, comprising:

Described target terminal receives the described target terminal of network equipment transmission in described centralized dispatching interval and the network data using the interval business run in centralized dispatching interval; Wherein, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use;

Network data described in described target terminal buffer memory;

Described target terminal calls described network data in described centralized dispatching interval and described use interval and runs current business.

In the first possible implementation of second aspect, described centralized dispatching interval and described use interval are between the lane place of described target terminal diverse location in the motion track of following certain hour section, described centralized dispatching interval is positioned at before described use interval, or

Described centralized dispatching interval and the described time interval using the different time points of interval position residing for target terminal described in uncertain certain hour, described centralized dispatching is interval interval early than described use.

In conjunction with the first possible implementation of person's second aspect, in the second possibility implementation of second aspect, described target terminal is before the network data of described target terminal interval business with using interval to run in described centralized dispatching of centralized dispatching interval reception network equipment transmission, and described method also comprises:

Described target terminal is to described network equipment reporting position information;

Described target terminal reports the motion track of described target terminal to the described network equipment.

In conjunction with the first possible implementation of second aspect or the possible implementation of the second of second aspect, may in implementation at the third of second aspect, described method also comprises:

Described target terminal uses interval essential information of carrying out for keeping the link of current business and described current business to be presence with the described network equipment to transmit described; And/or

When described network data does not comprise described target terminal in the network data that the described service needed using interval excess minutes to run loads, the network data that described target terminal loads in the service needed that described excess minutes runs at the interval described target terminal receiving the transmission of the described network equipment of described use, and call this network data operation current business; And/or

When described target terminal current business sends change, described target terminal reports the service quality of the business after change to need information to the network equipment.

In conjunction with the first possible implementation of second aspect or the possible implementation of the second of second aspect, may in implementation at the 4th kind of second aspect, described network data is used to indicate target terminal reporting uplink data; Described target terminal calls described network data in described centralized dispatching interval and described use interval and runs current business, comprising:

Described target terminal calls described network data in described centralized dispatching interval and described use interval and runs current business, and sends the upstream data of the described network data of response to the described network equipment.

The third aspect, the embodiment of the present invention provides a kind of network data transmission method, comprising:

Obtain the network resource transmission situation of specific location area each position;

Carry out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section;

Receive the Query Information that the network equipment sends, and from the network resource transmission situation of target terminal described in described network performance data library inquiry in following certain hour section, described target terminal ensures the described selectivity scheduling strategy of Consumer's Experience in the network resource transmission situation of following certain hour section for generating, and described selectivity scheduling strategy is used for sending network data to described target terminal centralized dispatching is interval; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use.

In the first possible implementation of the third aspect, the described described network resource transmission situation to obtaining carries out analyzing and processing, to set up network performance data storehouse, comprising:

Carry out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, wherein, analyzing and processing comprises with one of under type:

Filtering process, rasterizing process, interpolation processing and sample process.

In conjunction with the third aspect, in the implementation that the second of the third aspect is possible, described from target terminal described in described network performance data library inquiry after the network resource transmission situation of following certain hour section, described method also comprises:

The network resource transmission situation of described target terminal in following certain hour section is sent to the described network equipment; Or

Generate in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience based on described target terminal, and send described selectivity scheduling strategy to the described network equipment.

In conjunction with the third aspect or the first possible implementation of the third aspect or the possible implementation of the second of the third aspect, in the third possible implementation of the third aspect, described target terminal is the network resource transmission situation of described target terminal each position in the motion track of following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the regioselectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and described use interval are between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching; Or

The network resource transmission situation that described target terminal is each time point of the position of described target terminal residing for following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the time selectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and the described time interval using the different time points of interval position residing for described target terminal, described centralized dispatching is interval interval early than described use.

In conjunction with the third possible implementation of the third aspect, in the 4th kind of possible implementation of the third aspect, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of specific location area, and described motion track is positioned at described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation;

The information of the network resource transmission situation of described acquisition specific location area each position, comprising:

The channel quality level situation of described acquisition specific location area each position and/or cell load situation.

In conjunction with the 4th kind of possible implementation of the third aspect, in the 5th kind of possible implementation of the third aspect, the channel quality level situation of the described specific location area each position of described acquisition, comprising:

Reception is positioned at described ad-hoc location and quantity is greater than the channel information of the user terminal to send up of predetermined number, and analyzes the channel information received, to obtain the channel quality level situation of described specific location area each position; Or

The channel quality level situation of described specific location area each position is measured by the associating reception technique of multiple cell and multi-antenna technology;

The cell load situation of the described specific location area of described acquisition, comprising:

This cell load condition information that the base station obtaining each community of described specific location area reports, and the cell load situation combining that the cell load condition information obtained obtains described specific location area.

In conjunction with the third possible implementation of the third aspect, in the 6th kind of possible implementation of the third aspect, the described described network resource transmission situation to obtaining carries out analyzing and processing, to set up network performance data storehouse, comprising:

Carry out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, wherein, described network performance data storehouse is for representing the descending and/or up network resource transmission situation of described specific location area each position.

In conjunction with the third possible implementation of the third aspect, in the 7th kind of possible implementation of the third aspect, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of each time point of described following certain hour section specific location area, and the position residing for described target terminal belongs to described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation;

The information of the network resource transmission situation of described acquisition specific location area each position, comprising:

Obtain channel quality level situation and/or the cell load situation of each time point of described following certain hour section specific location area each position.

In conjunction with the 7th kind of possible implementation of the third aspect, in the 8th kind of possible implementation of the third aspect, the channel quality level situation of each time point of the described following certain hour section specific location area each position of described acquisition and/or cell load situation, comprising:

The channel quality level situation of each time point of described following certain hour section described specific location area each position is obtained by the temporal regularity of the channel quality level situation of specific location area each position; And/or

The cell load situation of each time point of described following certain hour section described specific location area each position is obtained by the temporal regularity of the cell load situation of specific location area each position.

Fourth aspect, the embodiment of the present invention provides a kind of network data transmission device, comprising: the first predicting unit, generation unit and the first transmitting element, wherein:

Described first predicting unit, for the network resource transmission situation of target of prediction terminal in following certain hour section;

Described generation unit, for generating based on the described network resource transmission situation of described first predicting unit prediction the selectivity scheduling strategy ensureing Consumer's Experience, wherein, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use;

Described first transmitting element, sends described network data for the selectivity scheduling strategy generated according to described generation unit in described centralized dispatching interval to described target terminal; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business.

In the first possible implementation of fourth aspect, described first predicting unit is used for from the network performance data storehouse obtained in advance, inquire the network resource transmission situation of described target terminal in following certain hour section; Wherein, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section.

In conjunction with fourth aspect or second aspect, in the implementation that the second of fourth aspect is possible, described target terminal is the network resource transmission situation of described target terminal each position in the motion track of following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the regioselectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and described use interval are between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching; Or

The network resource transmission situation that described target terminal is each time point of the position of described target terminal residing for following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the time selectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and the described time interval using the different time points of interval position residing for described target terminal, described centralized dispatching is interval interval early than described use.

In conjunction with the second possibility implementation of fourth aspect, in the third possible implementation of fourth aspect, described centralized dispatching interval is between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length pre-set; Or

Described centralized dispatching interval is between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length calculated according to real time information, and described real time information comprises following at least one item:

The service rate of the network resource transmission condition information of described motion track, the translational speed of described target terminal, described target terminal requires the traffic information of information, described motion track.

In conjunction with the third possibility implementation of fourth aspect, in the 4th kind of possible implementation of fourth aspect, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of specific location area, and described motion track is positioned at described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation; Described device also comprises:

First acquiring unit, for obtaining channel quality level situation and/or the cell load situation of described specific location area;

First sets up unit, for setting up the network performance data storehouse of the network resource transmission situation for representing specific location area according to the channel quality level situation obtained and/or cell load situation.

In conjunction with the 4th kind of possible implementation of fourth aspect, in the 5th kind of possibility implementation of fourth aspect, described first acquiring unit is positioned at described ad-hoc location and quantity is greater than the channel information of the user terminal to send up of predetermined number for receiving, and analyze the channel information received, to obtain the channel quality level situation of described specific location area; Or described first acquiring unit is used for the channel quality level situation being measured described specific location area by the associating reception technique of multiple cell and multi-antenna technology;

Described first acquiring unit also for this cell load condition information that the base station of each community obtaining described specific location area reports, and combines the cell load situation that the cell load condition information obtained obtains described specific location area.

In conjunction with the third possible implementation of fourth aspect or the 4th kind of possible implementation of fourth aspect, in the 6th kind of possibility implementation of fourth aspect, described device also comprises:

Second acquisition unit, for obtaining the motion track of described target terminal in following certain hour section.

In conjunction with the 6th kind of possible implementation of fourth aspect, in the 7th kind of possibility implementation of fourth aspect, described second acquisition unit is used for obtaining the motion track of target terminal in following certain hour section by the route model coupling of public transit facility; Or

The positional information that described second acquisition unit is used for being reported by described target terminal obtains the motion track of target terminal in following certain hour section; Or

Described second acquisition unit is used for obtaining the motion track of target terminal in following certain hour section by multi-antenna technology; Or

Described second acquisition unit is used for obtaining the motion track of target terminal in following certain hour section by the historical movement path of described target terminal.

In conjunction with the third possible implementation of fourth aspect or the 4th kind of possible implementation of fourth aspect, in the 8th kind of possibility implementation of fourth aspect, described generation unit for obtaining the characteristic information of described target terminal, and generates according to the network resource transmission situation of each position in described characteristic information and described motion track the regioselectivity scheduling strategy ensureing Consumer's Experience; Wherein, described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described characteristic information comprises following at least one item:

The service rate of described target terminal requires information, the translational speed information of described target terminal and the traffic information of described motion track.

In conjunction with the 8th kind of possible implementation of fourth aspect, in the 9th kind of possibility implementation of fourth aspect, described generation unit comprises:

First selected cell, with selecting described centralized dispatching interval according to the network resource transmission situation of each position in described motion track, and it is interval from described motion track, to select according to described centralized dispatching interval the use be positioned at after described centralized dispatching interval;

According to described characteristic information, second predicting unit, for obtaining the described characteristic information of described target terminal, and predicts that described target terminal is in described centralized dispatching interval and the described time using interval movement;

3rd predicting unit, for the business that target terminal according to the business of the current operation of described target terminal and the time prediction of described second predicting unit prediction runs when described centralized dispatching is interval and described use interval is mobile;

First generates subelement, for generating the regioselectivity scheduling strategy ensureing Consumer's Experience; Described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching.

In conjunction with the 9th kind of possible implementation of fourth aspect, in the tenth kind of possibility implementation of fourth aspect, described first generates subelement is used for the first network data that target terminal runs when described centralized dispatching interval is mobile according to the service rate requirement forecast of described time and target terminal business loads, and target of prediction terminal described use interval mobile time the business run required for the second network data that load; And generating the regioselectivity scheduling strategy ensureing Consumer's Experience, described regioselectivity scheduling strategy comprises the data message for representing described first network data and second network data and the block information for described centralized dispatching interval.

In conjunction with the 9th kind of possible implementation of fourth aspect, in the 11 kind of possibility implementation of fourth aspect, described characteristic information comprises the translational speed information of described target terminal and the traffic information of described motion track; Described second predicting unit, specifically for the traffic information according to the current translational speed of described target terminal and described motion track, predicts the translational speed that described target terminal is interval in described centralized dispatching and described use is interval; Again according to the translational speed that described target terminal is interval in described centralized dispatching and described use is interval, predict that described target terminal is in described centralized dispatching interval and the described time using interval movement.

In conjunction with the third possible implementation of fourth aspect or the 4th kind of possible implementation of fourth aspect, in the 12 kind of possibility implementation of fourth aspect, described regioselectivity scheduling strategy also comprises for representing that described target terminal is in described centralized dispatching interval and the described velocity information using interval translational speed; Described first transmitting element comprises:

4th predicting unit, during for moving to described centralized dispatching interval when described target terminal, obtain the translational speed that described target terminal is current, and predict according to this translational speed the real-time translational speed that described target terminal is interval in described centralized dispatching and described use is interval;

Adjustment unit, for described 4th predicting unit being predicted described target terminal compares in described centralized dispatching interval and the described translational speed in interval that uses in described centralized dispatching interval and the described described target terminal using interval real-time translational speed and described velocity information to represent, and adjust the data message of described regioselectivity scheduling strategy according to this comparative result;

Send subelement, for sending the network data represented by the data message after the adjustment of described adjustment unit to described target terminal.

In conjunction with the implementation that the second of fourth aspect is possible, in the 13 kind of possibility implementation of fourth aspect, described centralized dispatching interval is the time interval of the specific duration that in described following certain hour section special time interval, network resource transmission situation is best, and described following certain hour section comprises special time interval described at least one, wherein, described specific duration is the length pre-set; Or

Described centralized dispatching interval is between the lane place of the specific duration that in described following certain hour section special time interval, network resource transmission situation is best, and described following certain hour section comprises special time interval described at least one, wherein, described specific duration is the length calculated according to real time information, and described real time information comprises following at least one item:

The network resource transmission condition information of described following certain hour section and the service rate of described target terminal require information.

In conjunction with the 13 kind of possible implementation of fourth aspect, in the 14 kind of possibility implementation of fourth aspect, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of each time point of described following certain hour section specific location area, and the position residing for described target terminal belongs to described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation;

Described device also comprises:

3rd acquiring unit, for obtaining channel quality level situation and/or the cell load situation of each time point of the described specific location area of described following certain hour section;

Second sets up unit, for setting up the network performance data storehouse of the network resource transmission situation for representing the described specific location area of described following certain hour section according to the channel quality level situation obtained and/or cell load situation.

In conjunction with the 14 kind of possible implementation of fourth aspect, in the 15 kind of possibility implementation of fourth aspect, described 3rd acquiring unit is used for the channel quality level situation being obtained each time point of the described specific location area of described following certain hour section by the temporal regularity of the channel quality level situation of described specific location area; And/or

Described 3rd acquiring unit is used for the cell load situation being obtained each time point of the described specific location area of described following certain hour section by the temporal regularity of the cell load situation of described specific location area.

In conjunction with the 13 kind of possible implementation of fourth aspect or the 14 kind of possible implementation of fourth aspect or the 15 kind of possible implementation of fourth aspect, in the 16 kind of possibility implementation of fourth aspect, described device also comprises:

5th predicting unit, for predicting the position of described target terminal residing for following certain hour section.

In conjunction with the 16 kind of possible implementation of fourth aspect, in the 17 kind of possibility implementation of fourth aspect, the positional information that the 5th predicting unit is used for being reported by described target terminal predicts the position of described target terminal residing for following certain hour section; And/or

5th predicting unit is also for predicting the position of described target terminal residing for following certain hour section by the present position historical record of described target terminal.

In conjunction with the 13 kind of possible implementation of fourth aspect or the 14 kind of possible implementation of fourth aspect or the 15 kind of possible implementation of fourth aspect, in the 18 kind of possibility implementation of fourth aspect, described generation unit comprises:

Second selected cell, network resource transmission situation for each time point according to the position of described target terminal residing for following certain hour section selects described centralized dispatching interval, and it is interval from following certain hour section, to select according to described centralized dispatching interval the use being later than described centralized dispatching interval;

6th predicting unit, for target terminal according to the traffic forecast of the current operation of described target terminal in described centralized dispatching interval and the described business using interval to run;

Second generates subelement, for generating the time selectivity scheduling strategy ensureing Consumer's Experience; Described time selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching.

In conjunction with the 18 kind of possible implementation of fourth aspect, in the 19 kind of possibility implementation of fourth aspect, described second generates subelement is used for first network data that are interval according to described centralized dispatching and that use target terminal described in the service rate requirement forecast of interval duration and described target terminal to load in the business that described centralized dispatching interval is run, and target of prediction terminal uses described the second network data loaded required for the interval business run; And generating the time selectivity scheduling strategy ensureing Consumer's Experience, described time selectivity scheduling strategy comprises the data message for representing described first network data and second network data and the block information for described centralized dispatching interval.

In conjunction with the third possible implementation of fourth aspect or the 5th kind of possible implementation of the 4th kind of possible implementation of fourth aspect or fourth aspect or the 13 kind of possible implementation of fourth aspect or the 14 kind of possible implementation of fourth aspect or the 15 kind of possible implementation of fourth aspect, in the 20 kind of possibility implementation of fourth aspect, described device also comprises:

Transmission unit, for carrying out for keeping the essential information that the link of described target terminal current business and this business is presence to transmit at described interval and the described target terminal of using; And/or

Second transmitting element, for not comprising described target terminal when described network data when the network data that the described service needed using interval excess minutes to run loads, intervally send to described target terminal the network data that described target terminal loads in the service needed that described excess minutes runs described use; And/or

First receiving element, for when described target terminal current business sends change, receive described target terminal that described target terminal sends report change after the service quality of business need information.

In conjunction with the third possible implementation of fourth aspect or the 5th kind of possible implementation of the 4th kind of possible implementation of fourth aspect or fourth aspect or the 13 kind of possible implementation of fourth aspect or the 14 kind of possible implementation of fourth aspect or the 15 kind of possible implementation of fourth aspect, in the 21 kind of possibility implementation of fourth aspect, described device also comprises:

Second receiving element, for receiving in described centralized dispatching interval the upstream data that described target terminal responds the transmission of described network data; Described network data is used to indicate target terminal reporting uplink data.

5th aspect, the embodiment of the present invention provides a kind of subscriber equipment, comprising: the first receiving element, buffer unit and call unit, wherein:

Described first receiving element, for receiving the described target terminal of network equipment transmission in described centralized dispatching interval and the network data using the interval business run in centralized dispatching interval; Wherein, described network data is the network data of described subscriber equipment interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use;

Described buffer unit, for the network data that the first receiving element described in buffer memory receives;

Described call unit, runs current business for and the described network data using interval to call described buffer unit buffer memory interval in described centralized dispatching.

In the first possible implementation in the 5th, described centralized dispatching interval and described use interval are between the lane place of described subscriber equipment diverse location in the motion track of following certain hour section, described centralized dispatching interval is positioned at before described use interval, or

Described centralized dispatching interval and the described time interval using the different time points of interval position residing for subscriber equipment described in uncertain certain hour, described centralized dispatching is interval interval early than described use.

In conjunction with the first possible implementation of the 5th aspect, in the implementation that the second in the 5th is possible, described device also comprises:

First transmitting element, for described network equipment reporting position information; Or

Second transmitting element, for reporting the motion track of described subscriber equipment to the described network equipment.

In conjunction with the first possible implementation of the 5th aspect or the first possible implementation of the 5th aspect, in the third the possible implementation in the 5th, described device also comprises:

Transmission unit, for using interval essential information of carrying out for keeping the link of current business and described current business to be presence with the described network equipment to transmit described; And/or

Second receiving element, when described network data does not comprise described target terminal in the network data that the described service needed using interval excess minutes to run loads, in the network data that the interval described subscriber equipment receiving the transmission of the described network equipment of described use loads in the service needed that described excess minutes runs, and call this network data operation current business; And/or

3rd transmitting element, for when described subscriber equipment current business sends change, reports the service quality of the business after change to need information to the network equipment.

In conjunction with the first possible implementation of the 5th aspect or the first possible implementation of the 5th aspect, in the 4th kind of possible implementation in the 5th, described network data is used to indicate described user equipment to report upstream data; Described call unit also calls described network data for and described use interval interval in described centralized dispatching and runs current business, and sends the upstream data of the described network data of response to the described network equipment.

6th aspect, the embodiment of the present invention provides a kind of network performance analysis device, comprising: acquiring unit, set up unit and query unit, wherein:

Described acquiring unit, for obtaining the network resource transmission situation of specific location area each position;

Describedly set up unit, for carrying out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section;

Described query unit, for receiving the Query Information that the network equipment sends, and from the network resource transmission situation of target terminal described in described network performance data library inquiry in following certain hour section, described target terminal ensures the described selectivity scheduling strategy of Consumer's Experience in the network resource transmission situation of following certain hour section for generating, and described selectivity scheduling strategy is used for sending network data to described target terminal centralized dispatching is interval; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use.

In the first possible implementation in the 6th, described unit of setting up is for carrying out analyzing and processing to the described network resource transmission situation obtained, and to set up network performance data storehouse, wherein, analyzing and processing comprises with one of under type:

Filtering process, rasterizing process, interpolation processing and sample process.

In conjunction with the 6th aspect, in the implementation that the second in the 6th is possible, described device also comprises:

First transmitting element, for sending the network resource transmission situation of described target terminal in following certain hour section to the described network equipment; Or

Second transmitting element, for generating in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience based on described target terminal, and sends described selectivity scheduling strategy to the described network equipment.

In conjunction with the 6th aspect or the first possible implementation of the 6th aspect or the possible implementation of the second of the 6th aspect, in the third possible implementation in the 6th, described target terminal is the network resource transmission situation of described target terminal each position in the motion track of following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the regioselectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and described use interval are between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching; Or

The network resource transmission situation that described target terminal is each time point of the position of described target terminal residing for following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the time selectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and the described time interval using the different time points of interval position residing for described target terminal, described centralized dispatching is interval interval early than described use.

In conjunction with the third possible implementation of the 6th aspect, in the 4th kind of possible implementation in the 6th, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of specific location area, and described motion track is positioned at described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation;

Described acquiring unit is used for channel quality level situation and/or the cell load situation of described acquisition specific location area each position.

In conjunction with the 4th kind of possible implementation of the 6th aspect, in the 5th kind of possible implementation in the 6th, described acquiring unit is positioned at described ad-hoc location and quantity is greater than the channel information of the user terminal to send up of predetermined number for receiving, and analyze the channel information received, to obtain the channel quality level situation of described specific location area each position; Or described acquiring unit is used for the channel quality level situation being measured described specific location area each position by the associating reception technique of multiple cell and multi-antenna technology;

Described acquiring unit also for this cell load condition information that the base station of each community obtaining described specific location area reports, and combines the cell load situation that the cell load condition information obtained obtains described specific location area.

In conjunction with the third possible implementation of the 6th aspect, in the 6th kind of possible implementation in the 6th, described unit of setting up is for carrying out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, wherein, described network performance data storehouse is for representing the descending and/or up network resource transmission situation of described specific location area each position.

In conjunction with the third possible implementation of the 6th aspect, in the 7th kind of possible implementation in the 6th, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of each time point of described following certain hour section specific location area, and the position residing for described target terminal belongs to described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation;

Described acquiring unit is for obtaining channel quality level situation and/or the cell load situation of each time point of described following certain hour section specific location area each position.

In conjunction with the 7th kind of possible implementation of the 6th aspect, in the 8th kind of possible implementation in the 6th, described acquiring unit is used for the channel quality level situation of each time point being obtained described following certain hour section described specific location area each position by the temporal regularity of the channel quality level situation of specific location area each position; And/or

Described acquiring unit is used for the cell load situation of each time point being obtained described following certain hour section described specific location area each position by the temporal regularity of the cell load situation of specific location area each position.

7th aspect, the embodiment of the present invention provides a kind of network data transmission system, comprises network performance analysis device and network data transmission device, wherein:

Described network performance analysis device, for obtaining the network resource transmission situation of specific location area each position; And analyzing and processing is carried out to the described network resource transmission situation obtained, to set up network performance data storehouse, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section; And receive the Query Information that the network equipment sends, and from the network resource transmission situation of target terminal described in described network performance data library inquiry in following certain hour section;

Described network data transmission device, for sending described network data according to selectivity scheduling strategy to described target terminal in centralized dispatching interval, wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business, described selectivity scheduling strategy is that described target terminal generates in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, the network resource transmission situation in described centralized dispatching interval is better than the described network resource transmission situation using interval.

In the first possible implementation in the 7th, described network performance analysis device is also for the network resource transmission situation of target terminal described in described network data transmission device in following certain hour section; Described network data transmission device is also for generating in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience based on described target terminal; Or

Described network performance analysis device also for generating in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience based on described target terminal, and sends described selectivity scheduling strategy to the described network equipment.

Eighth aspect, the embodiment of the present invention provides a kind of network data transmission system, comprises the network equipment and target terminal, wherein:

The described network equipment, for the network resource transmission situation of target of prediction terminal in following certain hour section; The selectivity scheduling strategy ensureing Consumer's Experience is generated based on described network resource transmission situation, wherein, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use; Described network data is sent according to described selectivity scheduling strategy to described target terminal in described centralized dispatching interval;

Described target terminal, calls described network data for and described use interval interval in described centralized dispatching and runs current business.

In technique scheme, target of prediction terminal is in the network resource transmission situation of following certain hour section; The selectivity scheduling strategy ensureing Consumer's Experience is generated based on described network resource transmission situation, wherein, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use; Described network data is sent according to described selectivity scheduling strategy to described target terminal in described centralized dispatching interval; Described like this target terminal just can call described network data in described centralized dispatching interval and described use interval and run current business.Thus the business that can realize ensureing mobile terminal runs is smooth.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the schematic flow sheet of a kind of network data transmission method that the embodiment of the present invention provides;

Fig. 2 is the schematic flow sheet of the another kind of network data transmission method that the embodiment of the present invention provides;

Fig. 3 is the schematic flow sheet of the another kind of network data transmission method that the embodiment of the present invention provides;

Fig. 4 is the schematic flow sheet of the another kind of network data transmission method that the embodiment of the present invention provides;

Fig. 5 is the schematic flow sheet of the another kind of network data transmission method that the embodiment of the present invention provides;

Fig. 6 is the schematic flow sheet of the another kind of network data transmission method that the embodiment of the present invention provides;

Fig. 7 is the schematic flow sheet of the another kind of network data transmission method that the embodiment of the present invention provides;

Fig. 8 and Fig. 9 is the optional example schematic that the embodiment of the present invention provides;

Figure 10 is the structural representation of a kind of network data transmission device that the embodiment of the present invention provides;

Figure 11 is the structural representation of the another kind of network data transmission device that the embodiment of the present invention provides;

Figure 12 is the structural representation of the another kind of network data transmission device that the embodiment of the present invention provides;

Figure 13 is the structural representation of the another kind of network data transmission device that the embodiment of the present invention provides;

Figure 14 is the structural representation of the another kind of network data transmission device that the embodiment of the present invention provides;

Figure 15 is the structural representation of the another kind of network data transmission device that the embodiment of the present invention provides;

Figure 16 is the structural representation of the another kind of network data transmission device that the embodiment of the present invention provides;

Figure 17 is the structural representation of the another kind of network data transmission device that the embodiment of the present invention provides;

Figure 18 is the structural representation of the another kind of network data transmission device that the embodiment of the present invention provides;

Figure 19 is the structural representation of a kind of subscriber equipment that the embodiment of the present invention provides;

Figure 20 is the structural representation of the another kind of subscriber equipment that the embodiment of the present invention provides;

Figure 21 is the structural representation of a kind of network performance analysis device that the embodiment of the present invention provides;

Figure 22 is the structural representation of the another kind of network performance analysis device that the embodiment of the present invention provides;

Figure 23 is the structural representation of the another kind of network data transmission system that the embodiment of the present invention provides;

Figure 24 is the structural representation that the embodiment of the present invention provides another kind of network data transmission system;

Figure 25 is the structural representation of the another kind of network data transmission device that the embodiment of the present invention provides;

Figure 26 is the structural representation of the another kind of subscriber equipment that the embodiment of the present invention provides;

Figure 27 is the structural representation of the another kind of network data transmission device that the embodiment of the present invention provides.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

In the embodiment of the present invention, the business that target terminal runs can be any business in the communications field, and the embodiment of the present invention is not construed as limiting this, such as: video, audio frequency, resource downloading, game, webpage etc.

The technical scheme that the embodiment of the present invention provides can be applied to various cordless communication network, such as: global mobile communication (global system for mobile communication, referred to as GSM) system, code division multiple access (code division multiple access, referred to as CDMA) system, Wideband Code Division Multiple Access (WCDMA) (wideband code division multiple access, referred to as WCDMA) system, universal mobile communications (universal mobile telecommunication system, referred to as UMTS) system, GPRS (general packet radio service, referred to as GPRS) system, Long Term Evolution (long term evolution, referred to as LTE) system, advanced Long Term Evolution (long term evolution advanced, referred to as LTE-A) system, global interconnection inserting of microwave (worldwide interoperability for microwave access, referred to as WiMAX) system, Wireless Fidelity (Wireless Fidelity, WiFi) network, WLAN (Wireless Local Area Networks, WLAN), heterogeneous network (Hetnet) etc.Wherein, term " network " and " system " can be replaced mutually.

Please refer to Fig. 1, Fig. 1 is the schematic flow sheet of a kind of network data transmission method that the embodiment of the present invention provides, and as shown in Figure 1, comprises the following steps:

101, target of prediction terminal is in the network resource transmission situation of following certain hour section.

Optionally, can be specifically the network resource transmission situation of target of prediction terminal each position in the motion track of following certain hour section, or the network resource transmission situation of each time point of the position of target of prediction terminal residing for following certain hour section.Wherein, specific implementation please refer to embodiment below.

Optionally, above-mentioned network resource transmission situation can be specifically for representing the transmission quality transmitting data between network side and user terminal, as better in worked as the transmission quality transmitting data between network side and target terminal, just represents that network resource transmission situation is better, otherwise, poorer.

Optionally, above-mentioned following certain hour section can be specifically the time pre-set, such as: 1 hour or 5 hours or 1 day etc.

Optionally, step 101 specifically can comprise:

The network resource transmission situation of described target terminal in following certain hour section is inquired from the network performance data storehouse obtained in advance; Wherein, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section.

Namely get in advance and comprise the network performance data storehouse of described target terminal in the network resource transmission situation of following certain hour section.

102, selectivity scheduling strategy (the Selective Scheduling Strategy ensureing Consumer's Experience is generated based on described network resource transmission situation, SSS), wherein, described selectivity scheduling strategy comprises for representing centralized dispatching interval (Centralized Scheduling Region, CSR) block information and the data message for representing network data, described network data is that described target terminal is at interval (the Using Region interval with use of described centralized dispatching, the network data of the business UR) run, the network resource transmission situation in described centralized dispatching interval is better than the described network resource transmission situation using interval.

Optionally, above-mentioned centralized dispatching interval can be specifically that namely target terminal can receive above-mentioned network data in this centralized dispatching interval for transmitting the interval of above-mentioned network data with target terminal; Above-mentioned use interval can be specifically not to the network data of target terminal transmission objectives terminal current business, but target terminal can be invoked at the interval that the network data transmitted in centralized dispatching interval normally runs current business, namely target terminal is using the interval network data that can not receive current business, but can be invoked at centralized dispatching interval and receive network data and run current business.

Optionally, above-mentioned centralized dispatching is interval and use interval can be specifically time interval, such as: centralized dispatching interval is early than using interval time interval.In addition, above-mentioned centralized dispatching is interval and use interval can be specifically between the lane place of motion track of target terminal, such as: the interval position in this motion track of centralized dispatching is before using interval position.

Optionally, in the present embodiment, above-mentioned centralized dispatching interval specifically can represent that one or more centralized dispatching is interval, above-mentioned use interval can be specifically represent that one uses interval or multiple use interval, wherein, interval corresponding one or more of each centralized dispatching uses interval, one uses interval interval corresponding with a centralized dispatching, such as: when above-mentioned motion track is through multiple community, above-mentioned centralized dispatching interval can be specifically represent that the center of the plurality of community is interval, the interval corresponding use of centralized dispatching is interval can one or more edge interval of Shi Gai community.

103, in described centralized dispatching interval, described network data is sent according to described selectivity scheduling strategy to described target terminal; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business.

When step 103 specifically can identify above-mentioned centralized dispatching interval according to above-mentioned block information, send described network data according to described selectivity scheduling strategy to described target terminal.Such target terminal just can receive above-mentioned network data in centralized dispatching interval, and target terminal is in centralized dispatching interval and use interval this network data of just can calling to run current business.

Optionally, after step 103, described method can also comprise:

Carry out for keeping the essential information that the link of described target terminal current business and this business is presence to transmit at described interval and the described target terminal of using.

Optionally, above-mentioned essential information specifically can include but not limited to keep-alive or the heartbeat signaling of transmission control protocol (Transmission Control Protocol, TCP).

Optionally, after step 103, described method can also comprise:

When described network data does not comprise described target terminal in the network data that the described service needed using interval excess minutes to run loads, intervally send to described target terminal the network data that described target terminal loads in the service needed that described excess minutes runs described use.

More normally can run business in use interval by strong guarantee target terminal like this.

Optionally, after step 103, described method can also comprise:

When described target terminal current business sends change, receive described target terminal that described target terminal sends report change after the service quality of business need information.

The above-mentioned selectivity scheduling strategy of information updating can be needed, to improve the precision of selectivity scheduling strategy like this according to the service quality received.

Optionally, described network data is used to indicate target terminal reporting uplink data; Described according to described selectivity scheduling strategy to after described target terminal sends described network data, described method also comprises:

The upstream data that described target terminal responds the transmission of described network data is received in described centralized dispatching interval.

Like this can at the upstream data that the interval realize target terminal transmission of centralized dispatching is interval in centralized dispatching and use is interval.

Optionally, described target terminal is the network resource transmission situation of described target terminal each position in the motion track of following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the regioselectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and described use interval are between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching.

The scheduling being carried out network data by the motion track of target terminal can be realized like this.

The network resource transmission situation that described target terminal is each time point of the position of described target terminal residing for following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the time selectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and the described time interval using the different time points of interval position residing for described target terminal, described centralized dispatching is interval interval early than described use.

The scheduling being carried out network data by the time point of target terminal present position can be realized like this.

Described method can be specifically be applied to the network equipment, such as: wireless access network (Radio Access Network, RAN) equipment, core net (Core Network, CN) network equipment such as equipment and base station, wherein, above-mentioned steps 101, step 102 and step 103 can be that the different network equipments performs, when performing for the different network equipments, can be carry out sharing of the information such as above-mentioned Consumer's Experience strategy and motion track between these network equipments, concrete sharing mode, does not elaborate herein.In addition, above-mentioned steps 101, step 102 and step 103 can also be that consolidated network equipment performs.

Above-mentioned target terminal can be any equipment possessing communication, can be specifically subscriber equipment.Such as: panel computer, mobile phone, electronic reader, remote controller, personal computer (Personal Computer, PC), notebook computer, mobile unit, Web TV, wearable device etc. have the smart machine of network function.

In technique scheme, target of prediction terminal is in the network resource transmission situation of following certain hour section; The selectivity scheduling strategy ensureing Consumer's Experience is generated based on described network resource transmission situation, wherein, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use; Described network data is sent according to described selectivity scheduling strategy to described target terminal in described centralized dispatching interval; Described like this target terminal just can call described network data in described centralized dispatching interval and described use interval and run current business.Thus the business that can realize ensureing mobile terminal runs is smooth.

Please refer to Fig. 2, Fig. 2 is the schematic flow sheet of a kind of network data transmission method that the embodiment of the present invention provides, and as shown in Figure 2, comprises the following steps:

201, the motion track of target terminal in following certain hour section is obtained.

Optionally; step 201 can be specifically the motion track by measuring the motion track getting target terminal or the target terminal calculated by the information that target terminal reports, or the information of the direct motion track of the target terminal of receiving target terminal to report.The present embodiment is not construed as limiting this.Such as, motion track etc. and above-mentioned motion track can be specifically the motion track of target terminal in following certain hour section, in following half an hour.And above-mentioned motion track can be specifically the motion track of plane, namely this motion track can be specifically the motion track of longitude and latitude change; Or above-mentioned motion track can also be specifically the motion track in space, namely this motion track can be specifically the motion track of longitude, latitude and spatial height variations, such as, target terminal moves to ten floor in this building from the one deck in a building, then from the one deck in this another building of ten floor movement.In addition, above-mentioned motion track can be specifically the motion track of position and time variations, namely this motion track can be specifically the position residing for different time points target terminal, such as: time point A target terminal is in position A, time point B target terminal is in position B, and time point C target terminal is in position C etc.

202, the network resource transmission situation of each position in described motion track is predicted.

Optionally, above-mentioned network resource transmission situation can be specifically for representing the transmission quality transmitting data between network side and target terminal, as better in worked as the transmission quality transmitting data between network side and target terminal, just represents that network resource transmission situation is better, otherwise, poorer.

203, the network resource transmission situation based on each position in described motion track generates the regioselectivity scheduling strategy (Regional Selective Scheduling Strategy, RSSS) ensureing Consumer's Experience, wherein, described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching, described centralized dispatching interval and described use interval are between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval, and the network resource transmission situation in described centralized dispatching interval is better than the described network resource transmission situation using interval.

Optionally, above-mentioned centralized dispatching interval can be specifically transmit between the lane place of above-mentioned network data for target terminal, and namely target terminal can receive above-mentioned network data when this centralized dispatching interval is mobile; Above-mentioned use interval can be specifically not to the network data of target terminal transmission objectives terminal current business, but the network data that target terminal can be invoked at the transmission of centralized dispatching interval is normally run between the lane place of current business, namely target terminal can not receive the network data of current business when using interval mobile, but can be invoked at centralized dispatching interval and receive network data and run current business.

Optionally, above-mentioned centralized dispatching interval is specifically as follows between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length pre-set; Such as, above-mentioned motion track is divided into N number of ad-hoc location interval, the interval range that a length-specific (such as: 100 meters) just can be selected in each like this ad-hoc location interval is interval as centralized dispatching.

Optionally, described centralized dispatching interval can be specifically between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length calculated according to real time information, and described real time information comprises following at least one item:

The service rate of the network resource transmission condition information of described motion track, the translational speed of described target terminal, described target terminal requires the traffic information of information, described motion track.

Such as, target terminal translational speed is faster, and the service rate of target terminal requires low, and network resource transmission situation lighter time, above-mentioned characteristic length is shorter, and when target terminal translational speed is slower, and the service rate of target terminal requires high, and network resource transmission situation heavier time, above-mentioned characteristic length is longer.Just can select between the good lane place of network resource transmission situation interval as centralized dispatching by above-mentioned steps, thus when this centralized dispatching interval sends above-mentioned network data to mobile terminal, efficiency of transmission and transmission speed can be relatively good, like this when target terminal moves to the poor position of network resource transmission situation (such as: cell edge), just can be used in centralized dispatching interval and receive network data, also can be run business glibly with realize target fast mobile terminal to target terminal during the position that network resource transmission situation is poor.

Optionally, above-mentioned use interval can be specifically in above-mentioned motion track and the interval position continuous print of above-mentioned centralized dispatching and being positioned between the lane place after described centralized dispatching interval.If above-mentioned centralized dispatching interval is between center of housing estate lane place, above-mentioned use is interval between cell edge lane place

Optionally, in the present embodiment, above-mentioned centralized dispatching interval specifically can represent that one or more centralized dispatching is interval, above-mentioned use interval can be specifically represent that one uses interval or multiple use interval, wherein, interval corresponding one or more of each centralized dispatching uses interval, one uses interval interval corresponding with a centralized dispatching, such as: when above-mentioned motion track is through multiple community, above-mentioned centralized dispatching interval can be specifically represent that the center of the plurality of community is interval, the interval corresponding use of centralized dispatching is interval can one or more edge interval of Shi Gai community.

204, when described target terminal moves to described centralized dispatching interval, described network data is sent according to described regioselectivity scheduling strategy to described target terminal; Described network data is used for described target terminal and calls described network data operation current business when described centralized dispatching is interval and described use interval is mobile.

Optionally, step 204 can be specifically the current location by obtaining target terminal, when the current location of target terminal is positioned at above-mentioned centralized dispatching interval, just can send described network data according to described Consumer's Experience strategy to described target terminal.

Optionally, above-mentioned current business refers to the business of the current operation of target terminal, such as: target terminal is when centralized dispatching interval is mobile, the so business of current business with regard to running when centralized dispatching interval is mobile for target terminal, target terminal is when using interval mobile, and so current business is just business that target terminal runs when using interval movement.Like this when target terminal receives this network data, the network data of the business just target terminal can run when region is moved is loaded in this business, to ensure the normal operation of this business, the network data buffer memory of the business that target terminal runs when using interval mobile by target terminal again, to local, call described network data when target terminal moves to described use interval and runs this business.Such as: when target terminal is positioned at above-mentioned centralized dispatching interval (such as: center of housing estate position), target terminal is running video traffic (i.e. displaying video), and according to the feature of this video can get target terminal be displaced into use interval (cell edge position) time, or at this video traffic of operation, so step 104 just can in advance centralized dispatching interval to target terminal send target terminal be positioned at use interval time this video traffic ensure the required network data loaded of smooth viewing, so just can avoid when target terminal be displaced into use interval due to channel quality bad, and cause video traffic to compare the phenomenon of card or the network bandwidth of application needs reducing and be switched to lower broadcasting code check thus reduction user service experience.

It should be noted that, same business can be different in the network data of different time points, and such as, video traffic different time points video pictures and audio frequency are different.And above-mentioned network data specifically can target terminal when centralized dispatching interval is mobile run required for the network data that loads, and target terminal use interval mobile time run required for the network data that loads.

Described method can be specifically be applied to the network equipment, such as: wireless access network (Radio Access Network, RAN) equipment, core net (Core Network, CN) network equipment such as equipment and base station, wherein, above-mentioned steps 201, step 202, step 203 and step 204 can be that the different network equipments performs, when performing for the different network equipments, can be carry out sharing of the information such as above-mentioned Consumer's Experience strategy and motion track between these network equipments, concrete sharing mode, does not elaborate herein.In addition, above-mentioned steps 201, step 202, step 203 and step 204 can also be that consolidated network equipment performs.

Above-mentioned target terminal can be any equipment possessing communication, can be specifically subscriber equipment.Such as: panel computer, mobile phone, electronic reader, remote controller, personal computer (Personal Computer, PC), notebook computer, mobile unit, Web TV, wearable device etc. have the smart machine of network function.

In technique scheme, obtain the motion track of target terminal; Predict the network resource transmission situation of each position in described motion track; Network resource transmission situation based on each position in described motion track generates the regioselectivity scheduling strategy ensureing Consumer's Experience; When described target terminal moves to described centralized dispatching interval, send described network data according to described regioselectivity scheduling strategy to described target terminal; Described like this target terminal calls described network data when described centralized dispatching is interval and described use interval is mobile and runs current business.Thus the business that can realize ensureing mobile terminal runs is smooth.

Please refer to Fig. 3, Fig. 3 is the schematic flow sheet of the another kind of network data transmission method that the embodiment of the present invention provides, and as shown in Figure 3, comprises the following steps:

301, the motion track of target terminal in following certain hour section is obtained.

Optionally, step 301 specifically can comprise:

The motion track of target terminal in following certain hour section is obtained by the route model coupling of public transit facility.

Can be specifically by obtaining the signal of target terminal or the positional information of receiving target terminal to report, the temporal information of this signal or this positional information, judge whether target terminal processes on public transit facility, such as, judge whether target terminal is positioned on bus or train, then obtain the motion track of target terminal by the route model coupling of this public transit facility.

Optionally, step 301 specifically can comprise:

The positional information reported by described target terminal obtains the motion track of target terminal in following certain hour section.

The user of target terminal generally lives all can be more regular, such as, user is generally from the route of family to company in the morning, and the time is also almost all identical, so, step 201 just can calculate described target terminal according to the motion track of target terminal history and to be on duty the motion track of time period, and these computational methods are very accurate.Wherein, performing this step can be specifically the special movement pattern device of employing one, and this device can be dispose on network devices.

Optionally, step 301 specifically can comprise:

The motion track of target terminal in following certain hour section is obtained by multi-antenna technology.

Wherein, above-mentioned positional information can be specifically the information of the motion track of target terminal in following certain hour.Wherein, the information of the motion track that target terminal reports specifically can comprise the geographic location information of longitude, latitude, spatial altitude and the velocity information of target terminal movement, temporal information etc.Or terminal can also be preset motion track by end application, then is reported by this motion track, such as, terminal is passed through navigation type software (such as: Baidu's map, Google Maps) preset travel route and is reported.The information of the motion track that above-mentioned target terminal reports can also comprise the information of current persistent district, as PCI, Reference Signal Received Power (Reference Signal Receiving Power, RSRP), the information such as throughput, type of service, QoS of survice requirement, when receiving the information of above-mentioned current persistent district, just convenient follow-up formation zone selectivity scheduling strategy.

Optionally, step 301 specifically can comprise:

The motion track of target terminal in following certain hour section is obtained by the historical movement path of described target terminal.

Can be specifically the position first obtaining target terminal, such as: realize the location to target terminal by the associating reception technique of multiple cell, namely obtain the positional information of target terminal.The current moving direction of described target terminal and translational speed is obtained again by multi-antenna technology, because target moves in moving process, the switching of cell merge or signal transmitting antenna can be there is, just can measure direction and the translational speed of target terminal movement by the community that switches or transmitting antenna like this.And moving direction and translational speed just can calculate the motion track of target terminal in following certain hour section.

302, from the network performance data storehouse obtained in advance, inquire the network resource transmission situation of each position in described motion track; Wherein, described network performance data storehouse is the network performance data storehouse of the network resource transmission situation for representing specific location area, and described motion track is positioned at described specific location area.

Optionally, above-mentioned feature locations region specifically can refer to certain region such as province or city.Network performance data storehouse can be specifically the network resource transmission situation comprising each position in above-mentioned feature locations region.In addition, above-mentioned motion track is positioned at described specific location area can be specifically that above-mentioned specific location area comprises above-mentioned motion track.

Optionally, above-mentioned network resource transmission situation comprises:

Channel quality level situation and/or cell load situation.

Wherein, above-mentioned channel quality level situation specifically can refer to the channel quality information distributed intelligence of each position of above-mentioned motion track, can also be more specifically the channel quality information distributed intelligence of above-mentioned target this position when moving each position moving to above-mentioned motion track.Wherein, the interfere information that channel quality distributed intelligence can be specifically large scale fading information (such as: path loss or shadow fading) and be formed based on large scale decline, or channel quality distributed intelligence can be specifically Signal to Interference plus Noise Ratio (Signal to Interference plus Noise Ratio, SINR).

Wherein, above-mentioned cell load situation can be specifically the quantity of cell access terminals, and the web database technology of business that each terminal is run.

Optionally, described method can also comprise:

Obtain channel quality level situation and/or the cell load situation of described specific location area;

The network performance data storehouse of the network resource transmission situation for representing specific location area is set up according to the channel quality level situation obtained and/or cell load situation.

Wherein, the channel quality level situation of the described specific location area of above-mentioned acquisition can comprise:

Reception is positioned at described specific location area and quantity is greater than the channel information of the user terminal to send up of predetermined number, and analyzes the channel information received, to obtain the channel quality level situation of described ad-hoc location.

It can be specifically the measurement reporting channel information by great amount of terminals, collect the network performance parameter information of wireless network at diverse geographic location, such as, Reference Signal Received Power (the Reference Signal Receiving Power of each community, RSRP) signal strength signal intensity instruction (Received Signal Strength Indication, RSSI) information, user persistent district information and the SINR information etc., received.The channel quality level situation of wireless network in each geographical position is formed again by learning training, filtering process and rasterizing process etc.

Wherein, the channel quality level situation of the described specific location area of above-mentioned acquisition can comprise:

The channel quality level situation of described specific location area is measured by the associating reception technique of multiple cell and multi-antenna technology.

It can be specifically the channel quality level situation being measured above-mentioned specific location area by the associating reception technique of multi-antenna technology and multiple cell, such as: the moving direction and the translational speed that are obtained great amount of terminals by multi-antenna technology, and by the associating reception technique of multiple cell to the location of this great amount of terminals, thus position and the motion track of the great amount of terminals of specific location area can be got, the quantity that this specific location area each position accesses terminal can be obtained like this, by the quantity accessed terminal of each position, just can obtain the channel quality level situation of each position.

Optionally, the cell load situation of the described ad-hoc location of above-mentioned acquisition, comprising:

This cell load condition information that the base station obtaining each community of described specific location area reports, and the cell load situation combining that the cell load condition information obtained obtains described specific location area.

Such as, above-mentioned specific location area comprises multiple community, the cell load condition information of this community so just can be sent by the base station of this multiple community, then the cell load condition information of this multiple community in conjunction with acquisition, obtain the cell load situation in above-mentioned ad-hoc location interval.

303, the network resource transmission situation based on each position in described motion track generates the regioselectivity scheduling strategy ensureing Consumer's Experience, wherein, described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching, described centralized dispatching interval and the described interval that uses are between the lane place that in described motion track, position is connected, and after described use interval is positioned at described centralized dispatching interval, and the network resource transmission situation in described centralized dispatching interval is better than the described network resource transmission situation using interval.

Optionally, the business that above-mentioned target terminal runs when centralized dispatching interval is mobile can be same business with target terminal using the business of section operation, and the business of above-mentioned target terminal operation when centralized dispatching interval is mobile can be using the business of section operation for different business with target terminal.In addition, target terminal business that is interval in centralized dispatching or that use interval to run can be one or more business.

Optionally, described centralized dispatching interval can be specifically between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length pre-set.

Optionally, described centralized dispatching interval can be specifically between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length calculated according to real time information, and described real time information comprises following at least one item:

The service rate of the network resource transmission condition information of described motion track, the translational speed of described target terminal, described target terminal requires the traffic information of information, described motion track.

And above-mentioned network resource transmission condition information can comprise channel quality level situation and/or cell load situation.Such as, when the service rate of the translational speed of above-mentioned target terminal, described target terminal requires that the traffic information of information, described motion track is constant, above-mentioned centralized dispatching interval can be specifically between the lane place of the length-specific that channel quality level situation is best in ad-hoc location interval in described motion track, wherein, this length-specific is arranged according to cell load situation.Such as: the lighter above-mentioned length-specific of cell load situation arranges shorter, the heavier above-mentioned length-specific of cell load situation arranges longer, in addition, above-mentioned cell load situation can also comprise the priority level accessed terminal, when the terminal that the interval medium priority of above-mentioned ad-hoc location is not high is many, above-mentioned length-specific arranges longer, and when the terminal that the interval medium priority of above-mentioned ad-hoc location is not high is fewer, above-mentioned length-specific arranges shorter.Thus above-mentioned centralized dispatching interval can realize the priority level of the terminal accessed according to above-mentioned ad-hoc location and cell load is horizontally disposed with above-mentioned length-specific, to realize while target terminal, consider the data demand of other terminal, significantly impact and impact to ensure that data fairness does not cause.

Optionally, such as: when the translational speed of target terminal is constant, network load level is in 30% situation, and the length-specific in centralized dispatching interval can be 200m; Under network load level is 80% situation, the length-specific in centralized dispatching interval is 400m; Such as: when network load level is constant, when the speed of target terminal movement is 40 km per hour, the length-specific in centralized dispatching interval can be 200m, and when the speed of target terminal movement is 20 km per hour, the length-specific in centralized dispatching interval can be 400m etc.In addition, above-mentioned zone selectivity scheduling strategy can also comprise the accounting coefficient of scheduling, this accounting coefficient may be used for representing that the relative other-end of scheduling resource that current interval inner region selectivity regulation goal terminal is seized takies the ratio of scheduling resource, as terminal each under 4 terminals under normal consistency takies 25% resource, if accounting coefficient is 4, then execution area selectivity target terminal takies 80% resource of positive whole network; Like this, assuming that the interval 800ms in two centralized dispatching intervals, network load level is in 20% situation, and accounting coefficient can be set to 4, then centralized dispatching interval can be 200m; Under network load level is 80% situation, accounting coefficient is set to 2, then centralized dispatching interval is 400m; Accounting coefficient focuses on equilibrium region selectivity scheduling strategy in the interval fairness impact caused other users of centralized dispatching, needs to decide according to channel quality level distribution, user moving speed and network load level.

In another embodiment, step 303 specifically can comprise:

Obtain the characteristic information of described target terminal, and generate the regioselectivity scheduling strategy of Consumer's Experience according to the network resource transmission situation of each position in described characteristic information and described motion track, wherein, described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching, described centralized dispatching interval and the described interval that uses are between the lane place that in described motion track, position is connected, and after described use interval is positioned at described centralized dispatching interval, and the network resource transmission situation in described centralized dispatching interval is better than described use interval, described characteristic information comprises following at least one item:

The service rate of described target terminal requires information, the translational speed information of described target terminal and the traffic information of described motion track.

Can be specifically that the traffic information target of prediction terminal of translational speed information by being described target terminal and described motion track is interval and describedly use the business run during interval movement in described centralized dispatching.The network data that the service rate of the business run when described centralized dispatching interval is mobile by target terminal again requires information prediction to go out to load required for business that target terminal runs when described centralized dispatching interval is mobile, by target terminal described use interval mobile time the service rate of business that runs require information prediction go out target terminal described use interval mobile time the business run required for the network data that loads.Such as: step 303 can comprise:

According to scheduling interval in the network resource transmission situation choice set of each position in described motion track, and it is interval to select according to described centralized dispatching interval the use be positioned at after described centralized dispatching interval from described motion track, the network resource transmission situation in described centralized dispatching interval is better than described use interval;

Obtain the described characteristic information of described target terminal, and predict that described target terminal is in described centralized dispatching interval and the described time using interval movement according to described characteristic information;

According to the business of the current operation of described target terminal and described time prediction, target terminal is interval and describedly use the business run during interval movement in described centralized dispatching;

Generate the regioselectivity scheduling strategy ensureing Consumer's Experience; Described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching.

Can be specifically just can be predicted by the current translational speed information of described target terminal and the traffic information of described motion track, the translational speed that target terminal is interval in centralized dispatching and use is interval, and centralized dispatching is interval and use is interval fixing, the time of the movement that target terminal is interval in centralized dispatching and use is interval so just can be doped.And the business of the current operation of target terminal when strategy (generate above-mentioned run) is known, so just can and the business that use the time prediction of interval movement go out target terminal when described centralized dispatching interval and described use interval move run interval in centralized dispatching by business and target terminal.Such as: the current operation of target terminal (running when generating above-mentioned strategy) is video traffic, and the length of this video is 40 minutes, and target terminal is interval and use the overall length of time of interval movement to be 30 minutes in centralized dispatching at target terminal, target so just can be doped interval and use the business run during interval mobile to be all this video traffic in centralized dispatching.In addition, dope target terminal interval and described prediction using the business run during interval movement can also carry out different modes according to different service types in described centralized dispatching, such as: the business that during execution step 303, target terminal current business just can be run when centralized dispatching interval is moved with use interval in centralized dispatching interval and the use interval time of movement and the time prediction target terminal of this business according to target terminal for step 303 during the click such as video class business or audio class business (PULL) business, in addition, when during execution step 303, target terminal current business is the click such as video class business or audio class business (PULL) business, step 303 just can generate above-mentioned zone selectivity scheduling strategy according to the quality of service information of this business, ensure the service experience of user.When when performing step 303, target terminal current business is the propelling movement such as news category business or web page class business (PUSH) business, step 303 just can generate above-mentioned zone selectivity scheduling strategy according to the network resource transmission situation of motion track, such as, when the network resource transmission situation of above-mentioned motion track is relatively good, the web database technology represented by data message that the regioselectivity scheduling strategy generated comprises is many, when the network resource transmission situation of above-mentioned motion track is poor, the web database technology represented by data message that the regioselectivity scheduling strategy generated comprises is few.When performing step 303, target terminal current business is file transfer protocol (FTP) (File Transfer Protocol, FTP), during class Best-Effort service, step 303 just can generate above-mentioned zone selectivity scheduling strategy according to the network resource transmission situation of motion track.

Optionally, above-mentioned generation ensures that the regioselectivity scheduling strategy of Consumer's Experience can comprise:

The first network data loaded required for the business that target terminal runs when described centralized dispatching interval is mobile according to the service rate requirement forecast of described time and target terminal, and target of prediction terminal described use interval mobile time the business run required for the second network data that load;

Generate the regioselectivity scheduling strategy ensureing Consumer's Experience, described regioselectivity scheduling strategy comprises the data message for representing described first network data and second network data and the block information for described centralized dispatching interval.

Due to the above-mentioned business having doped target terminal and run when centralized dispatching interval is mobile at time and the target terminal of the interval movement of centralized dispatching, so just can draw the network data loaded required for the business that target terminal runs when centralized dispatching interval is mobile, i.e. above-mentioned first network data, in like manner, above-mentioned second network data are obtained.

Optionally, above-mentioned characteristic information can comprise the translational speed information of described target terminal and the traffic information of described motion track; The described characteristic information of the described target terminal of above-mentioned acquisition, and predict that described target terminal is in described centralized dispatching interval and the described time using interval movement, can comprise according to described characteristic information:

According to the traffic information of the current translational speed of described target terminal and described motion track, predict described target terminal in described centralized dispatching the interval and described translational speed using interval;

According to the translational speed that described target terminal is interval in described centralized dispatching and described use is interval, predict that described target terminal is in described centralized dispatching interval and the described time using interval movement.

The present embodiment can also quote third-party server, this server for provide motion track the traffic information of position of process, this sample embodiment just can calculate to a nicety out described target terminal more in the time using interval movement, or more accurately can also calculate the translational speed of target terminal, or the business that the above-mentioned target terminal that more calculates to a nicety out runs in centralized dispatching interval with when using interval mobile.

Optionally, above-mentioned centralized dispatching interval specifically can be selected by following formula:

SchedulingInterval(d,t)＝f(NetworkLoad(t,t+1),UserServerRate(t,t+1),UserSpeed(t,t+1),UserSINRDistribution(d))

Wherein, SchedulingInterval is the interval in centralized dispatching interval, NetworkLoad is the load state of network, UserServerRate is the service rate requirement of target terminal, UserSpeed is the translational speed of target terminal, UserSINRDistribution is the channel quality level distribution of described motion track, and d represents the position in above-mentioned motion track, and t represents the time.Because the motion track of target terminal in actual applications generally can pass multiple cell, so just can be configured in one or more centralized dispatching interval of each cell configuration for target terminal, so just can be weighed the position in centralized dispatching interval by the interval in centralized dispatching interval, namely above-mentioned condition is the load state by network, the service rate requirement of target terminal, the translational speed of target terminal and channel quality level distribution calculate, such as, Network load status is lighter, when target terminal translational speed is very fast, can select more to concentrate on channel quality (such as: the highest SINR is interval) best between a certain lane place interval as centralized dispatching, namely the interval in centralized dispatching interval is larger, such as a community selects the center of this community interval interval as centralized dispatching, so just can concentrate on and once send above-mentioned network data to target terminal in a community.Such as: offered load is heavier, target terminal translational speed is slower, can select more to be dispersed in good channel quality (such as: better SINR is interval) interval to transmit, namely the interval in centralized dispatching interval is smaller, and the centralized dispatching of selection is interval many; Such as a community is selected between the reasonable lane place of multiple channel qualities of this community interval as centralized dispatching, so just can send above-mentioned network data to target terminal three times in a community, thus avoid the service affecting other terminal.

Optionally, the data volume of the network data of the business specifically can run in described centralized dispatching interval with when using interval mobile by target terminal described in following formulae discovery:

PreBufferingSize(d,t)＝f(UserServerRate(t,t+1),InterValTime(d,d+1))

Wherein, PreBufferingSize represents the data volume of described network data, UserServerRate represents the service rate requirement of target terminal, InterValTime represents the interval in centralized dispatching interval, it is interval that this interval comprises this centralized dispatching use that is interval and the interval correspondence of this centralized dispatching, d represents the position in above-mentioned motion track, and t represents the time; Such as: if the translational speed of target terminal is constant, the service rate of target terminal requires constant, then the data total amount of the described network data in each centralized dispatching interval can be rate requirement * (using the translational speed of interval distance/target terminal) * (1+ redundancy percentage).In addition, this redundancy percentage can be specifically the precision predicted the network data of target terminal according to network and determine, and when the network data precision of prediction height of network to target terminal, just can arrange smaller by this redundancy percentage, otherwise, arrange larger.

304, when described target terminal moves to described centralized dispatching interval, described network data is sent according to described regioselectivity scheduling strategy to described target terminal; Described network data is used for described target terminal and calls described network data operation current business when described centralized dispatching is interval and described use interval is mobile.

Optionally, above-mentioned zone selectivity scheduling strategy can also comprise for representing that described target terminal is in described centralized dispatching interval and the described velocity information using interval translational speed; Namely in step 303, the translational speed that the target terminal of prediction is interval in described centralized dispatching and described use is interval is increased in above-mentioned zone selectivity scheduling strategy.Step 304 specifically can comprise:

Obtain the translational speed that described target terminal is current, and predict according to this translational speed the real-time translational speed that described target terminal is interval in described centralized dispatching and described use is interval;

Described target terminal is compared in described centralized dispatching interval and the described translational speed in interval that uses in described centralized dispatching interval and the described described target terminal using interval real-time translational speed and described velocity information to represent, and adjusts the data message of described regioselectivity scheduling strategy according to this comparative result;

The network data represented by the data message after described adjustment is sent to described target terminal.

Wherein, can be specifically calculate the current translational speed of target terminal by the traffic information of motion track, then according to the traffic information of motion track and current translational speed predict described target terminal in described centralized dispatching the interval and described real-time translational speed using interval; Wherein, this real-time translational speed refers to the translational speed of the prediction when performing step 304, and this translational speed and the translational speed that step 303 is predicted may be different.Comprising data message by above-mentioned zone selectivity scheduling strategy is that the translational speed that step 303 is predicted according to step 303 dopes, the data message that such step 304 just can comprise according to above-mentioned comparative result adjustment region selectivity scheduling strategy, namely adjust target terminal represented by data message use interval mobile time run the network data of business.Step 304 is again to the network data represented by the data message after target terminal adjustment.The data message adjusting above-mentioned strategy according to the translational speed of target terminal in real time can be realized like this.In addition, above-mentioned real-time translational speed can be realized to be updated to above-mentioned zone selectivity scheduling strategy, to calculate the interval corresponding data message of next centralized dispatching.

Optionally, after the step 304, described method can also comprise:

According to data message and the above-mentioned real-time translational speed renewal above-mentioned zone selectivity scheduling strategy of above-mentioned adjustment.Can be implemented in target terminal like this, to enter next centralized dispatching interval, the regioselectivity scheduling strategy that what step 204 adopted is after upgrading, the precision of network data scheduling.

Optionally, step 304 can comprise:

Obtain the current location information of described target terminal, and it is interval to judge whether described current location belongs to described centralized dispatching, if so, then sends described network data according to described regioselectivity scheduling strategy to described target terminal.

Time if the above is determined No, continue the current location information obtaining target terminal, until the current location information obtained belongs to above-mentioned centralized dispatching interval.

Optionally, after the step 304, described method can also comprise:

When described target terminal moves to described use interval, carry out for keeping described target terminal current business to transmit with the essential information that the link of this current business is presence with described target terminal.

Optionally, above-mentioned essential information specifically can include but not limited to keep-alive or the heartbeat signaling of TCP.

Optionally, after the step 304, described method can also comprise:

When described target terminal moves to described use interval, and described network data does not comprise described target terminal when the network data that the described service needed using the excess minutes of interval movement to run loads, send the network data of the service needed loading that described target terminal runs at described excess minutes to described target terminal.

Wherein, above-mentioned excess minutes specifically can refer to the time of target terminal outside the time using interval movement that step 303 is predicted, such as, the target terminal that step 303 is predicted is 10 o'clock to 10: 10 in the time of the interval movement of use, and the road conditions of motion track change or the speed of target terminal reduces, cause and target terminal is 10 o'clock to 10: 15 in the time of the interval actual movement of use, so, time between 10: 10 to 10: 15 is just above-mentioned excess minutes, namely the network data loaded required for the business that target terminal runs at this excess minutes by above-mentioned steps is sent to target terminal.Such guarantee target terminal normally runs business at the interval traveling time of use.

Optionally, after the step 304, described method can also comprise:

When described target terminal current business sends change, receive described target terminal that described target terminal sends report change after the service quality of business need information.

Information updating above-mentioned zone selectivity scheduling strategy can be needed, to improve the precision of regioselectivity scheduling strategy like this according to the service quality received.

Optionally, predict that the network resource transmission situation of each position in described motion track can be specifically the network resource transmission situation of multiple reference position in this motion track of prediction, can be specifically carry out predicting according to the interval granularity of the interval granularity of the reference position of network resource transmission situation and the reference position of motion track in above-mentioned network performance data storehouse, such as, when in above-mentioned network performance data storehouse, the interval granularity of the reference position of network resource transmission situation is 5 meters, and the interval granularity of the reference position of motion track is 10 meters, so just can by the network resource transmission situation interpolation of the reference position of network resource transmission situation in motion track, to obtain the network resource transmission situation of multiple reference position in motion track.

Optionally, the network resource transmission situation of each position in described motion track, wherein, the network resource transmission situation of above-mentioned position is the network resource transmission situation of described target terminal this position when moving to this position.The network resource transmission situation that can realize different positions is like this network resource transmission situation of different time, such as: dope target terminal moves to motion track position A at time A, target terminal moves to the position B of motion track at time B, target terminal moves to the position C of motion track at time C, target terminal moves to the position D of motion track at time D, so, position A network resource transmission situation can be just the network resource transmission situation breath of position A when time A, position B network resource transmission situation can be just the network resource transmission situation of position B when time B, position C network resource transmission situation can be just the network resource transmission situation of position C when time C, position D network resource transmission situation can be just the network resource transmission situation of position D when time D.

Optionally, described network data is used to indicate target terminal reporting uplink data, and such as, above-mentioned network data is resource allocation signal, or request msg etc.; As shown in Figure 4, after the step 304, described method can also comprise:

305, when described target terminal is when described centralized dispatching interval is mobile, the upstream data that described target terminal responds the transmission of described network data is received.

Such as, the network data that step 304 sends is that order target terminal is when uploading the network data of upstream data, just can realize making target terminal upload upstream data when centralized dispatching interval is mobile by this step, wherein, this upstream data specifically can comprise the upstream data that target terminal reports required for the interval business with running when using interval mobile in centralized dispatching.

In technique scheme, above embodiment basis on describe the execution mode of plurality of optional, and the business that can realize ensureing mobile terminal runs is smooth.

Please refer to Fig. 5, Fig. 5 is the schematic flow sheet of the another kind of network data transmission method that the embodiment of the present invention provides, and as shown in Figure 5, comprises the following steps:

401, the position of described target terminal residing for following certain hour section is predicted.

Can be specifically that the positional information reported by target terminal obtains the position of target terminal residing for following certain hour section, it can also be the current location by obtaining target terminal to the upward signal measurement of target terminal, again according to the position of current business target of prediction terminal residing for following certain hour section of target terminal, can also be predict the position of described target terminal residing for following certain hour section by the present position historical record of target terminal.Namely step 401 at least can comprise with one of under type:

The positional information reported by described target terminal predicts the position of described target terminal residing for following certain hour section;

The position of described target terminal residing for following certain hour section is predicted by the present position historical record of described target terminal.

Such as: target terminal is on Monday nearly all fixing to the rule of the position residing for target terminal during Friday, and such as: at 9 in the morning is all be in office at 18 in afternoon, be all be in family etc. in the evening 20 o'clock to 24 o'clock.

402, from the network performance data storehouse obtained in advance, inquire the network resource transmission situation of each time point of the position of target terminal residing for following certain hour section, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of the described specific location area of described following certain hour section.

Wherein, the position residing for described target terminal belongs to described specific location area.

Such as: at 9 in target terminal morning is all be in office at 18 in afternoon, and office when going to work in the morning, nooning time, can be all offered load heavier time before leaving offices, therefore this period is network resource transmission situation poor time, and all the other time network resource transmission situations are relatively better.

Optionally, described network resource transmission situation can comprise: channel quality level situation and/or cell load situation;

Before step 402, described method can also comprise:

Obtain channel quality level situation and/or the cell load situation of each time point of the described specific location area of described following certain hour section;

The network performance data storehouse of the network resource transmission situation for representing the described specific location area of described following certain hour section is set up according to the channel quality level situation obtained and/or cell load situation.

Optionally, the channel quality level situation of each time point of the described specific location area of the described following certain hour section of above-mentioned acquisition and/or cell load situation, can comprise:

The channel quality level situation of each time point of the described specific location area of described following certain hour section is obtained by the temporal regularity of the channel quality level situation of described specific location area; And/or

The cell load situation of each time point of the described specific location area of described following certain hour section is obtained by the temporal regularity of the cell load situation of described specific location area.

Because very multipoint network resource transmission situation exists certain hour rule in actual applications, such as: in Administrative Area, when just starting working, channel area load state can be poor, and being on duty operating time cell load situation can be relatively good; Such as: in subway station, that knows subway by the planning time table of public transport enters the station time, and subway enters the station and can cause effect of signals to ad-hoc location in station, and then affect the channel quality level of user, the great amount of terminals that simultaneously enters the station switches into our station, thus the cell load situation of our station is overweight.In addition, the temporal regularity of the channel quality level situation of some ad-hoc location and the temporal regularity of cell load situation can also be gone out by historical statistics, thus set up above-mentioned network performance data storehouse according to these temporal regularities.

403, the network resource transmission situation of each time point of the position of based target terminal residing for following certain hour section generates time selectivity scheduling strategy (the Time Selective Scheduling Strategy ensureing Consumer's Experience, TSSS), wherein, described time selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, the network resource transmission situation in described centralized dispatching interval is better than the described network resource transmission situation using interval, described centralized dispatching interval and the described time interval using the different time points of interval position residing for described target terminal, described centralized dispatching is interval interval early than described use.

Optionally, above-mentioned centralized dispatching interval can be specifically that namely target terminal can receive above-mentioned network data in centralized dispatching interval for transmitting the time interval of above-mentioned network data with target terminal; Above-mentioned use interval can be specifically not to the network data of target terminal transmission objectives terminal current business, but target terminal can be invoked at the time interval that the network data transmitted in centralized dispatching interval normally runs current business, namely target terminal is using the interval network data that can not receive current business, but can be invoked at centralized dispatching interval and receive network data and run current business.

Optionally, described centralized dispatching interval is the time interval of the specific duration that in described following certain hour section special time interval, network resource transmission situation is best, and described following certain hour section comprises special time interval described at least one, wherein, described specific duration is the length pre-set; Such as, interval by being divided into N number of special time in above-mentioned following certain hour, the interval range that a specific duration (such as: 10 minutes) just can be selected in each like this special time interval is interval as centralized dispatching.

Optionally, described centralized dispatching interval is between the lane place of the specific duration that in described following certain hour section special time interval, network resource transmission situation is best, and described following certain hour section comprises special time interval described at least one, wherein, described specific duration is the length calculated according to real time information, and described real time information comprises following at least one item:

The network resource transmission condition information of described following certain hour section and the service rate of described target terminal require information.

Such as, the service rate of target terminal requires low, and when network resource transmission situation is lighter, above-mentioned feature duration is shorter, and when the service rate of target terminal requires high, and when network resource transmission situation is heavier, above-mentioned feature duration is longer.The good time interval of network resource transmission situation just can be selected as centralized dispatching interval (working operating time) by above-mentioned steps, thus when this centralized dispatching interval sends above-mentioned network data to mobile terminal, efficiency of transmission and transmission speed can be relatively good, like this when time interval (such as: the dinner hour) that network resource transmission situation is poor, just can be used in centralized dispatching interval and receive network data, also can be run business glibly to realize at the time interval target terminal that network resource transmission situation is poor.

Optionally, in the present embodiment, above-mentioned centralized dispatching interval specifically can represent that one or more centralized dispatching is interval, above-mentioned use interval can be specifically represent that one uses interval or multiple use interval, wherein, interval corresponding one or more of each centralized dispatching uses interval, one uses interval interval corresponding with a centralized dispatching, such as: when above-mentioned motion track is through multiple community, above-mentioned centralized dispatching interval can be specifically represent that the center of the plurality of community is interval, the interval corresponding use of centralized dispatching is interval can one or more edge interval of Shi Gai community.

Optionally, step 403 specifically can comprise:

Select described centralized dispatching interval according to the network resource transmission situation of each time point of the position of described target terminal residing for following certain hour section, and it is interval from following certain hour section, to select according to described centralized dispatching interval the use being later than described centralized dispatching interval;

According to the traffic forecast of the current operation of described target terminal, target terminal is in described centralized dispatching interval and the described business using interval to run;

Generate the time selectivity scheduling strategy ensureing Consumer's Experience; Described time selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching.

Interval according to described centralized dispatching and use target terminal described in the service rate requirement forecast of interval duration and described target terminal to load required for the interval business run of described centralized dispatching first network data, and target of prediction terminal uses described the second network data loaded required for the interval business run;

Generate the time selectivity scheduling strategy ensureing Consumer's Experience, described time selectivity scheduling strategy comprises the data message for representing described first network data and second network data and the block information for described centralized dispatching interval.

Interval and after using interval when selecting above-mentioned centralized dispatching, namely the time in two intervals fixing after, so just can go out the target terminal business that interval and described use interval is run in described centralized dispatching by traffic forecast.Such as: the current operation of target terminal (running when generating above-mentioned strategy) is video traffic, and the length of this video is 40 minutes, and centralized dispatching interval and the interval overall length of use are 30 minutes, so just can dope target in centralized dispatching interval and the interval business run of use is all this video traffic.In addition, dope target terminal can also carry out different modes according to different service types prediction in described centralized dispatching interval and the described business using interval to run, such as: the business that during execution step 403, target terminal current business just can be run with use interval in centralized dispatching interval with the duration in use interval and the time prediction target terminal of this business according to centralized dispatching interval for step 403 during the click such as video class business or audio class business (PULL) business, in addition, when during execution step 403, target terminal current business is the click such as video class business or audio class business (PULL) business, step 403 just can generate above-mentioned time selectivity scheduling strategy according to the quality of service information of this business, ensure the service experience of user.When when performing step 403, target terminal current business is the propelling movement such as news category business or web page class business (PUSH) business, step 403 just interval according to centralized dispatching and that use is interval network resource transmission situation can generate above-mentioned time selectivity scheduling strategy, such as, when the network resource transmission situation in centralized dispatching interval is relatively good, the web database technology represented by data message that the time selectivity scheduling strategy generated comprises is many, when the network resource transmission situation in above-mentioned centralized dispatching interval is poor, the web database technology represented by data message that the time selectivity scheduling strategy generated comprises is few.When performing step 403, target terminal current business is file transfer protocol (FTP) (File Transfer Protocol, FTP), during class Best-Effort service, step 403 just can generate above-mentioned time selectivity scheduling strategy according to the network resource transmission situation in centralized dispatching interval.

404, in described centralized dispatching interval, described network data is sent according to described time selectivity scheduling strategy to described target terminal; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business.

Just perform step 404 when being centralized dispatching and being interval and send described network data according to described time selectivity scheduling strategy to described target terminal, namely the network data of target terminal interval business with using interval to run in centralized dispatching can be received in centralized dispatching interval internal object terminal, to make target terminal in described centralized dispatching interval and described use section operation current business.Above-mentioned current business refers to the business of the current operation of target terminal, such as: interval in centralized dispatching, so current business is just the business that target terminal runs in centralized dispatching interval, interval in use, and so current business is just for target terminal is using the interval business run.

Optionally, after step 404, described method also comprises:

Carry out for keeping the essential information that the link of described target terminal current business and this business is presence to transmit at described interval and the described target terminal of using.

Optionally, above-mentioned essential information specifically can include but not limited to keep-alive or the heartbeat signaling of TCP.

Optionally, after step 404, described method also comprises:

When described network data does not comprise described target terminal in the network data that the described service needed using interval excess minutes to run loads, intervally send to described target terminal the network data that described target terminal loads in the service needed that described excess minutes runs described use.

So more ensure that target terminal normally runs business at the interval traveling time of use.

Optionally, after step 404, described method also comprises:

When described target terminal current business sends change, receive described target terminal that described target terminal sends report change after the service quality of business need information.

The above-mentioned time selectivity scheduling strategy of information updating can be needed, to improve the precision of time selectivity scheduling strategy like this according to the service quality received.

Optionally, described network data is used to indicate target terminal reporting uplink data, and such as, above-mentioned network data is resource allocation signal, and after step 404, described method can also comprise:

The upstream data that described target terminal responds the transmission of described network data is received in described centralized dispatching interval.

Such as, the network data that step 404 sends is that order target terminal is when uploading the network data of upstream data, just can realize making target terminal upload upstream data when centralized dispatching interval is mobile by this step, wherein, this upstream data specifically can comprise the upstream data that target terminal reports required for the interval business with using interval to run in centralized dispatching.

Described method can be specifically be applied to the network equipment, such as: the network equipments such as RAN equipment, CN equipment and base station, wherein, above-mentioned steps 401, step 402, step 403 and step 404 can be that the different network equipments performs, when performing for the different network equipments, can be carry out sharing of the information such as above-mentioned Consumer's Experience strategy and motion track between these network equipments, concrete sharing mode, elaborate herein.In addition, above-mentioned steps 401, step 402, step 403 and step 404 can also be that consolidated network equipment performs.

Above-mentioned target terminal can be any equipment possessing communication, can be specifically subscriber equipment.Such as: panel computer, mobile phone, electronic reader, remote controller, PC, notebook computer, mobile unit, Web TV, wearable device etc. have the smart machine of network function.

In technique scheme, predict the position of described target terminal residing for following certain hour section; From the network performance data storehouse obtained in advance, inquire the network resource transmission situation of each time point of the position of target terminal residing for following certain hour section, the network resource transmission situation of each time point of the position of based target terminal residing for following certain hour section generates the time selectivity scheduling strategy ensureing Consumer's Experience; Described network data is sent according to described time selectivity scheduling strategy to described target terminal in described centralized dispatching interval; Described like this target terminal calls described network data in described centralized dispatching interval and described use interval and runs current business.Thus the business that can realize ensureing mobile terminal runs is smooth.

Please refer to Fig. 6, Fig. 6 is the schematic flow sheet of the another kind of network data transmission method that the embodiment of the present invention provides, and as shown in Figure 6, comprises the following steps:

501, target terminal receives the described target terminal of network equipment transmission in described centralized dispatching interval and the network data using the interval business run in centralized dispatching interval; Wherein, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use.

Optionally, described centralized dispatching interval and described use interval are that between the lane place of described target terminal diverse location in the motion track of following certain hour section, described centralized dispatching interval is positioned at before described use interval.Namely target terminal receives the described target terminal of network equipment transmission in described centralized dispatching interval and the network data using the business run during interval movement when centralized dispatching interval is mobile.

Optionally, described centralized dispatching interval and the described time interval using the different time points of interval position residing for target terminal described in uncertain certain hour, described centralized dispatching is interval interval early than described use.Namely target terminal is in the network data of described target terminal in described centralized dispatching interval with the interval business run of use of centralized dispatching interval mobile reception network equipment transmission.

502, network data described in target terminal buffer memory.

Can be specifically to local by this network data buffer memory.

503, target terminal calls described network data in described centralized dispatching interval and described use interval and runs current business.

Optionally, step 503 can be specifically run current business at the target terminal of above-mentioned centralized dispatching section space aim terminal invocation step 502 buffer memory in the network data of the interval business run of above-mentioned centralized dispatching, or the network data of the business that the target terminal that directly invocation step 501 receives runs in above-mentioned centralized dispatching interval runs current business, the business that this current business is run in above-mentioned centralized dispatching interval for target terminal.In the network data operation current business of the business that the target terminal of above-mentioned use section space aim terminal invocation step 502 buffer memory runs in above-mentioned use interval, the business that this current business is run in above-mentioned use interval for target terminal.Buffered in advance target terminal can be realized like this in the network data using the interval business run, to ensure that service operation is smooth, to promote Consumer's Experience.

Optionally, described network data is used to indicate target terminal reporting uplink data, and such as, above-mentioned network data is resource allocation signal, or request msg etc.; Step 303 can comprise:

Target terminal calls described network data in described centralized dispatching interval and described use interval and runs current business, and sends the upstream data of the described network data of response to the described network equipment.

Such as, when the network data that network side sends is the network data of order target terminal reporting uplink data, just can realize making target terminal in the interval reporting uplink data of centralized dispatching by this step, wherein, this upstream data specifically can comprise the upstream data that target terminal reports required for the interval business with using interval to run in centralized dispatching.

Optionally, described method can also comprise:

Described target terminal uses interval essential information of carrying out for keeping the link of current business and described current business to be presence with the described network equipment to transmit described.

Above-mentioned essential information specifically can include but not limited to keep-alive or the heartbeat signaling of TCP.

Optionally, described method can also comprise:

When described network data does not comprise described target terminal in the network data that the described service needed using interval excess minutes to run loads, the network data that described target terminal loads in the service needed that described excess minutes runs at the interval described target terminal receiving the transmission of the described network equipment of described use, and call this network data operation current business.

Wherein, above-mentioned excess minutes specifically can refer to the time of target terminal outside the time using interval movement that network side is predicted, such as, the target terminal of network side prediction is 10 o'clock to 10: 10 in the time of the interval movement of use, and the road conditions of motion track change or the speed of target terminal reduces, cause and target terminal is 10 o'clock to 10: 15 in the time of the interval actual movement of use, so, time between 10: 10 to 10: 15 is just above-mentioned excess minutes, namely the network data loaded required for the business that target terminal runs at this excess minutes by above-mentioned steps is sent to target terminal.Such guarantee target terminal normally runs business at the interval traveling time of use.

Optionally, described method can also comprise:

When described target terminal current business sends change, the service quality of the business after change is reported to need information to the network equipment.

Can realize like this needing the above-mentioned selectivity scheduling strategy of information updating by the network equipment according to this service quality.

Optionally, target terminal specifically can send the current location information of target terminal to the network equipment, when target terminal moves to above-mentioned centralized dispatching interval, target terminal just can receive the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching that the network equipment sends.Target terminal business that is interval in described centralized dispatching and that run when using interval mobile can be identical business, also can be different business.

Optionally, above-mentioned motion track can be specifically that target terminal reports, and such as, target terminal arranges a motion track, then this motion track is sent to the network equipment.In addition, above-mentioned motion track can also be the motion track that the network equipment calculates according to the signal of the transmission of target terminal or the historical movement path of target terminal.Such as: before step 501, described method can also comprise:

Target terminal reports the motion track of described target terminal to the described network equipment.

It is interval interval with use that such network equipment just can select above-mentioned centralized dispatching according to the network resource transmission situation of this motion track.

Such as: before step 501, described method can also comprise:

Target terminal is to described network equipment reporting position information.

Such network equipment just can obtain the position of target terminal according to this positional information, to dope the network resource transmission situation of this position in different time points, then it is interval interval with use to select above-mentioned centralized dispatching according to the network resource transmission situation of the different time points of this position.Or the described network equipment obtains the motion track of described target terminal by described positional information, then it is interval interval with use to select above-mentioned centralized dispatching according to the network resource transmission situation of this motion track.

Above-mentioned target terminal can be any equipment possessing communication, can be specifically subscriber equipment.Such as: panel computer, mobile phone, electronic reader, remote controller, PC, notebook computer, mobile unit, Web TV, wearable device etc. have the smart machine of network function.

In technique scheme, target terminal receives the described target terminal of network equipment transmission in described centralized dispatching interval and the network data using the interval business run in centralized dispatching interval; Wherein, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use; Network data described in described target terminal buffer memory; Described target terminal calls described network data in described centralized dispatching interval and described use interval and runs current business.Thus the business that can realize ensureing mobile terminal runs is smooth.

Please refer to Fig. 7, Fig. 7 is the schematic flow sheet of the another kind of network data transmission method that the embodiment of the present invention provides, and as shown in Figure 7, comprising:

601, the network resource transmission situation of specific location area each position is obtained.

Above-mentioned feature locations region specifically can refer to certain region such as province or city.Network performance data storehouse can be specifically the network resource transmission situation comprising each position in above-mentioned feature locations region.In addition, above-mentioned motion track is positioned at described specific location area can be specifically that above-mentioned specific location area comprises above-mentioned motion track.

Optionally, above-mentioned network resource transmission situation comprises:

Channel quality level situation and/or cell load situation.

Wherein, above-mentioned channel quality level situation specifically can refer to the channel quality information distributed intelligence of each position of above-mentioned motion track, can also be more specifically the channel quality information distributed intelligence of above-mentioned target this position when moving to each position of above-mentioned motion track.Wherein, the interfere information that channel quality distributed intelligence can be specifically large scale fading information (such as: path loss or shadow fading) and be formed based on large scale decline, or channel quality distributed intelligence can be specifically SINR.

Wherein, above-mentioned cell load situation can be specifically the quantity of cell access terminals, and the web database technology of business that each terminal is run.

602, carry out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section.

Optionally, step 602 specifically can comprise:

Carry out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, wherein, analyzing and processing comprises with one of under type:

Filtering process, rasterizing process, interpolation processing and sample process.

Can be specifically that above-mentioned specific location area is carried out rasterizing process, obtain multiple reference position point, location point corresponding according to the network resource transmission situation of each position of step 601 acquisition again, the network resource transmission situation of each position obtained step 601 carries out filtering process or interpolation processing or sample process, thus sets up above-mentioned network resource data storehouse.Such as: when location point many (such as: more than reference position point) that the network resource transmission situation that step 601 obtains is corresponding, just filtering process or sample process are carried out, to obtain the network resource transmission situation of above-mentioned each reference position point to the network resource transmission situation that step 601 obtains; When location point smaller (such as: be less than reference position point) that the network resource transmission situation that step 601 obtains is corresponding, just interpolation processing is carried out, to obtain the network resource transmission situation of above-mentioned each reference position point to the network resource transmission situation that step 602 obtains.In addition, step 602 can also be that interpolation processing is carried out in local, or sample process is carried out in local.

Optionally, the above-mentioned described network resource transmission situation to obtaining carries out analyzing and processing, specifically can comprise to set up network performance data storehouse:

Carry out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, wherein, described network performance data storehouse is for representing the descending and/or up network resource transmission situation of described specific location area each position.

Namely set up the network performance data storehouse of the descending and up network resource transmission situation for representing described specific location area each position, or set up the network performance data storehouse of the descending network resource transmission situation for representing described specific location area each position.Or for the network performance data storehouse of the up network resource transmission situation that represents described specific location area each position.

Optionally, step 601 can be specifically the descending and/or up network resource transmission situation obtaining above-mentioned specific location area each position, and such step 602 just can set up the network performance data storehouse of the descending and/or up network resource transmission situation for representing described specific location area each position.

Optionally, the network performance data storehouse that step 602 is set up can also be specifically the network resource transmission situation of the terminal of the dissimilar or different brackets represented in above-mentioned specific location area each position, such as: the network resource transmission situation that step 601 is obtained specific location area each position by step 602 is distinguished according to terminal that is dissimilar or different brackets, to set up the network performance data storehouse of the network resource transmission situation of the terminal of the dissimilar or different brackets represented in above-mentioned specific location area each position.

603, the Query Information that the network equipment sends is received, and from the network resource transmission situation of target terminal described in described network performance data library inquiry in following certain hour section, described target terminal ensures the selectivity scheduling strategy of Consumer's Experience in the network resource transmission situation of following certain hour section for generating, and described selectivity scheduling strategy is used for sending network data to described target terminal centralized dispatching is interval; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use.

Optionally, above-mentioned Query Information can be specifically the information of certain section in above-mentioned future, or comprise information and the positional information of target terminal residing within this time period of certain section in above-mentioned future, or the motion track information of above-mentioned target terminal in following certain hour section.

Wherein, above-mentioned specific location area comprises above-mentioned motion track, or specific location area is included in the position residing for following certain hour section target terminal.In addition, above-mentioned generation selectivity scheduling strategy and send the execution mode of network data to target terminal, with reference to the description of embodiment above, can not do repeat specification herein.

Optionally, after step 603, described method can also comprise:

The network resource transmission situation of described target terminal in following certain hour section is sent to the described network equipment;

When the described network equipment receives the network resource transmission situation of above-mentioned target terminal in following certain hour section, just based target terminal can generate in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience.

Optionally, after step 603, described method can also comprise:

Generate in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience based on described target terminal, and send described selectivity scheduling strategy to the described network equipment.

Wherein, the execution mode that the execution mode generating above-mentioned selectivity scheduling strategy can describe with reference to previous embodiments, does not do repeat specification herein.

Optionally, the network resource transmission situation of above-mentioned specific location area each position can be specifically the network resource transmission situation in following different time points of specific location area each position, or the network resource transmission situation of specific location area each position can be specifically the network resource transmission situation of the following set time point of specific location area each position.

Optionally, described target terminal can be the network resource transmission situation of described target terminal each position in the motion track of following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the regioselectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and described use interval can be between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching; Or

Described target terminal can be the network resource transmission situation of each time point of the position of described target terminal residing for following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the time selectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and described use interval can the time interval of different time points of position for described target terminal residing for, described centralized dispatching interval is early than described use interval.

Optionally, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of specific location area, and described motion track is positioned at described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation; Step 601 specifically can comprise:

Obtain channel quality level situation and/or the cell load situation of specific location area each position.

Wherein, the channel quality level situation of the described specific location area each position of above-mentioned acquisition specifically can comprise:

Reception is positioned at described ad-hoc location and quantity is greater than the channel information of the user terminal to send up of predetermined number, and analyzes the channel information received, to obtain the channel quality level situation of described specific location area each position.

Can be specifically the measurement reporting channel information by great amount of terminals, collect wireless network in the network performance parameter information of diverse geographic location, such as, RSRP, RSSI information of each community, user persistent district information and SINR information etc.The channel quality level situation of wireless network in each geographical position is formed again by learning training, filtering process etc.

Wherein, the channel quality level situation of the described specific location area each position of above-mentioned acquisition specifically can comprise:

The channel quality level situation of described specific location area each position is measured by the associating reception technique of multiple cell and multi-antenna technology.

It can be specifically the channel quality level situation being measured above-mentioned specific location area by the associating reception technique of multi-antenna technology and multiple cell, such as: the moving direction and the translational speed that are obtained great amount of terminals by multi-antenna technology, and by the associating reception technique of multiple cell to the location of this great amount of terminals, thus position and the motion track of the great amount of terminals of specific location area can be got, the quantity that this specific location area each position accesses terminal can be obtained like this, by the quantity accessed terminal of each position, just can obtain the channel quality level situation of each position.

Wherein, the cell load situation of the described specific location area of above-mentioned acquisition specifically can comprise:

This cell load condition information that the base station obtaining each community of described specific location area reports, and the cell load situation combining that the cell load condition information obtained obtains described specific location area.

Such as, above-mentioned specific location area comprises multiple community, the cell load condition information of this community so just can be sent by the base station of this multiple community, then the cell load condition information of this multiple community in conjunction with acquisition, obtain the cell load situation in above-mentioned ad-hoc location interval.

Optionally, described network performance data storehouse specifically can also be used for the network performance data storehouse of the network resource transmission situation of the different user rank representing specific location area each position, namely the network performance data storehouse of the two dimension of position and user class is set up, such as: this network performance data storehouse can represent, the network resource transmission situation of the user class A of location point A, the network resource transmission situation of the user class B of location point A, the network resource transmission situation of the user class A of location point B, the network resource transmission situation etc. of the user class B of location point B.Wherein, the network resource transmission situation of different user rank can be specifically the metrical information of the terminal to report by different user rank, or measure the network resource transmission situation that the methods such as the upward signal of the terminal of different user rank get different user rank, the present embodiment is not construed as limiting this.

Optionally, above-mentioned network performance data storehouse may be used for the network performance data storehouse of the network resource transmission situation of each time point representing described following certain hour section specific location area, and the position residing for described target terminal belongs to described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation; Step 601 specifically can comprise:

The channel quality level situation of each time point of the described specific location area of described following certain hour section is obtained by the temporal regularity of the channel quality level situation of described specific location area; And/or

The cell load situation of each time point of the described specific location area of described following certain hour section is obtained by the temporal regularity of the cell load situation of described specific location area.

Because very multipoint network resource transmission situation exists certain hour rule in actual applications, such as: in Administrative Area, when just starting working, channel area load state can be poor, and being on duty operating time cell load situation can be relatively good; Such as: in subway station, that knows subway by the planning time table of public transport enters the station time, and subway enters the station and can cause effect of signals to ad-hoc location in station, and then affect the channel quality level of user, the great amount of terminals that simultaneously enters the station switches into our station, thus the cell load situation of our station is overweight.In addition, the temporal regularity of the channel quality level situation of some ad-hoc location and the temporal regularity of cell load situation can also be gone out by historical statistics, thus set up above-mentioned network performance data storehouse according to these temporal regularities.

Optionally, the network performance data storehouse of the network resource transmission situation of each position of each time point of the concrete all right described following certain hour section specific location area in described network performance data storehouse, namely the network performance data storehouse of the two dimension of position and time is set up, such as: this network performance data storehouse can represent, the network resource transmission situation of time point A location point A, the network resource transmission situation of time point B location point A, the network resource transmission situation of time point A location point B, the network resource transmission situation etc. of time point B location point B.

Optionally, the network performance data storehouse of the network resource transmission situation of the different user rank of each position of each time point of the concrete all right described following certain hour section specific location area in described network performance data storehouse, namely position is set up, the network performance data storehouse of the three-dimensional of time and user class, such as: this network performance data storehouse can represent, the network resource transmission situation of the user class A of time point A location point A, the network resource transmission situation of the user class B of time point B location point A, the network resource transmission situation of the user class A of time point A location point B, the network resource transmission situation etc. of the user class B of time point B location point B.

Optionally, above-mentioned steps 601 can be specifically real-time or periodically perform, in the network resource transmission status update that step 601 obtains by step 602 again to above-mentioned network performance data storehouse, to realize the above-mentioned network performance data storehouse of real-time update.

Optionally, described method specifically can be applied to the network equipments such as RAN equipment, CN equipment and base station, and in addition, the method can also be applied to the independently network equipment, and namely this network equipment only realizes said method.

In technique scheme, obtain the network resource transmission situation of specific location area each position; Carry out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section; Receive the Query Information that the network equipment sends, and from the network resource transmission situation of target terminal described in described network performance data library inquiry in following certain hour section, described target terminal ensures the described selectivity scheduling strategy of Consumer's Experience in the network resource transmission situation of following certain hour section for generating, and described selectivity scheduling strategy is used for sending network data to described target terminal centralized dispatching is interval.Thus the business that can realize ensureing mobile terminal runs is smooth, promotes Consumer's Experience.

Be illustrated with a concrete example below, please refer to Fig. 8 and Fig. 9

701, network performance analysis management system receives the channel measurement information that reports of great amount of terminals, to calculate the network resource transmission situation of wireless network in each geographical position different time and different terminals type.Such as: large scale decline distributed intelligence and/or the SINR distributed intelligence based on large scale.

702, strategic decision-making system obtains the motion track in following certain hour section of target terminal, the regioselectivity scheduling strategy of the guarantee Consumer's Experience of target terminal is generated again according to above-mentioned network resource transmission situation, the regioselectivity scheduling strategy of this guarantee Consumer's Experience comprises the block information at least one centralized dispatching interval, and the data message for representing network data in each centralized dispatching interval, this data message is for representing in the interval network data being sent as described target terminal interval business with running when using interval mobile in centralized dispatching to user of this centralized dispatching, the described interval that uses is for being positioned between the lane place after described centralized dispatching interval in described motion track, wherein, a centralized dispatching is interval interval to one or more use.

703, when target terminal moves to above-mentioned centralized dispatching interval, strategy execution system sends according to above-mentioned zone selectivity scheduling strategy the network data represented described in the data message in this centralized dispatching interval to target terminal.

704, when target terminal moves to above-mentioned centralized dispatching interval, receive the target terminal of strategy execution system transmission in centralized dispatching interval and the network data using the business run during interval movement, and the network data of business that invocation target terminal is run when centralized dispatching interval is mobile runs current business, and caching of target terminal use interval mobile time the network data of business run.

705, when target terminal moves to above-mentioned centralized dispatching interval, target terminal responds above-mentioned network data to strategy execution system reporting uplink data.Wherein, just perform when this step only has target terminal to need reporting uplink data.

706, when target terminal moves to above-mentioned use interval, the network data of the business that the target terminal calling buffer memory runs when using interval movement runs current business.

Such as: as shown in Fig. 9-A, the motion track of target terminal is by community 1, community 2 and community 3, wherein, the SINR distribution of motion track is as shown in Fig. 9-B, target terminal move to community 1, community 2 and community 3 center time this position SNIR high, when target terminal move to community 1, community 2 and community 3 marginal position time this position SNIR low.As shown in Fig. 9-C, such strategic decision-making system just can community 1, community 2 and community 3 interval, center be set to centralized dispatching interval, to be configured such that between the lane place between two centralized dispatching intervals with interval, can also be configured such that between the lane place of SNIR lower than certain certain value with interval certainly.Like this when target terminal move to centralized dispatching interval time, strategy execution system just can send target terminal to target terminal and move to and nextly use the network data loaded required for the business run during interval.

It should be noted that, above-mentioned network performance analysis management system, strategic decision-making system, strategy execution system can be deployed on the different network equipments, when above-mentioned network performance analysis management system, strategic decision-making system, strategy execution system can be deployed on the different network equipments perform above-mentioned steps time, the mutual of information can be there is between each system, do not represent in the figure 7, such as, above-mentioned channel quality distributed intelligence is sent to strategic decision-making system by network performance analysis management system, above-mentioned Consumer's Experience strategy is sent to strategy execution system by strategic decision-making system.In addition, above-mentioned network performance analysis management system, strategic decision-making system, strategy execution system also can be deployed on the same network equipment, and the embodiment of the present invention is not construed as limiting this.In addition, system here can be understood as a device.

Be apparatus of the present invention embodiment below, the method that apparatus of the present invention embodiment realizes for performing the inventive method embodiment one to six, for convenience of explanation, illustrate only the part relevant to the embodiment of the present invention, concrete ins and outs do not disclose, and please refer to the embodiment of the present invention one, embodiment two, embodiment three, embodiment four, embodiment five and embodiment six.

Please refer to Figure 10, Figure 10 is the structural representation of a kind of network data transmission device that the embodiment of the present invention provides, and as shown in Figure 10, comprising: the first predicting unit 81, generation unit 82 and the first transmitting element 83, wherein:

First predicting unit 81, for the network resource transmission situation of target of prediction terminal in following certain hour section.

Optionally, first predicting unit 81 can be specifically the network resource transmission situation of target of prediction terminal each position in the motion track of following certain hour section, or the network resource transmission situation of each time point of the position of target of prediction terminal residing for following certain hour section.

Optionally, above-mentioned network resource transmission situation can be specifically for representing the transmission quality transmitting data between network side and user terminal, as better in worked as the transmission quality transmitting data between network side and target terminal, just represents that network resource transmission situation is better, otherwise, poorer.

Optionally, above-mentioned following certain hour section can be specifically the time pre-set, such as: 1 hour or 5 hours or 1 day etc.

Optionally, the first predicting unit 81 may be used for from the network performance data storehouse obtained in advance, inquire the network resource transmission situation of described target terminal in following certain hour section; Wherein, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section.

Namely get in advance and comprise the network performance data storehouse of described target terminal in the network resource transmission situation of following certain hour section.

Generation unit 82, described network resource transmission situation for predicting based on described first predicting unit 81 generates the selectivity scheduling strategy ensureing Consumer's Experience, wherein, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use.

Optionally, above-mentioned centralized dispatching interval can be specifically that namely target terminal can receive above-mentioned network data in this centralized dispatching interval for transmitting the interval of above-mentioned network data with target terminal; Above-mentioned use interval can be specifically not to the network data of target terminal transmission objectives terminal current business, but target terminal can be invoked at the interval that the network data transmitted in centralized dispatching interval normally runs current business, namely target terminal is using the interval network data that can not receive current business, but can be invoked at centralized dispatching interval and receive network data and run current business.

Optionally, above-mentioned centralized dispatching is interval and use interval can be specifically time interval, such as: centralized dispatching interval is early than using interval time interval.In addition, above-mentioned centralized dispatching is interval and use interval can be specifically between the lane place of motion track of target terminal, such as: the interval position in this motion track of centralized dispatching is before using interval position.

Optionally, in the present embodiment, above-mentioned centralized dispatching interval specifically can represent that one or more centralized dispatching is interval, above-mentioned use interval can be specifically represent that one uses interval or multiple use interval, wherein, interval corresponding one or more of each centralized dispatching uses interval, one uses interval interval corresponding with a centralized dispatching, such as: when above-mentioned motion track is through multiple community, above-mentioned centralized dispatching interval can be specifically represent that the center of the plurality of community is interval, the interval corresponding use of centralized dispatching is interval can one or more edge interval of Shi Gai community.

First transmitting element 83, sends described network data for the selectivity scheduling strategy generated according to described generation unit 82 in described centralized dispatching interval to described target terminal; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business.

Such target terminal just can receive above-mentioned network data in centralized dispatching interval, and target terminal is in centralized dispatching interval and use interval this network data of just can calling to run current business.

Optionally, as shown in figure 11, described device can also comprise:

Transmission unit 84, for carrying out for keeping the essential information that the link of described target terminal current business and this business is presence to transmit at described interval and the described target terminal of using; And/or

Second transmitting element 85, for not comprising described target terminal when described network data when the network data that the described service needed using interval excess minutes to run loads, intervally send to described target terminal the network data that described target terminal loads in the service needed that described excess minutes runs described use; And/or

First receiving element 86, for when described target terminal current business sends change, receive described target terminal that described target terminal sends report change after the service quality of business need information.

Optionally, described network data is used to indicate target terminal reporting uplink data, and such as, above-mentioned network data is resource allocation signal, or request msg etc.; Described device can also comprise:

Second receiving element 87, for receiving in described centralized dispatching interval the upstream data that described target terminal responds the transmission of described network data; Described network data is used to indicate target terminal reporting uplink data.

Like this can at the upstream data that the interval realize target terminal transmission of centralized dispatching is interval in centralized dispatching and use is interval.

Optionally, described target terminal is the network resource transmission situation of described target terminal each position in the motion track of following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the regioselectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and described use interval are between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching.

The scheduling being carried out network data by the motion track of target terminal can be realized like this.

The network resource transmission situation that described target terminal is each time point of the position of described target terminal residing for following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the time selectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and the described time interval using the different time points of interval position residing for described target terminal, described centralized dispatching is interval interval early than described use.

The scheduling being carried out network data by the time point of target terminal present position can be realized like this.

Described device can be specifically be applied to the network equipment, such as: the network equipments such as RAN equipment, CN equipment and base station.

Above-mentioned target terminal can be any equipment possessing communication, can be specifically subscriber equipment.Such as: panel computer, mobile phone, electronic reader, remote controller, PC, notebook computer, mobile unit, Web TV, wearable device etc. have the smart machine of network function.

In technique scheme, target of prediction terminal is in the network resource transmission situation of following certain hour section; The selectivity scheduling strategy ensureing Consumer's Experience is generated based on described network resource transmission situation, wherein, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use; Described network data is sent according to described selectivity scheduling strategy to described target terminal in described centralized dispatching interval; Described like this target terminal just can call described network data in described centralized dispatching interval and described use interval and run current business.Thus the business that can realize ensureing mobile terminal runs is smooth.

Please refer to Figure 12, Figure 12 is the structural representation of a kind of network data transmission device that the embodiment of the present invention provides, and as shown in figure 12, comprising: second acquisition unit 91, first predicting unit 92, generation unit 93 and the first transmitting element 94, wherein:

Second acquisition unit 91, for obtaining the motion track of described target terminal in following certain hour section.

First predicting unit 92, for predicting the network resource transmission situation of each position in described motion track.

Generation unit 93, generates for the network resource transmission situation based on each position in described motion track the regioselectivity scheduling strategy ensureing Consumer's Experience, wherein, described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching, described centralized dispatching interval and described use interval are between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval, and the network resource transmission situation in described centralized dispatching interval is better than the described network resource transmission situation using interval.

Optionally, above-mentioned centralized dispatching interval can be specifically transmit between the lane place of above-mentioned network data for target terminal, and namely target terminal can receive above-mentioned network data when this centralized dispatching interval is mobile; Above-mentioned use interval can be specifically not to the network data of target terminal transmission objectives terminal current business, but the network data that target terminal can be invoked at the transmission of centralized dispatching interval is normally run between the lane place of current business, namely target terminal can not receive the network data of current business when using interval mobile, but can be invoked at centralized dispatching interval and receive network data and run current business.

Optionally, above-mentioned centralized dispatching interval is specifically as follows between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length pre-set.

Optionally, described centralized dispatching interval can be specifically between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length calculated according to real time information, and described real time information comprises following at least one item:

The service rate of the network resource transmission condition information of described motion track, the translational speed of described target terminal, described target terminal requires the traffic information of information, described motion track.

Such as, target terminal translational speed is faster, and the service rate of target terminal requires low, and network resource transmission situation lighter time, above-mentioned characteristic length is shorter, and when target terminal translational speed is slower, and the service rate of target terminal requires high, and network resource transmission situation heavier time, above-mentioned characteristic length is longer.Just can select between the good lane place of network resource transmission situation interval as centralized dispatching by above-mentioned steps, thus when this centralized dispatching interval sends above-mentioned network data to mobile terminal, efficiency of transmission and transmission speed can be relatively good, like this when target terminal moves to the poor position of network resource transmission situation (such as: cell edge), just can be used in centralized dispatching interval and receive network data, also can be run business glibly with realize target fast mobile terminal to target terminal during the position that network resource transmission situation is poor.

First transmitting element 94, during for moving to described centralized dispatching interval when described target terminal, sends described network data according to described regioselectivity scheduling strategy to described target terminal; Described network data is used for described target terminal and calls described network data operation current business when described centralized dispatching is interval and described use interval is mobile.

First transmitting element 94 can be specifically the current location by obtaining target terminal, when the current location of target terminal is positioned at above-mentioned centralized dispatching interval, just can send described network data according to described Consumer's Experience strategy to described target terminal.

Described device can be specifically be applied to the network equipment, such as: the network equipments such as RAN equipment, CN equipment and base station.

Above-mentioned target terminal can be any equipment possessing communication, can be specifically subscriber equipment.Such as: panel computer, mobile phone, electronic reader, remote controller, PC, notebook computer, mobile unit, Web TV, wearable device etc. have the smart machine of network function.

In technique scheme, obtain the motion track of target terminal; Predict the network resource transmission situation of each position in described motion track; Network resource transmission situation based on each position in described motion track generates the regioselectivity scheduling strategy ensureing Consumer's Experience; When described target terminal moves to described centralized dispatching interval, send described network data according to described regioselectivity scheduling strategy to described target terminal; Described like this target terminal calls described network data when described centralized dispatching is interval and described use interval is mobile and runs current business.Thus the business that can realize ensureing mobile terminal runs is smooth.

Please refer to Figure 13, Figure 13 is the structural representation of a kind of network data transmission device that the embodiment of the present invention provides, and as shown in figure 13, comprising: second acquisition unit 101, first predicting unit 102, generation unit 103 and the first transmitting element 104, wherein:

Second acquisition unit 101, for obtaining the motion track of target terminal in following certain hour section.

Optionally, second acquisition unit 101 may be used for obtaining the motion track of target terminal in following certain hour section by the route model coupling of public transit facility; Or

The positional information that second acquisition unit 101 may be used for being reported by described target terminal obtains the motion track of target terminal in following certain hour section; Or

Second acquisition unit 101 may be used for obtaining the motion track of target terminal in following certain hour section by multi-antenna technology; Or

Second acquisition unit 101 may be used for obtaining the motion track of target terminal in following certain hour section by the historical movement path of described target terminal.

First predicting unit 102, for inquiring the network resource transmission situation of each position in described motion track from the network performance data storehouse obtained in advance; Wherein, described network performance data storehouse is the network performance data storehouse of the network resource transmission situation for representing specific location area, and described motion track is positioned at described specific location area.

Optionally, above-mentioned feature locations region specifically can refer to certain region such as province or city.Network performance data storehouse can be specifically the network resource transmission situation comprising each position in above-mentioned feature locations region.In addition, above-mentioned motion track is positioned at described specific location area can be specifically that above-mentioned specific location area comprises above-mentioned motion track.

Optionally, above-mentioned network resource transmission situation comprises:

Channel quality level situation and/or cell load situation.

Wherein, above-mentioned channel quality level situation specifically can refer to the channel quality information distributed intelligence of each position of above-mentioned motion track, can also be more specifically the channel quality information distributed intelligence of above-mentioned target this position when moving each position moving to above-mentioned motion track.Wherein, the interfere information that channel quality distributed intelligence can be specifically large scale fading information (such as: path loss or shadow fading) and be formed based on large scale decline, or channel quality distributed intelligence can be specifically SINR.

Wherein, above-mentioned cell load situation can be specifically the quantity of cell access terminals, and the web database technology of business that each terminal is run.

Optionally, described device can also comprise:

First acquiring unit 105, for obtaining channel quality level situation and/or the cell load situation of described specific location area;

First sets up unit 106, for setting up the network performance data storehouse of the network resource transmission situation for representing specific location area according to the channel quality level situation obtained and/or cell load situation.

Optionally, first acquiring unit 105 specifically may be used for receiving and is positioned at described ad-hoc location and quantity is greater than the channel information of the user terminal to send up of predetermined number, and analyze the channel information received, to obtain the channel quality level situation of described specific location area.

First acquiring unit 105 can be specifically the measurement reporting channel information by great amount of terminals, collect the network performance parameter information of wireless network at diverse geographic location, such as, RSRP, RSSI information of each community, user persistent district information and SINR information etc.The channel quality level situation of wireless network in each geographical position is formed again by learning training, filtering process and rasterizing process etc.

Optionally, the first acquiring unit 105 specifically may be used for the channel quality level situation being measured described specific location area by the associating reception technique of multiple cell and multi-antenna technology.

First acquiring unit 105 can be specifically the channel quality level situation being measured above-mentioned specific location area by the associating reception technique of multi-antenna technology and multiple cell, such as: the moving direction and the translational speed that are obtained great amount of terminals by multi-antenna technology, and by the associating reception technique of multiple cell to the location of this great amount of terminals, thus position and the motion track of the great amount of terminals of specific location area can be got, the quantity that this specific location area each position accesses terminal can be obtained like this, by the quantity accessed terminal of each position, just can obtain the channel quality level situation of each position.

Optionally, this cell load condition information that the base station that the first acquiring unit 105 specifically can also be used for each community obtaining described specific location area reports, and the cell load situation combining that the cell load condition information obtained obtains described specific location area.

Such as, above-mentioned specific location area comprises multiple community, the cell load condition information of this community so just can be sent by the base station of this multiple community, then the cell load condition information of this multiple community in conjunction with acquisition, obtain the cell load situation in above-mentioned ad-hoc location interval.

Generation unit 103, generates for the network resource transmission situation based on each position in described motion track the regioselectivity scheduling strategy ensureing Consumer's Experience, wherein, described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching, described centralized dispatching interval and the described interval that uses are between the lane place that in described motion track, position is connected, and after described use interval is positioned at described centralized dispatching interval, and the network resource transmission situation in described centralized dispatching interval is better than the described network resource transmission situation using interval.

Optionally, described centralized dispatching interval can be specifically between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length pre-set.

Optionally, described centralized dispatching interval can be specifically between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length calculated according to real time information, and described real time information comprises following at least one item:

The service rate of the network resource transmission condition information of described motion track, the translational speed of described target terminal, described target terminal requires the traffic information of information, described motion track.

And above-mentioned network resource transmission condition information can comprise channel quality level situation and/or cell load situation.Such as, when the service rate of the translational speed of above-mentioned target terminal, described target terminal requires that the traffic information of information, described motion track is constant, above-mentioned centralized dispatching interval can be specifically between the lane place of the length-specific that channel quality level situation is best in ad-hoc location interval in described motion track, wherein, this length-specific is arranged according to cell load situation.Such as: the lighter above-mentioned length-specific of cell load situation arranges shorter, the heavier above-mentioned length-specific of cell load situation arranges longer, in addition, above-mentioned cell load situation can also comprise the priority level accessed terminal, when the terminal that the interval medium priority of above-mentioned ad-hoc location is not high is many, above-mentioned length-specific arranges longer, and when the terminal that the interval medium priority of above-mentioned ad-hoc location is not high is fewer, above-mentioned length-specific arranges shorter.Thus above-mentioned centralized dispatching interval can realize the priority level of the terminal accessed according to above-mentioned ad-hoc location and cell load is horizontally disposed with above-mentioned length-specific, to realize while target terminal, consider the data demand of other terminal, significantly impact and impact to ensure that data fairness does not cause.

Optionally, generation unit 103 specifically may be used for the characteristic information obtaining described target terminal, and generates according to the network resource transmission situation of each position in described characteristic information and described motion track the regioselectivity scheduling strategy ensureing Consumer's Experience; Wherein, described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described centralized dispatching interval and the described interval that uses are between the lane place that in described motion track, position is connected, and after described use interval is positioned at described centralized dispatching interval, and the network resource transmission situation in described centralized dispatching interval is better than described use interval, described characteristic information comprises following at least one item:

The service rate of described target terminal requires information, the translational speed information of described target terminal and the traffic information of described motion track.

Can be specifically that the traffic information target of prediction terminal of translational speed information by being described target terminal and described motion track is interval and describedly use the business run during interval movement in described centralized dispatching.The network data that the service rate of the business run when described centralized dispatching interval is mobile by target terminal again requires information prediction to go out to load required for business that target terminal runs when described centralized dispatching interval is mobile, by target terminal described use interval mobile time the service rate of business that runs require information prediction go out target terminal described use interval mobile time the business run required for the network data that loads.Such as: as shown in figure 14, described generation unit 103 comprises:

First selected cell 1031, with selecting described centralized dispatching interval according to the network resource transmission situation of each position in described motion track, and it is interval from described motion track, to select according to described centralized dispatching interval the use be positioned at after described centralized dispatching interval;

According to described characteristic information, second predicting unit 1032, for obtaining the described characteristic information of described target terminal, and predicts that described target terminal is in described centralized dispatching interval and the described time using interval movement;

3rd predicting unit 1033, for the business that target terminal according to the business of the current operation of described target terminal and the time prediction of described second predicting unit prediction runs when described centralized dispatching is interval and described use interval is mobile;

First generates subelement 1034, for generating the regioselectivity scheduling strategy ensureing Consumer's Experience; Described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching.

Optionally, first generates the first network data that subelement 1034 may be used for loading required for target terminal runs when described centralized dispatching interval is mobile according to the service rate requirement forecast of described time and target terminal business, and target of prediction terminal described use interval mobile time the business run required for the second network data that load; And generating the regioselectivity scheduling strategy ensureing Consumer's Experience, described regioselectivity scheduling strategy comprises the data message for representing described first network data and second network data and the block information for described centralized dispatching interval.

Due to the above-mentioned business having doped target terminal and run when centralized dispatching interval is mobile at time and the target terminal of the interval movement of centralized dispatching, so just can draw the network data loaded required for the business that target terminal runs when centralized dispatching interval is mobile, i.e. above-mentioned first network data, in like manner, above-mentioned second network data are obtained.

Optionally, above-mentioned characteristic information can comprise the translational speed information of described target terminal and the traffic information of described motion track; Described second predicting unit 1032 specifically may be used for the traffic information according to the current translational speed of described target terminal and described motion track, predicts the translational speed that described target terminal is interval in described centralized dispatching and described use is interval; Again according to the translational speed that described target terminal is interval in described centralized dispatching and described use is interval, predict that described target terminal is in described centralized dispatching interval and the described time using interval movement.

The present embodiment can also quote third-party server, this server for provide motion track the traffic information of position of process, this sample embodiment just can calculate to a nicety out described target terminal more in the time using interval movement, or more accurately can also calculate the translational speed of target terminal, or the business that the above-mentioned target terminal that more calculates to a nicety out runs in centralized dispatching interval with when using interval mobile.

First transmitting element 104, during for moving to described centralized dispatching interval when described target terminal, sends described network data according to described regioselectivity scheduling strategy to described target terminal; Described network data is used for described target terminal and calls described network data operation current business when described centralized dispatching is interval and described use interval is mobile.

Optionally, above-mentioned zone selectivity scheduling strategy can also comprise for representing that described target terminal is in described centralized dispatching interval and the described velocity information using interval translational speed; As shown in figure 15, described first transmitting element 104 can comprise:

4th predicting unit 1041, during for moving to described centralized dispatching interval when described target terminal, obtain the translational speed that described target terminal is current, and predict according to this translational speed the real-time translational speed that described target terminal is interval in described centralized dispatching and described use is interval;

Adjustment unit 1042, for described 4th predicting unit being predicted described target terminal compares in described centralized dispatching interval and the described translational speed in interval that uses in described centralized dispatching interval and the described described target terminal using interval real-time translational speed and described velocity information to represent, and adjust the data message of described regioselectivity scheduling strategy according to this comparative result;

Send subelement 1043, for sending the network data represented by the data message after the adjustment of described adjustment unit to described target terminal.

In addition, above-mentioned real-time translational speed can be realized to be updated to above-mentioned zone selectivity scheduling strategy, to calculate the interval corresponding data message of next centralized dispatching.

Optionally, first transmitting element 104 specifically may be used for the current location information obtaining described target terminal, and it is interval to judge whether described current location belongs to described centralized dispatching, if, then send described network data according to described regioselectivity scheduling strategy to described target terminal, if not, then the current location information of target terminal is again obtained.

Optionally, as shown in figure 16, described device can also comprise:

Transmission unit 105, during for moving to described use interval when described target terminal, carries out for keeping described target terminal current business to transmit with the essential information that the link of this current business is presence with described target terminal; And/or

Second transmitting element 106, interval for moving to described use when described target terminal, and described network data does not comprise described target terminal when the network data that the described service needed using the excess minutes of interval movement to run loads, send the network data of the service needed loading that described target terminal runs at described excess minutes to described target terminal; And/or

First receiving element 107, for when described target terminal current business sends change, receive described target terminal that described target terminal sends report change after the service quality of business need information.

Optionally, described network data is used to indicate target terminal reporting uplink data, and such as, above-mentioned network data is resource allocation signal, or request msg etc.; Described device can also comprise:

Second receiving element 108, for when described target terminal is when described centralized dispatching interval is mobile, receives the upstream data that described target terminal responds the transmission of described network data.

In technique scheme, above embodiment basis on describe the execution mode of plurality of optional, and the business that can realize ensureing mobile terminal runs is smooth.

Please refer to Figure 17, Figure 17 is the structural representation of a kind of network data transmission device that the embodiment of the present invention provides, and as shown in figure 17, comprising: the 5th predicting unit 111, first predicting unit 112, generation unit 113 and the first transmitting element 114, wherein:

5th predicting unit 111, for predicting the position of described target terminal residing for following certain hour section.

5th predicting unit 111 can be specifically that the positional information reported by target terminal obtains the position of target terminal residing for following certain hour section, it can also be the current location by obtaining target terminal to the upward signal measurement of target terminal, again according to the position of current business target of prediction terminal residing for following certain hour section of target terminal, can also be predict the position of described target terminal residing for following certain hour section by the present position historical record of target terminal.Such as, the positional information that the 5th predicting unit 111 may be used for being reported by described target terminal predicts the position of described target terminal residing for following certain hour section; And/or

5th predicting unit 111 can also be used for predicting the position of described target terminal residing for following certain hour section by the present position historical record of described target terminal.

Such as: target terminal is on Monday nearly all fixing to the rule of the position residing for target terminal during Friday, and such as: at 9 in the morning is all be in office at 18 in afternoon, be all be in family etc. in the evening 20 o'clock to 24 o'clock.

First predicting unit 112, for inquiring the network resource transmission situation of each time point of the position of target terminal residing for following certain hour section from the network performance data storehouse obtained in advance, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of the described specific location area of described following certain hour section.

Wherein, the position residing for described target terminal belongs to described specific location area.

Optionally, described network resource transmission situation can comprise: channel quality level situation and/or cell load situation; Described device can also comprise:

3rd acquiring unit 115, for obtaining channel quality level situation and/or the cell load situation of each time point of the described specific location area of described following certain hour section;

Second sets up unit 116, for setting up the network performance data storehouse of the network resource transmission situation for representing the described specific location area of described following certain hour section according to the channel quality level situation obtained and/or cell load situation.

Optionally, the 3rd acquiring unit 115 specifically may be used for the channel quality level situation being obtained each time point of the described specific location area of described following certain hour section by the temporal regularity of the channel quality level situation of described specific location area; And/or

3rd acquiring unit 115 specifically may be used for the cell load situation being obtained each time point of the described specific location area of described following certain hour section by the temporal regularity of the cell load situation of described specific location area.

Generation unit 113, network resource transmission situation for each time point of the position of based target terminal residing for following certain hour section generates the time selectivity scheduling strategy ensureing Consumer's Experience, wherein, described time selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, the network resource transmission situation in described centralized dispatching interval is better than the described network resource transmission situation using interval, described centralized dispatching interval and the described time interval using the different time points of interval position residing for described target terminal, described centralized dispatching is interval interval early than described use.

Optionally, above-mentioned centralized dispatching interval can be specifically that namely target terminal can receive above-mentioned network data in centralized dispatching interval for transmitting the time interval of above-mentioned network data with target terminal; Above-mentioned use interval can be specifically not to the network data of target terminal transmission objectives terminal current business, but target terminal can be invoked at the time interval that the network data transmitted in centralized dispatching interval normally runs current business, namely target terminal is using the interval network data that can not receive current business, but can be invoked at centralized dispatching interval and receive network data and run current business.

Optionally, described centralized dispatching interval is the time interval of the specific duration that in described following certain hour section special time interval, network resource transmission situation is best, and described following certain hour section comprises special time interval described at least one, wherein, described specific duration is the length pre-set; Such as, interval by being divided into N number of special time in above-mentioned following certain hour, the interval range that a specific duration (such as: 10 minutes) just can be selected in each like this special time interval is interval as centralized dispatching.

Optionally, described centralized dispatching interval is between the lane place of the specific duration that in described following certain hour section special time interval, network resource transmission situation is best, and described following certain hour section comprises special time interval described at least one, wherein, described specific duration is the length calculated according to real time information, and described real time information comprises following at least one item:

The network resource transmission condition information of described following certain hour section and the service rate of described target terminal require information.

Such as, the service rate of target terminal requires low, and when network resource transmission situation is lighter, above-mentioned feature duration is shorter, and when the service rate of target terminal requires high, and when network resource transmission situation is heavier, above-mentioned feature duration is longer.The good time interval of network resource transmission situation just can be selected as centralized dispatching interval (working operating time) by above-mentioned steps, thus when this centralized dispatching interval sends above-mentioned network data to mobile terminal, efficiency of transmission and transmission speed can be relatively good, like this when time interval (such as :) that network resource transmission situation is poor the time of having a rest in the morning, just can be used in centralized dispatching interval and receive network data, also can be run business glibly to realize at the time interval target terminal that network resource transmission situation is poor.

Optionally, as shown in figure 18, described generation unit 113 can comprise:

Second selected cell 1131, network resource transmission situation for each time point according to the position of described target terminal residing for following certain hour section selects described centralized dispatching interval, and it is interval from following certain hour section, to select according to described centralized dispatching interval the use being later than described centralized dispatching interval;

6th predicting unit 1132, for target terminal according to the traffic forecast of the current operation of described target terminal in described centralized dispatching interval and the described business using interval to run;

Second generates subelement 1133, for generating the time selectivity scheduling strategy ensureing Consumer's Experience; Described time selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching.

Optionally, second generation subelement 1133 may be used for first network data that are interval according to described centralized dispatching and that use target terminal described in the service rate requirement forecast of interval duration and described target terminal to load required for the interval business run of described centralized dispatching, and target of prediction terminal uses described the second network data loaded required for the interval business run; And generating the time selectivity scheduling strategy ensureing Consumer's Experience, described time selectivity scheduling strategy comprises the data message for representing described first network data and second network data and the block information for described centralized dispatching interval.

First transmitting element 114, for sending described network data according to described time selectivity scheduling strategy to described target terminal in described centralized dispatching interval; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business.

Described device can be specifically be applied to the network equipment, such as: the network equipments such as RAN equipment, CN equipment and base station.

Above-mentioned target terminal can be any equipment possessing communication, can be specifically subscriber equipment.Such as: panel computer, mobile phone, electronic reader, remote controller, PC, notebook computer, mobile unit, Web TV, wearable device etc. have the smart machine of network function.

In technique scheme, predict the position of described target terminal residing for following certain hour section; From the network performance data storehouse obtained in advance, inquire the network resource transmission situation of each time point of the position of target terminal residing for following certain hour section, the network resource transmission situation of each time point of the position of based target terminal residing for following certain hour section generates the time selectivity scheduling strategy ensureing Consumer's Experience; Described network data is sent according to described time selectivity scheduling strategy to described target terminal in described centralized dispatching interval; Described like this target terminal calls described network data in described centralized dispatching interval and described use interval and runs current business.Thus the business that can realize ensureing mobile terminal runs is smooth.

Please refer to Figure 19, Figure 19 is the structural representation of a kind of subscriber equipment that the embodiment of the present invention provides, and as shown in figure 19, comprising: the first receiving element 121, buffer unit 122 and call unit 123, wherein:

First receiving element 121, for receiving the described subscriber equipment of network equipment transmission in described centralized dispatching interval and the network data using the interval business run in centralized dispatching interval; Wherein, described network data is the network data of described subscriber equipment interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use.

Optionally, described centralized dispatching interval and described use interval are that between the lane place of described subscriber equipment diverse location in the motion track of following certain hour section, described centralized dispatching interval is positioned at before described use interval.Namely subscriber equipment receives the described subscriber equipment of network equipment transmission in described centralized dispatching interval and the network data using the business run during interval movement when centralized dispatching interval is mobile.

Optionally, described centralized dispatching interval and the described time interval using the different time points of interval position residing for subscriber equipment described in uncertain certain hour, described centralized dispatching is interval interval early than described use.Namely subscriber equipment is in the network data of described subscriber equipment in described centralized dispatching interval with the interval business run of use of centralized dispatching interval mobile reception network equipment transmission.

Buffer unit 122, for the network data that the first receiving element 121 described in buffer memory receives.

Call unit 123, runs current business for and the described network data using interval to call described buffer unit 122 buffer memory interval in described centralized dispatching.

Optionally, call unit 123 can be specifically run current business at the subscriber equipment of above-mentioned centralized dispatching interval subscriber equipment invocation step 502 buffer memory in the network data of the interval business run of above-mentioned centralized dispatching, or the network data of the business that the subscriber equipment directly calling the first receiving element 121 reception runs in above-mentioned centralized dispatching interval runs current business, the business that this current business is run in above-mentioned centralized dispatching interval for subscriber equipment.The network data of the business that the subscriber equipment calling buffer unit 122 buffer memory at the interval subscriber equipment of above-mentioned use runs in above-mentioned use interval runs current business, the business that this current business is run in above-mentioned use interval for subscriber equipment.Buffered in advance subscriber equipment can be realized like this in the network data using the interval business run, to ensure that service operation is smooth, to promote Consumer's Experience.

Optionally, above-mentioned network data is used to indicate described user equipment to report upstream data, and such as, above-mentioned network data is resource allocation signal, or request msg etc.; Described call unit 33 also calls described network data for and described use interval interval in described centralized dispatching and runs current business, and sends the upstream data of the described network data of response to the described network equipment.

Optionally, described device can also comprise:

Transmission unit 124, for using interval essential information of carrying out for keeping the link of current business and described current business to be presence with the described network equipment to transmit described; And/or

Second receiving element 125, when described network data does not comprise described subscriber equipment in the network data that the described service needed using interval excess minutes to run loads, in the network data that the interval described subscriber equipment receiving the transmission of the described network equipment of described use loads in the service needed that described excess minutes runs, and call this network data operation current business; And/or

3rd transmitting element 126, for when described subscriber equipment current business sends change, reports the service quality of the business after change to need information to the network equipment.

Optionally, described device can also comprise:

First transmitting element 127, for described network equipment reporting position information; Or

Second transmitting element 128, for reporting the motion track of described subscriber equipment to the described network equipment.

Such network equipment just can obtain the position of subscriber equipment according to this positional information, to dope the network resource transmission situation of this position in different time points, then it is interval interval with use to select above-mentioned centralized dispatching according to the network resource transmission situation of the different time points of this position.Or the described network equipment obtains the motion track of described subscriber equipment by described positional information, then it is interval interval with use to select above-mentioned centralized dispatching according to the network resource transmission situation of this motion track.

Above-mentioned subscriber equipment can be any equipment possessing communication, can be specifically subscriber equipment.Such as: panel computer, mobile phone, electronic reader, remote controller, PC, notebook computer, mobile unit, Web TV, wearable device etc. have the smart machine of network function.

In technique scheme, subscriber equipment receives the described subscriber equipment of network equipment transmission in described centralized dispatching interval and the network data using the interval business run in centralized dispatching interval; Wherein, described network data is the network data of described subscriber equipment interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use; Network data described in described subscriber equipment buffer memory; Described subscriber equipment calls described network data in described centralized dispatching interval and described use interval and runs current business.Thus the business that can realize ensureing mobile terminal runs is smooth.

Please refer to Figure 21, Figure 21 is the structural representation of a kind of network performance analysis device that the embodiment of the present invention provides, and as shown in figure 21, comprising: acquiring unit 131, set up unit 132 and query unit 133, wherein:

Acquiring unit 131, for obtaining the network resource transmission situation of specific location area each position.

Optionally, above-mentioned network resource transmission situation comprises:

Channel quality level situation and/or cell load situation.

Wherein, above-mentioned channel quality level situation specifically can refer to the channel quality information distributed intelligence of each position of above-mentioned motion track, can also be more specifically the channel quality information distributed intelligence of above-mentioned target this position when moving to each position of above-mentioned motion track.Wherein, the interfere information that channel quality distributed intelligence can be specifically large scale fading information (such as: path loss or shadow fading) and be formed based on large scale decline, or channel quality distributed intelligence can be specifically SINR.

Wherein, above-mentioned cell load situation can be specifically the quantity of cell access terminals, and the web database technology of business that each terminal is run.

Set up unit 132, for carrying out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section.

Optionally, set up unit 132 and specifically may be used for carrying out analyzing and processing to the described network resource transmission situation of acquisition, to set up network performance data storehouse, wherein, analyzing and processing comprises with one of under type:

Filtering process, rasterizing process, interpolation processing and sample process.

Optionally, set up unit 132 specifically to may be used for carrying out analyzing and processing to the described network resource transmission situation of acquisition, to set up network performance data storehouse, wherein, described network performance data storehouse is for representing the descending and/or up network resource transmission situation of described specific location area each position.

Optionally, the network performance data storehouse setting up unit 132 foundation can also be specifically the network resource transmission situation of the terminal of the dissimilar or different brackets represented in above-mentioned specific location area each position.

Query unit 133, for receiving the Query Information that the network equipment sends, and from the network resource transmission situation of target terminal described in described network performance data library inquiry in following certain hour section, described target terminal ensures the described selectivity scheduling strategy of Consumer's Experience in the network resource transmission situation of following certain hour section for generating, and described selectivity scheduling strategy is used for sending network data to described target terminal centralized dispatching is interval; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use.

Wherein, above-mentioned specific location area comprises above-mentioned motion track, or specific location area is included in the position residing for following certain hour section target terminal.In addition, above-mentioned generation selectivity scheduling strategy and send the execution mode of network data to target terminal, with reference to the description of embodiment above, can not do repeat specification herein.

Optionally, as shown in figure 22, described device can also comprise:

First transmitting element 134, for sending the network resource transmission situation of described target terminal in following certain hour section to the described network equipment; Or

Second transmitting element 135, for generating in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience based on described target terminal, and sends described selectivity scheduling strategy to the described network equipment.

Optionally, the network resource transmission situation of above-mentioned specific location area each position can be specifically the network resource transmission situation in following different time points of specific location area each position, or the network resource transmission situation of specific location area each position can be specifically the network resource transmission situation of the following set time point of specific location area each position.

Optionally, described target terminal can be the network resource transmission situation of described target terminal each position in the motion track of following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the regioselectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and described use interval can be between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching; Or

Described target terminal can be the network resource transmission situation of each time point of the position of described target terminal residing for following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the time selectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and described use interval can the time interval of different time points of position for described target terminal residing for, described centralized dispatching interval is early than described use interval.

Optionally, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of specific location area, and described motion track is positioned at described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation; Described acquiring unit 131 may be used for channel quality level situation and/or the cell load situation of described acquisition specific location area each position.Such as: acquiring unit 131 may be used for receiving and is positioned at described ad-hoc location and quantity is greater than the channel information of the user terminal to send up of predetermined number, and analyzes the channel information received, to obtain the channel quality level situation of described specific location area each position; Or acquiring unit 131 may be used for the channel quality level situation being measured described specific location area each position by the associating reception technique of multiple cell and multi-antenna technology;

This cell load condition information that the base station that acquiring unit 131 can also be used for each community obtaining described specific location area reports, and the cell load situation combining that the cell load condition information obtained obtains described specific location area.

Optionally, described network performance data storehouse specifically can also be used for the network performance data storehouse of the network resource transmission situation of the different user rank representing specific location area each position, namely the network performance data storehouse of the two dimension of position and user class is set up, such as: this network performance data storehouse can represent, the network resource transmission situation of the user class A of location point A, the network resource transmission situation of the user class B of location point A, the network resource transmission situation of the user class A of location point B, the network resource transmission situation etc. of the user class B of location point B.Wherein, the network resource transmission situation of different user rank can be specifically the metrical information of the terminal to report by different user rank, or measure the network resource transmission situation that the methods such as the upward signal of the terminal of different user rank get different user rank, the present embodiment is not construed as limiting this.

Optionally, above-mentioned network performance data storehouse may be used for the network performance data storehouse of the network resource transmission situation of each time point representing described following certain hour section specific location area, and the position residing for described target terminal belongs to described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation; Acquiring unit 131 may be used for channel quality level situation and/or the cell load situation of each time point obtaining described following certain hour section specific location area each position.Such as: acquiring unit 131 may be used for the channel quality level situation of each time point being obtained described following certain hour section described specific location area each position by the temporal regularity of the channel quality level situation of specific location area each position; And/or

Acquiring unit 131 may be used for the cell load situation of each time point being obtained described following certain hour section described specific location area each position by the temporal regularity of the cell load situation of specific location area each position.

Optionally, the network performance data storehouse of the network resource transmission situation of each position of each time point of the concrete all right described following certain hour section specific location area in described network performance data storehouse, namely the network performance data storehouse of the two dimension of position and time is set up, such as: this network performance data storehouse can represent, the network resource transmission situation of time point A location point A, the network resource transmission situation of time point B location point A, the network resource transmission situation of time point A location point B, the network resource transmission situation etc. of time point B location point B.

Optionally, the network performance data storehouse of the network resource transmission situation of the different user rank of each position of each time point of the concrete all right described following certain hour section specific location area in described network performance data storehouse, namely position is set up, the network performance data storehouse of the three-dimensional of time and user class, such as: this network performance data storehouse can represent, the network resource transmission situation of the user class A of time point A location point A, the network resource transmission situation of the user class B of time point B location point A, the network resource transmission situation of the user class A of time point A location point B, the network resource transmission situation etc. of the user class B of time point B location point B.

Optionally, described device specifically can be applied to the network equipments such as RAN equipment, CN equipment and base station, and in addition, the method can also be applied to the independently network equipment.

In technique scheme, obtain the network resource transmission situation of specific location area each position; Carry out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section; Receive the Query Information that the network equipment sends, and from the network resource transmission situation of target terminal described in described network performance data library inquiry in following certain hour section, described target terminal ensures the described selectivity scheduling strategy of Consumer's Experience in the network resource transmission situation of following certain hour section for generating, and described selectivity scheduling strategy is used for sending network data to described target terminal centralized dispatching is interval.Thus the business that can realize ensureing mobile terminal runs is smooth, promotes Consumer's Experience.

Please refer to Figure 23, Figure 23 is the structural representation of a kind of network data transmission system that the embodiment of the present invention provides, and as shown in figure 23, comprising: network performance analysis device 141 and network data transmission device 142, wherein:

Network performance analysis device 141, for obtaining the network resource transmission situation of specific location area each position; And analyzing and processing is carried out to the described network resource transmission situation obtained, to set up network performance data storehouse, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section; And receive the Query Information that the network equipment sends, and from the network resource transmission situation of target terminal described in described network performance data library inquiry in following certain hour section;

Described network data transmission device 142, for sending described network data according to selectivity scheduling strategy to described target terminal in centralized dispatching interval, wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business, described selectivity scheduling strategy is that described target terminal generates in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, the network resource transmission situation in described centralized dispatching interval is better than the described network resource transmission situation using interval.

Optionally, network performance analysis device 141 can also be used for the network resource transmission situation of target terminal described in described network data transmission device in following certain hour section; Described network data transmission device 142 is also for generating in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience based on described target terminal; Or

Described network performance analysis device 141 can also be used for generating in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience based on described target terminal, and sends described selectivity scheduling strategy to the described network equipment.

Optionally, network performance analysis device 141 can be the network performance analysis device of arbitrary execution mode that the embodiment of the present invention describes; Network data transmission device 142 is with the network data transmission device being arbitrary execution mode that the embodiment of the present invention describes.

In technique scheme, network performance analysis device obtains the network resource transmission situation of specific location area each position; And analyzing and processing is carried out, to set up network performance data storehouse to the described network resource transmission situation obtained; Described network data transmission device sends described network data according to selectivity scheduling strategy to described target terminal in centralized dispatching interval; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business, and described selectivity scheduling strategy is that described target terminal generates in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience.Described like this target terminal calls described network data in described centralized dispatching interval and described use interval and runs current business, thus the business that can realize ensureing mobile terminal runs is smooth.

Figure 24 is the structural representation of a kind of network data transmission system that the embodiment of the present invention provides, and as shown in figure 24, comprising: the network equipment 151 and target terminal 152, wherein:

The described network equipment 151, for the network resource transmission situation of target of prediction terminal in following certain hour section; The selectivity scheduling strategy ensureing Consumer's Experience is generated based on described network resource transmission situation, wherein, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use; Described network data is sent according to described selectivity scheduling strategy to described target terminal in described centralized dispatching interval; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business;

Described target terminal 152, calls described network data for and described use interval interval in described centralized dispatching and runs current business.

It should be noted that, the above-mentioned network equipment 151 specifically can refer to an equipment, and namely this equipment completes the operation that the above-mentioned network equipment 151 performs; The network equipment 151 specifically can refer to multiple equipment, and namely the plurality of equipment has coordinated the operation that the above-mentioned network equipment 151 performs.In addition, the above-mentioned network equipment 151 can complete any step in the embodiment shown in Fig. 1-Fig. 5.Target terminal 152 can complete any step in the embodiment shown in Fig. 6, does not do repeat specification herein.

In technique scheme, network equipment target of prediction terminal is in the network resource transmission situation of following certain hour section; The selectivity scheduling strategy ensureing Consumer's Experience is generated based on described network resource transmission situation; Described network data is sent according to described selectivity scheduling strategy to described target terminal in described centralized dispatching interval; Target terminal calls described network data in described centralized dispatching interval and described use interval and runs current business.The business that can realize like this ensureing mobile terminal runs is smooth.

Figure 25 is the structural representation of the another kind of network data transmission device that the embodiment of the present invention provides, as shown in figure 25, comprising: reflector 161 and memory 162, and the processor 163 be connected with reflector 161 and memory 162 respectively, memory 162 for program code stored, wherein:

The following operation of program execution that processor 163 stores for calling memory 162:

Target of prediction terminal is in the network resource transmission situation of following certain hour section;

The selectivity scheduling strategy ensureing Consumer's Experience is generated based on described network resource transmission situation, wherein, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use;

Reflector 161 sends described network data according to described selectivity scheduling strategy to described target terminal in described centralized dispatching interval; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business.

Optionally, processor 163 performs the operation of target of prediction terminal in the network resource transmission situation of following certain hour section, can comprise:

The network resource transmission situation of described target terminal in following certain hour section is inquired from the network performance data storehouse obtained in advance; Wherein, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section.

Optionally, described target terminal is the network resource transmission situation of described target terminal each position in the motion track of following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the regioselectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and described use interval are between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching; Or

The network resource transmission situation that described target terminal is each time point of the position of described target terminal residing for following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the time selectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and the described time interval using the different time points of interval position residing for described target terminal, described centralized dispatching is interval interval early than described use.

Optionally, described device can also comprise receiver 164,

Reflector 161 or receiver 164 are for carrying out for keeping the essential information that the link of described target terminal current business and this business is presence to transmit at described interval and the described target terminal of using; And/or

Reflector 161 can also be used for when described network data does not comprise described target terminal in the network data that the described service needed using interval excess minutes to run loads, and intervally sends to described target terminal the network data that described target terminal loads in the service needed that described excess minutes runs described use; And/or

Receiver 164 can also be used for when described target terminal current business sends change, receive described target terminal that described target terminal sends report change after the service quality of business need information.

Optionally, described network data is used to indicate target terminal reporting uplink data; Receiver 164 can also be used for receiving in described centralized dispatching interval the upstream data that described target terminal responds the transmission of described network data.

In another embodiment, processor 163 can also be used for:

The motion track of described target terminal in following certain hour section is obtained by receiver 164;

Predict the network resource transmission situation of each time point of the position of described target terminal residing for following certain hour section;

Network resource transmission situation based on each time point of the position of described target terminal residing for following certain hour section generates the regioselectivity scheduling strategy ensureing Consumer's Experience, wherein, described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching, described centralized dispatching interval and described use interval are between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval,

Reflector 161, for when described target is when described centralized dispatching interval is mobile, sends described network data according to described selectivity scheduling strategy to described target terminal; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business.

Optionally, the operation of the network resource transmission situation of each time point of the position of the described target terminal of prediction residing for following certain hour section that processor 163 performs, can comprise:

The network resource transmission situation of each position in described motion track is inquired from the network performance data storehouse obtained in advance; Wherein, described network performance data storehouse is the network performance data storehouse of the network resource transmission situation for representing specific location area, and described motion track is positioned at described specific location area.

Optionally, described network resource transmission situation comprises at least one item:

Channel quality level situation and/or cell load situation; Processor 163 can also be used for:

Channel quality level situation and/or the cell load situation of described specific location area is obtained by receiver 164;

The network performance data storehouse of the network resource transmission situation for representing specific location area is set up according to the channel quality level situation obtained and/or cell load situation.

Optionally, what processor 163 performed obtains the channel quality level situation of described specific location area and/or the operation of cell load situation by receiver 164, can comprise:

Receiver 164 can also be used for receiving and is positioned at described ad-hoc location and quantity is greater than the channel information of the user terminal to send up of predetermined number, and the channel information received is transferred to processor 141;

The channel information that processor 163 is received by analysis, to obtain the channel quality level situation of described specific location area.

Optionally, what processor 163 performed obtains the channel quality level situation of described specific location area and/or the operation of cell load situation by receiver 164, can comprise:

The associating reception technique of multiple cell and multi-antenna technology is utilized to measure the channel quality level situation of described specific location area by receiver 163.

Optionally, this cell load condition information that the base station that receiver 164 can also be used for each community obtaining described specific location area reports, the cell load condition information that processor 163 obtains in conjunction with receiver 164 again obtains the cell load situation of described specific location area.

Optionally, described centralized dispatching interval is between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length pre-set; Or

Described centralized dispatching interval is between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length calculated according to real time information, and described real time information comprises following at least one item:

The service rate of the network resource transmission condition information of described motion track, the translational speed of described target terminal, described target terminal requires the traffic information of information, described motion track.

Optionally, what processor 163 performed obtains the operation of described target terminal at the motion track of following certain hour section by receiver 164, can comprise with one of under type:

Utilize the route model of public transit facility to mate by receiver 164 and obtain the motion track of target terminal in following certain hour section;

Receive by receiver 164 positional information that described target terminal reports and obtain the motion track of target terminal in following certain hour section;

Multi-antenna technology is utilized to obtain the motion track of target terminal in following certain hour section by receiver 164;

The motion track of target terminal in following certain hour section is obtained by the historical movement path of described target terminal.

Optionally, the network resource transmission situation based on each position in described motion track that processor 163 performs generates the operation of the regioselectivity scheduling strategy ensureing Consumer's Experience, can comprise:

Obtained the characteristic information of described target terminal by receiver 164, and generate according to the network resource transmission situation of each position in described characteristic information and described motion track the regioselectivity scheduling strategy ensureing Consumer's Experience; Wherein, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described characteristic information comprises following at least one item:

The service rate of described target terminal requires information, the translational speed information of described target terminal and the traffic information of described motion track.

Optionally, the characteristic information being obtained described target terminal by receiver 164 that processor 163 performs, and the operation of the regioselectivity scheduling strategy ensureing Consumer's Experience is generated according to the network resource transmission situation of each position in described characteristic information and described motion track, can comprise:

Select described centralized dispatching interval according to the network resource transmission situation of each position in described motion track, and it is interval from described motion track, to select according to described centralized dispatching interval the use be positioned at after described centralized dispatching interval;

Obtained the described characteristic information of described target terminal by receiver 164, and predict that described target terminal is in described centralized dispatching interval and the described time using interval movement according to described characteristic information;

According to the business of the current operation of described target terminal and described time prediction, target terminal is interval and describedly use the business run during interval movement in described centralized dispatching;

Generate the regioselectivity scheduling strategy ensureing Consumer's Experience; Described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching.

Optionally, the operation of the formation zone selectivity scheduling strategy that processor 163 performs, can comprise:

The first network data loaded required for the business that target terminal runs when described centralized dispatching interval is mobile according to the service rate requirement forecast of described time and target terminal, and target of prediction terminal described use interval mobile time the business run required for the second network data that load;

Generate the regioselectivity scheduling strategy ensureing Consumer's Experience, described regioselectivity scheduling strategy comprises the data message for representing described first network data and second network data and the block information for described centralized dispatching interval.

Optionally, described characteristic information comprises the translational speed information of described target terminal and the traffic information of described motion track; The described characteristic information of the described target terminal of acquisition that processor 163 performs, and predict the interval and described operation using the time of interval movement in described centralized dispatching of described target terminal according to described characteristic information, can comprise:

According to the traffic information of the current translational speed of described target terminal and described motion track, predict described target terminal in described centralized dispatching the interval and described translational speed using interval;

According to the translational speed that described target terminal is interval in described centralized dispatching and described use is interval, predict that described target terminal is in described centralized dispatching interval and the described time using interval movement.

Optionally, described regioselectivity scheduling strategy also comprises for representing that described target terminal is in described centralized dispatching interval and the described velocity information using interval translational speed; Processor 163 can also be used for:

Obtain the current translational speed of described target terminal by receiver 164, and predict according to this translational speed the real-time translational speed that described target terminal is interval in described centralized dispatching and described use is interval;

Described target terminal is compared in described centralized dispatching interval and the described translational speed in interval that uses in described centralized dispatching interval and the described described target terminal using interval real-time translational speed and described velocity information to represent, and adjusts the data message of described regioselectivity scheduling strategy according to this comparative result;

The described regioselectivity scheduling strategy that reflector 161 performs sends the operation of described network data to described target terminal, can comprise:

The network data represented by the data message after described adjustment is sent to described target terminal.

Optionally, reflector 161 perform when described target terminal move to described centralized dispatching interval time, send the operation of described network data according to described regioselectivity scheduling strategy to described target terminal, can comprise:

When processor 163 judges that receiver 164 obtains the current location information of described target terminal, when belonging to described centralized dispatching interval, reflector 161 sends described network data according to described regioselectivity scheduling strategy to described target terminal.

Optionally, perform according to described regioselectivity scheduling strategy to after described target terminal sends the operation of described network data at reflector 161, receiver 164 can also be used for when described target terminal move to described use interval time, carry out for keeping the link of described business and described business to be that the essential information of presence is transmitted with described target terminal.

Optionally, perform according to described regioselectivity scheduling strategy to after described target terminal sends the operation of described network data at reflector 161, reflector 161 can also be used for when described target terminal moves to described use interval, and described network data does not comprise described target terminal when the network data that the described service needed using the excess minutes of interval movement to run loads, send the network data of the service needed loading that described target terminal runs at described excess minutes to described target terminal.

Optionally, perform according to described regioselectivity scheduling strategy to after described target terminal sends the operation of described network data at reflector 161, receiver 164 can also be used for when described target terminal current business sends change, receive described target terminal that described target terminal sends report change after the service quality of business need information.

Optionally, described network data is used to indicate target terminal reporting uplink data, and such as, above-mentioned network data is resource allocation signal, or request msg etc.; Perform according to described regioselectivity scheduling strategy to after described target terminal sends the operation of described network data at reflector 161, receiver 164 can also be used for, when described target terminal is when described centralized dispatching interval is mobile, receiving the upstream data that described target terminal responds the transmission of described network data.

Optionally, processor 163 can also be used for:

By the position of receiver 164 target of prediction terminal residing for following certain hour section;

Predict the network resource transmission situation of each time point of the position of described target terminal residing for following certain hour section;

The time selectivity scheduling strategy ensureing Consumer's Experience is generated based on described network resource transmission situation, wherein, described time selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, described centralized dispatching interval and the described time interval using the different time points of interval position residing for described target terminal, described centralized dispatching is interval interval early than described use;

Reflector 161 sends described network data according to described time selectivity scheduling strategy to described target terminal in described centralized dispatching interval; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business.

Optionally, the operation by the position of receiver 164 target of prediction terminal residing for following certain hour section that processor 163 performs, can comprise with one of under type:

The positional information reported by target terminal described in receiver 164 predicts the position of described target terminal residing for following certain hour section;

The position of described target terminal residing for following certain hour section is predicted by the present position historical record of described target terminal.

Optionally, the operation of the network resource transmission situation of each time point of the position of the described target terminal of prediction residing for following certain hour section that processor 163 performs, can comprise

The network resource transmission situation of described target terminal in following certain hour section is inquired from the network performance data storehouse obtained in advance; Wherein, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of each time point of described following certain hour section specific location area, and the position residing for described target terminal belongs to described specific location area.

Optionally, described network resource transmission situation comprises: channel quality level situation and/or cell load situation; Processor 163 can also be used for:

Obtain channel quality level situation and/or the cell load situation of each time point of the described specific location area of described following certain hour section;

The network performance data storehouse of the network resource transmission situation for representing the described specific location area of described following certain hour section is set up according to the channel quality level situation obtained and/or cell load situation.

Optionally, the channel quality level situation of each time point of the described specific location area of the described following certain hour section of acquisition that processor 163 performs and/or the operation of cell load situation, can comprise

The channel quality level situation of each time point of the described specific location area of described following certain hour section is obtained by the temporal regularity of the channel quality level situation of described specific location area; And/or

The cell load situation of each time point of the described specific location area of described following certain hour section is obtained by the temporal regularity of the cell load situation of described specific location area.

Optionally, described centralized dispatching interval is the time interval of the specific duration that in described following certain hour section special time interval, network resource transmission situation is best, and described following certain hour section comprises special time interval described at least one, wherein, described specific duration is the length pre-set; Or

Described centralized dispatching interval is between the lane place of the specific duration that in described following certain hour section special time interval, network resource transmission situation is best, and described following certain hour section comprises special time interval described at least one, wherein, described specific duration is the length calculated according to real time information, and described real time information comprises following at least one item:

The network resource transmission condition information of described following certain hour section and the service rate of described target terminal require information.

Optionally, the operation generating the time selectivity scheduling strategy ensureing Consumer's Experience based on described network resource transmission situation that processor 163 performs, can comprise:

Select described centralized dispatching interval according to the network resource transmission situation of each time point of the position of described target terminal residing for following certain hour section, and it is interval from following certain hour section, to select according to described centralized dispatching interval the use being later than described centralized dispatching interval;

According to the traffic forecast of the current operation of described target terminal, target terminal is in described centralized dispatching interval and the described business using interval to run;

Generate the time selectivity scheduling strategy ensureing Consumer's Experience; Described time selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching.

Optionally, the generation that processor 163 performs ensures the operation of the time selectivity scheduling strategy of Consumer's Experience, can comprise:

Interval according to described centralized dispatching and use target terminal described in the service rate requirement forecast of interval duration and described target terminal to load required for the interval business run of described centralized dispatching first network data, and target of prediction terminal uses described the second network data loaded required for the interval business run;

Generate the time selectivity scheduling strategy ensureing Consumer's Experience, described time selectivity scheduling strategy comprises the data message for representing described first network data and second network data and the block information for described centralized dispatching interval.

Described device can be specifically be applied to the network equipment, and namely this network equipment can comprise said apparatus.Such as: the network equipments such as RAN equipment, CN equipment and base station.

Above-mentioned target terminal can be any equipment possessing communication, can be specifically subscriber equipment, such as: panel computer, mobile phone, electronic reader, remote controller, PC, notebook computer, mobile unit, Web TV, wearable device etc. have the smart machine of network function.

In technique scheme, target of prediction terminal is in the network resource transmission situation of following certain hour section; The selectivity scheduling strategy ensureing Consumer's Experience is generated based on described network resource transmission situation; Described network data is sent according to described selectivity scheduling strategy to described target terminal in described centralized dispatching interval; Described like this target terminal calls described network data in described centralized dispatching interval and described use interval and runs current business.Thus the business that can realize ensureing mobile terminal runs is smooth.

Figure 26 is the structural representation of the another kind of subscriber equipment that the embodiment of the present invention provides, as shown in figure 26, comprising: receiver 171 and memory 172, and the processor 173 be connected with receiver 171, memory 172 respectively, memory 172 for program code stored, wherein:

Receiver 171, for receiving the described subscriber equipment of network equipment transmission in described centralized dispatching interval and the network data using the interval business run in centralized dispatching interval; Wherein, described network data is the network data of described subscriber equipment interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use;

Network data described in described subscriber equipment buffer memory;

Memory 172, for network data described in buffer memory;

Processor 173, runs current business for described subscriber equipment in described centralized dispatching interval and the described network data using interval to call memory 172 buffer memory.

Optionally, described centralized dispatching interval and described use interval are that between the lane place of described subscriber equipment diverse location in the motion track of following certain hour section, described centralized dispatching interval is positioned at before described use interval, or

Described centralized dispatching interval and the described time interval using the different time points of interval position residing for subscriber equipment described in uncertain certain hour, described centralized dispatching is interval interval early than described use.

Optionally, described subscriber equipment can also comprise reflector 174, and reflector 174 is for described network equipment reporting position information; Or

Reflector 174 is for reporting the motion track of described subscriber equipment to the described network equipment.

Optionally, receiver 171 or reflector 174 can also be used for using interval essential information of carrying out for keeping the link of current business and described current business to be presence with the described network equipment to transmit described; And/or

Receiver 171 can also be used for when described network data does not comprise described subscriber equipment in the network data that the described service needed using interval excess minutes to run loads, in the network data that the interval described subscriber equipment receiving the transmission of the described network equipment of described use loads in the service needed that described excess minutes runs, and call this network data operation current business; Processor 173 can also be used for calling this network data and run current business; And/or

Reflector 174 can also be used for, when described subscriber equipment current business sends change, reporting the service quality of the business after change to need information to the network equipment.

Optionally, described network data is used to indicate described device reporting uplink data, and such as, above-mentioned network data is resource allocation signal, or request msg etc.; Reflector 174 can also be used for the upstream data sending the described network data of response to the described network equipment.

The described network equipment can be specifically the network equipments such as RAN equipment, CN equipment and base station.

Above-mentioned subscriber equipment can be any equipment possessing communication, such as: panel computer, mobile phone, electronic reader, remote controller, PC, notebook computer, mobile unit, Web TV, wearable device etc. have the smart machine of network function.

In technique scheme, described subscriber equipment receives the described subscriber equipment of network equipment transmission in described centralized dispatching interval and the network data using the interval business run in centralized dispatching interval; Network data described in described subscriber equipment buffer memory; Described subscriber equipment calls described network data in described centralized dispatching interval and described use interval and runs current business.Thus the business that can realize ensureing mobile terminal runs is smooth.

Figure 27 is the structural representation of the another kind of network performance analysis device that the embodiment of the present invention provides, as shown in figure 27, comprising: receiver 181 and memory 182, and the processor 183 be connected with receiver 181, memory 182 respectively, memory 182 for program code stored, wherein:

Processor 183 calls the following operation of program execution that memory 182 stores:

The network resource transmission situation of specific location area each position is obtained by receiver 181;

Carry out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section;

The Query Information of network equipment transmission is received by receiver 181, and from the network resource transmission situation of target terminal described in described network performance data library inquiry in following certain hour section, described target terminal ensures the described selectivity scheduling strategy of Consumer's Experience in the network resource transmission situation of following certain hour section for generating, and described selectivity scheduling strategy is used for sending network data to described target terminal centralized dispatching is interval; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use.

Optionally, what processor 183 performed carries out analyzing and processing to the described network resource transmission situation obtained, and to set up the operation in network performance data storehouse, can comprise:

Carry out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, wherein, analyzing and processing comprises with one of under type:

Filtering process, rasterizing process, interpolation processing and sample process.

Optionally, described device can also comprise reflector 184, wherein:

Reflector 184, for sending the network resource transmission situation of described target terminal in following certain hour section to the described network equipment.

Optionally, processor 183 can also be used for:

Generate in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience based on described target terminal;

Reflector 184 may be used for sending described selectivity scheduling strategy to the described network equipment.

Optionally, described target terminal is the network resource transmission situation of described target terminal each position in the motion track of following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the regioselectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and described use interval are between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching; Or

The network resource transmission situation that described target terminal is each time point of the position of described target terminal residing for following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the time selectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and the described time interval using the different time points of interval position residing for described target terminal, described centralized dispatching is interval interval early than described use.

Optionally, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of specific location area, and described motion track is positioned at described specific location area;

Optionally, the operation of the information of the network resource transmission situation of specific location area each position that obtained by receiver 181 that processor 183 performs, being comprised:

Channel quality level situation and/or the cell load situation of specific location area each position is obtained by receiver 181.

Optionally, the operation being obtained the channel quality level situation of described specific location area each position by receiver 181 that processor 183 performs, can be comprised:

Receiver 181 receives and is positioned at described ad-hoc location and quantity is greater than the channel information of the user terminal to send up of predetermined number;

The channel information that processor 183 analysis receives, to obtain the channel quality level situation of described specific location area each position; Or

The associating reception technique of multiple cell and multi-antenna technology is utilized to measure the channel quality level situation of described specific location area each position by receiver 181;

The operation being obtained the cell load situation of described specific location area by receiver 181 that processor 183 performs, can be comprised:

This cell load condition information that the base station that receiver 181 obtains each community of described specific location area reports;

Processor 183 obtains the cell load situation of described specific location area in conjunction with the cell load condition information that receiver 181 obtains.

Optionally, the described network resource transmission situation that processor 183 performs obtaining carries out analyzing and processing, to set up the operation in network performance data storehouse, comprising:

Carry out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, wherein, described network performance data storehouse is for representing the descending and/or up network resource transmission situation of described specific location area each position.

Optionally, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of each time point of described following certain hour section specific location area, and the position residing for described target terminal belongs to described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation;

Optionally, the operation of the information of the network resource transmission situation of specific location area each position that obtained by receiver 181 that processor 183 performs, being comprised:

Channel quality level situation and/or the cell load situation of each time point of described following certain hour section specific location area each position is obtained by receiver 181.

Optionally, the channel quality level situation of each time point and/or the operation of cell load situation that are obtained described following certain hour section specific location area each position by receiver 181 that processor 183 performs, being comprised:

The channel quality level situation of each time point of described following certain hour section described specific location area each position is obtained by the temporal regularity of the channel quality level situation of specific location area each position; And/or

The cell load situation of each time point of described following certain hour section described specific location area each position is obtained by the temporal regularity of the cell load situation of specific location area each position.

Optionally, described device specifically can be integrated in the network equipments such as RAN equipment, CN equipment and base station, and in addition, this device can also independently exist.

In technique scheme, obtain the network resource transmission situation of specific location area each position; Carry out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section; Receive the Query Information that the network equipment sends, and from the network resource transmission situation of target terminal described in described network performance data library inquiry in following certain hour section, described target terminal ensures the described selectivity scheduling strategy of Consumer's Experience in the network resource transmission situation of following certain hour section for generating, and described selectivity scheduling strategy is used for sending network data to described target terminal centralized dispatching is interval; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use.Thus the business that can realize ensureing mobile terminal runs is smooth, promotes Consumer's Experience.

One of ordinary skill in the art will appreciate that all or part of flow process realized in above-described embodiment method, that the hardware that can carry out instruction relevant by computer program has come, described program can be stored in a computer read/write memory medium, this program, when performing, can comprise the flow process of the embodiment as above-mentioned each side method.Wherein, described storage medium can be magnetic disc, CD, read-only store-memory body (Read-Only Memory, ROM) or random access memory (Random Access Memory is called for short RAM) etc.

Above disclosedly be only present pre-ferred embodiments, certainly can not limit the interest field of the present invention with this, therefore according to the equivalent variations that the claims in the present invention are done, still belong to the scope that the present invention is contained.

Claims (74)

1. a network data transmission method, is characterized in that, comprising:

Target of prediction terminal is in the network resource transmission situation of following certain hour section;

The selectivity scheduling strategy ensureing Consumer's Experience is generated based on described network resource transmission situation, wherein, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and the network resource transmission situation in described centralized dispatching interval is better than the described network resource transmission situation using interval;

Described network data is sent according to described selectivity scheduling strategy to described target terminal in described centralized dispatching interval; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business.

2. the method for claim 1, is characterized in that, described target of prediction terminal, in the network resource transmission situation of following certain hour section, comprising:

The network resource transmission situation of described target terminal in following certain hour section is inquired from the network performance data storehouse obtained in advance; Wherein, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section.

3. method as claimed in claim 1 or 2, it is characterized in that, described target terminal is the network resource transmission situation of described target terminal each position in the motion track of following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the regioselectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and described use interval are between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching; Or

The network resource transmission situation that described target terminal is each time point of the position of described target terminal residing for following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the time selectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and the described time interval using the different time points of interval position residing for described target terminal, described centralized dispatching is interval interval early than described use.

4. method as claimed in claim 3, it is characterized in that, described centralized dispatching interval is between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length pre-set; Or

Described centralized dispatching interval is between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length calculated according to real time information, and described real time information comprises following at least one item:

The service rate of the network resource transmission condition information of described motion track, the translational speed of described target terminal, described target terminal requires the traffic information of information, described motion track.

5. method as claimed in claim 4, it is characterized in that, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of specific location area, and described motion track is positioned at described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation;

Inquired described target terminal the described network performance data storehouse from obtaining in advance before the network resource transmission situation of following certain hour section, described method also comprises:

Obtain channel quality level situation and/or the cell load situation of described specific location area;

The network performance data storehouse of the network resource transmission situation for representing specific location area is set up according to the channel quality level situation obtained and/or cell load situation.

6. method as claimed in claim 5, it is characterized in that, the channel quality level situation of the described specific location area of described acquisition, comprising:

Reception is positioned at described ad-hoc location and quantity is greater than the channel information of the user terminal to send up of predetermined number, and analyzes the channel information received, to obtain the channel quality level situation of described specific location area; Or

The channel quality level situation of described specific location area is measured by the associating reception technique of multiple cell and multi-antenna technology;

The cell load situation of the described specific location area of described acquisition, comprising:

This cell load condition information that the base station obtaining each community of described specific location area reports, and the cell load situation combining that the cell load condition information obtained obtains described specific location area.

7. the method according to any one of claim 4-6, is characterized in that, described target of prediction terminal, before the network resource transmission situation of following certain hour section, describedly also to comprise:

Obtain the motion track of described target terminal in following certain hour section.

8. method as claimed in claim 7, it is characterized in that, described acquisition target terminal at least comprises at the motion track of following certain hour section with one of under type:

The motion track of target terminal in following certain hour section is obtained by the route model coupling of public transit facility;

The positional information reported by described target terminal obtains the motion track of target terminal in following certain hour section;

The motion track of target terminal in following certain hour section is obtained by multi-antenna technology;

The motion track of target terminal in following certain hour section is obtained by the historical movement path of described target terminal.

9. the method according to any one of claim 4-6, is characterized in that, the described regioselectivity scheduling strategy generating guarantee Consumer's Experience based on described network resource transmission situation, comprising:

Obtain the characteristic information of described target terminal, and generate according to the network resource transmission situation of each position in described characteristic information and described motion track the regioselectivity scheduling strategy ensureing Consumer's Experience; Wherein, described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described characteristic information comprises following at least one item:

The service rate of described target terminal requires information, the translational speed information of described target terminal and the traffic information of described motion track.

10. method as claimed in claim 9, it is characterized in that, the characteristic information of the described target terminal of described acquisition, and generate according to the network resource transmission situation of each position in described characteristic information and described motion track the regioselectivity scheduling strategy ensureing Consumer's Experience, comprising:

Select described centralized dispatching interval according to the network resource transmission situation of each position in described motion track, and it is interval from described motion track, to select according to described centralized dispatching interval the use be positioned at after described centralized dispatching interval;

Obtain the described characteristic information of described target terminal, and predict that described target terminal is in described centralized dispatching interval and the described time using interval movement according to described characteristic information;

According to the business of the current operation of described target terminal and described time prediction, target terminal is interval and describedly use the business run during interval movement in described centralized dispatching;

Generate the regioselectivity scheduling strategy ensureing Consumer's Experience; Described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching.

11. methods as claimed in claim 10, is characterized in that, the described regioselectivity scheduling strategy generating guarantee Consumer's Experience, comprising:

The first network data loaded required for the business that target terminal runs when described centralized dispatching interval is mobile according to the service rate requirement forecast of described time and target terminal, and target of prediction terminal described use interval mobile time the business run required for the second network data that load;

Generate the regioselectivity scheduling strategy ensureing Consumer's Experience, described regioselectivity scheduling strategy comprises the data message for representing described first network data and second network data and the block information for described centralized dispatching interval.

12. methods as claimed in claim 10, is characterized in that, described characteristic information comprises the translational speed information of described target terminal and the traffic information of described motion track; The described characteristic information of the described target terminal of described acquisition, and predict that described target terminal is in described centralized dispatching interval and the described time using interval movement, comprising according to described characteristic information:

According to the traffic information of the current translational speed of described target terminal and described motion track, predict described target terminal in described centralized dispatching the interval and described translational speed using interval;

According to the translational speed that described target terminal is interval in described centralized dispatching and described use is interval, predict that described target terminal is in described centralized dispatching interval and the described time using interval movement.

13. methods according to any one of claim 4-6, is characterized in that, described regioselectivity scheduling strategy also comprise for represent described target terminal in described centralized dispatching the interval and described velocity information using the translational speed in interval; Describedly send described network data according to described regioselectivity scheduling strategy to described target terminal, comprising:

Obtain the translational speed that described target terminal is current, and predict according to this translational speed the real-time translational speed that described target terminal is interval in described centralized dispatching and described use is interval;

Described target terminal is compared in described centralized dispatching interval and the described translational speed in interval that uses in described centralized dispatching interval and the described described target terminal using interval real-time translational speed and described velocity information to represent, and adjusts the data message of described regioselectivity scheduling strategy according to this comparative result;

The network data represented by the data message after described adjustment is sent to described target terminal.

14. methods as claimed in claim 3, it is characterized in that, described centralized dispatching interval is the time interval of the specific duration that in described following certain hour section special time interval, network resource transmission situation is best, and described following certain hour section comprises special time interval described at least one, wherein, described specific duration is the length pre-set; Or

Described centralized dispatching interval is between the lane place of the specific duration that in described following certain hour section special time interval, network resource transmission situation is best, and described following certain hour section comprises special time interval described at least one, wherein, described specific duration is the length calculated according to real time information, and described real time information comprises following at least one item:

The network resource transmission condition information of described following certain hour section and the service rate of described target terminal require information.

15. methods as claimed in claim 14, it is characterized in that, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of each time point of described following certain hour section specific location area, and the position residing for described target terminal belongs to described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation;

Inquired described target terminal the described network performance data storehouse from obtaining in advance before the network resource transmission situation of following certain hour section, described method also comprises:

Obtain channel quality level situation and/or the cell load situation of each time point of the described specific location area of described following certain hour section;

The network performance data storehouse of the network resource transmission situation for representing the described specific location area of described following certain hour section is set up according to the channel quality level situation obtained and/or cell load situation.

16. methods as claimed in claim 15, is characterized in that, the channel quality level situation of each time point of the described specific location area of the described following certain hour section of described acquisition and/or cell load situation, comprising:

The channel quality level situation of each time point of the described specific location area of described following certain hour section is obtained by the temporal regularity of the channel quality level situation of described specific location area; And/or

The cell load situation of each time point of the described specific location area of described following certain hour section is obtained by the temporal regularity of the cell load situation of described specific location area.

17. methods according to any one of claim 14-16, is characterized in that, described target of prediction terminal, before the network resource transmission situation of following certain hour section, describedly also to comprise:

Predict the position of described target terminal residing for following certain hour section.

18. methods as claimed in claim 17, is characterized in that, the position of the described target terminal of described prediction residing for following certain hour section at least comprises with one of under type:

The positional information reported by described target terminal predicts the position of described target terminal residing for following certain hour section;

The position of described target terminal residing for following certain hour section is predicted by the present position historical record of described target terminal.

19. methods according to any one of claim 14-16, is characterized in that, describedly generate the time selectivity scheduling strategy ensureing Consumer's Experience based on described network resource transmission situation, comprising:

Select described centralized dispatching interval according to the network resource transmission situation of each time point of the position of described target terminal residing for following certain hour section, and it is interval from following certain hour section, to select according to described centralized dispatching interval the use being later than described centralized dispatching interval;

According to the traffic forecast of the current operation of described target terminal, target terminal is in described centralized dispatching interval and the described business using interval to run;

Generate the time selectivity scheduling strategy ensureing Consumer's Experience; Described time selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching.

20. methods as claimed in claim 19, is characterized in that, the described time selectivity scheduling strategy generating guarantee Consumer's Experience, comprising:

Interval according to described centralized dispatching and use target terminal described in the service rate requirement forecast of interval duration and described target terminal to load required for the interval business run of described centralized dispatching first network data, and target of prediction terminal uses described the second network data loaded required for the interval business run;

Generate the time selectivity scheduling strategy ensureing Consumer's Experience, described time selectivity scheduling strategy comprises the data message for representing described first network data and second network data and the block information for described centralized dispatching interval.

21. methods according to any one of claim 4,5,6,14,15,16, is characterized in that, described according to described selectivity scheduling strategy to after described target terminal sends described network data, described method also comprises:

Carry out for keeping the essential information that the link of described target terminal current business and this business is presence to transmit at described interval and the described target terminal of using; And/or

When described network data does not comprise described target terminal in the network data that the described service needed using interval excess minutes to run loads, intervally send to described target terminal the network data that described target terminal loads in the service needed that described excess minutes runs described use; And/or

When described target terminal current business sends change, receive described target terminal that described target terminal sends report change after the service quality of business need information.

22. methods according to any one of claim 4,5,6,14,15,16, it is characterized in that, described network data is used to indicate target terminal reporting uplink data; Described according to described selectivity scheduling strategy to after described target terminal sends described network data, described method also comprises:

The upstream data that described target terminal responds the transmission of described network data is received in described centralized dispatching interval.

23. 1 kinds of network data transmission methods, is characterized in that, comprising:

Target terminal receives the described target terminal of network equipment transmission in described centralized dispatching interval and the network data using the interval business run in centralized dispatching interval; Wherein, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use;

Network data described in described target terminal buffer memory;

Described target terminal calls described network data in described centralized dispatching interval and described use interval and runs current business.

24. methods as claimed in claim 23, it is characterized in that, described centralized dispatching interval and described use interval are between the lane place of described target terminal diverse location in the motion track of following certain hour section, and described centralized dispatching interval is positioned at before described use interval; Or

Described centralized dispatching interval and the described time interval using the different time points of interval position residing for target terminal described in uncertain certain hour, described centralized dispatching is interval interval early than described use.

25. methods as claimed in claim 24, it is characterized in that, described target terminal is before the network data of described target terminal interval business with using interval to run in described centralized dispatching of centralized dispatching interval reception network equipment transmission, and described method also comprises:

Described target terminal is to described network equipment reporting position information;

Described target terminal reports the motion track of described target terminal to the described network equipment.

26. methods as described in claim 24 or 25, it is characterized in that, described method also comprises:

Described target terminal uses interval essential information of carrying out for keeping the link of current business and described current business to be presence with the described network equipment to transmit described; And/or

When described network data does not comprise described target terminal in the network data that the described service needed using interval excess minutes to run loads, the network data that described target terminal loads in the service needed that described excess minutes runs at the interval described target terminal receiving the transmission of the described network equipment of described use, and call this network data operation current business; And/or

When described target terminal current business sends change, described target terminal reports the service quality of the business after change to need information to the network equipment.

27. methods as described in claim 24 or 25, it is characterized in that, described network data is used to indicate target terminal reporting uplink data; Described target terminal calls described network data in described centralized dispatching interval and described use interval and runs current business, comprising:

Described target terminal calls described network data in described centralized dispatching interval and described use interval and runs current business, and sends the upstream data of the described network data of response to the described network equipment.

28. 1 kinds of network data transmission methods, is characterized in that, comprising:

Obtain the network resource transmission situation of specific location area each position;

Carry out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section;

Receive the Query Information that the network equipment sends, and from the network resource transmission situation of target terminal described in described network performance data library inquiry in following certain hour section, described target terminal ensures the selectivity scheduling strategy of Consumer's Experience in the network resource transmission situation of following certain hour section for generating, and described selectivity scheduling strategy is used for sending network data to described target terminal centralized dispatching is interval; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use.

29. methods as claimed in claim 28, is characterized in that, the described described network resource transmission situation to obtaining carries out analyzing and processing, to set up network performance data storehouse, comprising:

Carry out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, wherein, analyzing and processing comprises with one of under type:

Filtering process, rasterizing process, interpolation processing and sample process.

30. methods as claimed in claim 28, is characterized in that, described from target terminal described in described network performance data library inquiry after the network resource transmission situation of following certain hour section, described method also comprises:

The network resource transmission situation of described target terminal in following certain hour section is sent to the described network equipment; Or

Generate in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience based on described target terminal, and send described selectivity scheduling strategy to the described network equipment.

31. methods according to any one of claim 28-30, it is characterized in that, described target terminal is the network resource transmission situation of described target terminal each position in the motion track of following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the regioselectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and described use interval are between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching; Or

The network resource transmission situation that described target terminal is each time point of the position of described target terminal residing for following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the time selectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and the described time interval using the different time points of interval position residing for described target terminal, described centralized dispatching is interval interval early than described use.

32. methods as claimed in claim 31, is characterized in that, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of specific location area, and described motion track is positioned at described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation;

The information of the network resource transmission situation of described acquisition specific location area each position, comprising:

The channel quality level situation of described acquisition specific location area each position and/or cell load situation.

33. methods as claimed in claim 32, is characterized in that, the channel quality level situation of the described specific location area each position of described acquisition, comprising:

Reception is positioned at described ad-hoc location and quantity is greater than the channel information of the user terminal to send up of predetermined number, and analyzes the channel information received, to obtain the channel quality level situation of described specific location area each position; Or

The channel quality level situation of described specific location area each position is measured by the associating reception technique of multiple cell and multi-antenna technology;

The cell load situation of the described specific location area of described acquisition, comprising:

This cell load condition information that the base station obtaining each community of described specific location area reports, and the cell load situation combining that the cell load condition information obtained obtains described specific location area.

34. methods as claimed in claim 31, is characterized in that, the described described network resource transmission situation to obtaining carries out analyzing and processing, to set up network performance data storehouse, comprising:

Carry out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, wherein, described network performance data storehouse is for representing the descending and/or up network resource transmission situation of described specific location area each position.

35. methods as claimed in claim 31, it is characterized in that, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of each time point of described following certain hour section specific location area, and the position residing for described target terminal belongs to described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation;

The information of the network resource transmission situation of described acquisition specific location area each position, comprising:

Obtain channel quality level situation and/or the cell load situation of each time point of described following certain hour section specific location area each position.

36. methods as claimed in claim 35, is characterized in that, the channel quality level situation of each time point of the described following certain hour section specific location area each position of described acquisition and/or cell load situation, comprising:

The channel quality level situation of each time point of described following certain hour section described specific location area each position is obtained by the temporal regularity of the channel quality level situation of specific location area each position; And/or

The cell load situation of each time point of described following certain hour section described specific location area each position is obtained by the temporal regularity of the cell load situation of specific location area each position.

37. 1 kinds of network data transmission devices, is characterized in that, comprising: the first predicting unit, generation unit and the first transmitting element, wherein:

Described first predicting unit, for the network resource transmission situation of target of prediction terminal in following certain hour section;

Described generation unit, for generating based on the described network resource transmission situation of described first predicting unit prediction the selectivity scheduling strategy ensureing Consumer's Experience, wherein, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use;

Described first transmitting element, sends described network data for the selectivity scheduling strategy generated according to described generation unit in described centralized dispatching interval to described target terminal; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business.

38. devices as claimed in claim 37, is characterized in that, described first predicting unit is used for from the network performance data storehouse obtained in advance, inquire the network resource transmission situation of described target terminal in following certain hour section; Wherein, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section.

39. devices as described in claim 37 or 38, it is characterized in that, described target terminal is the network resource transmission situation of described target terminal each position in the motion track of following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the regioselectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and described use interval are between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching; Or

The network resource transmission situation that described target terminal is each time point of the position of described target terminal residing for following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the time selectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and the described time interval using the different time points of interval position residing for described target terminal, described centralized dispatching is interval interval early than described use.

40. devices as claimed in claim 39, it is characterized in that, described centralized dispatching interval is between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length pre-set; Or

Described centralized dispatching interval is between the lane place of the length-specific that network resource transmission situation is best in ad-hoc location interval in described motion track, and described motion track comprises ad-hoc location interval described at least one, wherein, described length-specific is the length calculated according to real time information, and described real time information comprises following at least one item:

The service rate of the network resource transmission condition information of described motion track, the translational speed of described target terminal, described target terminal requires the traffic information of information, described motion track.

41. devices as claimed in claim 40, is characterized in that, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of specific location area, and described motion track is positioned at described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation; Described device also comprises:

First acquiring unit, for obtaining channel quality level situation and/or the cell load situation of described specific location area;

First sets up unit, for setting up the network performance data storehouse of the network resource transmission situation for representing specific location area according to the channel quality level situation obtained and/or cell load situation.

42. devices as claimed in claim 41, it is characterized in that, described first acquiring unit is positioned at described ad-hoc location and quantity is greater than the channel information of the user terminal to send up of predetermined number for receiving, and analyze the channel information received, to obtain the channel quality level situation of described specific location area; Or described first acquiring unit is used for the channel quality level situation being measured described specific location area by the associating reception technique of multiple cell and multi-antenna technology;

Described first acquiring unit also for this cell load condition information that the base station of each community obtaining described specific location area reports, and combines the cell load situation that the cell load condition information obtained obtains described specific location area.

43. devices according to any one of claim 40-42, it is characterized in that, described device also comprises:

Second acquisition unit, for obtaining the motion track of described target terminal in following certain hour section.

44. devices as claimed in claim 43, is characterized in that, described second acquisition unit is used for obtaining the motion track of target terminal in following certain hour section by the route model coupling of public transit facility; Or

The positional information that described second acquisition unit is used for being reported by described target terminal obtains the motion track of target terminal in following certain hour section; Or

Described second acquisition unit is used for obtaining the motion track of target terminal in following certain hour section by multi-antenna technology; Or

Described second acquisition unit is used for obtaining the motion track of target terminal in following certain hour section by the historical movement path of described target terminal.

45. devices according to any one of claim 40-42, it is characterized in that, described generation unit for obtaining the characteristic information of described target terminal, and generates according to the network resource transmission situation of each position in described characteristic information and described motion track the regioselectivity scheduling strategy ensureing Consumer's Experience; Wherein, described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described characteristic information comprises following at least one item:

The service rate of described target terminal requires information, the translational speed information of described target terminal and the traffic information of described motion track.

46. devices as claimed in claim 45, it is characterized in that, described generation unit comprises:

First selected cell, with selecting described centralized dispatching interval according to the network resource transmission situation of each position in described motion track, and it is interval from described motion track, to select according to described centralized dispatching interval the use be positioned at after described centralized dispatching interval;

According to described characteristic information, second predicting unit, for obtaining the described characteristic information of described target terminal, and predicts that described target terminal is in described centralized dispatching interval and the described time using interval movement;

3rd predicting unit, for the business that target terminal according to the business of the current operation of described target terminal and the time prediction of described second predicting unit prediction runs when described centralized dispatching is interval and described use interval is mobile;

First generates subelement, for generating the regioselectivity scheduling strategy ensureing Consumer's Experience; Described regioselectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching.

47. devices as claimed in claim 46, it is characterized in that, described first generates subelement is used for the first network data that target terminal runs when described centralized dispatching interval is mobile according to the service rate requirement forecast of described time and target terminal business loads, and target of prediction terminal described use interval mobile time the business run required for the second network data that load; And generating the regioselectivity scheduling strategy ensureing Consumer's Experience, described regioselectivity scheduling strategy comprises the data message for representing described first network data and second network data and the block information for described centralized dispatching interval.

48. devices as claimed in claim 46, is characterized in that, described characteristic information comprises the translational speed information of described target terminal and the traffic information of described motion track; Described second predicting unit, specifically for the traffic information according to the current translational speed of described target terminal and described motion track, predicts the translational speed that described target terminal is interval in described centralized dispatching and described use is interval; Again according to the translational speed that described target terminal is interval in described centralized dispatching and described use is interval, predict that described target terminal is in described centralized dispatching interval and the described time using interval movement.

49. devices according to any one of claim 40-42, is characterized in that, described regioselectivity scheduling strategy also comprise for represent described target terminal in described centralized dispatching the interval and described velocity information using the translational speed in interval; Described first transmitting element comprises:

4th predicting unit, during for moving to described centralized dispatching interval when described target terminal, obtain the translational speed that described target terminal is current, and predict according to this translational speed the real-time translational speed that described target terminal is interval in described centralized dispatching and described use is interval;

Adjustment unit, for described 4th predicting unit being predicted described target terminal compares in described centralized dispatching interval and the described translational speed in interval that uses in described centralized dispatching interval and the described described target terminal using interval real-time translational speed and described velocity information to represent, and adjust the data message of described regioselectivity scheduling strategy according to this comparative result;

Send subelement, for sending the network data represented by the data message after the adjustment of described adjustment unit to described target terminal.

50. devices as claimed in claim 39, it is characterized in that, described centralized dispatching interval is the time interval of the specific duration that in described following certain hour section special time interval, network resource transmission situation is best, and described following certain hour section comprises special time interval described at least one, wherein, described specific duration is the length pre-set; Or

Described centralized dispatching interval is between the lane place of the specific duration that in described following certain hour section special time interval, network resource transmission situation is best, and described following certain hour section comprises special time interval described at least one, wherein, described specific duration is the length calculated according to real time information, and described real time information comprises following at least one item:

The network resource transmission condition information of described following certain hour section and the service rate of described target terminal require information.

51. devices as claimed in claim 50, it is characterized in that, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of each time point of described following certain hour section specific location area, and the position residing for described target terminal belongs to described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation;

Described device also comprises:

3rd acquiring unit, for obtaining channel quality level situation and/or the cell load situation of each time point of the described specific location area of described following certain hour section;

Second sets up unit, for setting up the network performance data storehouse of the network resource transmission situation for representing the described specific location area of described following certain hour section according to the channel quality level situation obtained and/or cell load situation.

52. devices as claimed in claim 51, it is characterized in that, described 3rd acquiring unit is used for the channel quality level situation being obtained each time point of the described specific location area of described following certain hour section by the temporal regularity of the channel quality level situation of described specific location area; And/or

Described 3rd acquiring unit is used for the cell load situation being obtained each time point of the described specific location area of described following certain hour section by the temporal regularity of the cell load situation of described specific location area.

53. devices according to any one of claim 50-52, it is characterized in that, described device also comprises:

5th predicting unit, for predicting the position of described target terminal residing for following certain hour section.

54. devices as claimed in claim 53, is characterized in that, the positional information that described 5th predicting unit is used for being reported by described target terminal predicts the position of described target terminal residing for following certain hour section; And/or

5th predicting unit is also for predicting the position of described target terminal residing for following certain hour section by the present position historical record of described target terminal.

55. devices according to any one of claim 50-52, it is characterized in that, described generation unit comprises:

Second selected cell, network resource transmission situation for each time point according to the position of described target terminal residing for following certain hour section selects described centralized dispatching interval, and it is interval from following certain hour section, to select according to described centralized dispatching interval the use being later than described centralized dispatching interval;

6th predicting unit, for target terminal according to the traffic forecast of the current operation of described target terminal in described centralized dispatching interval and the described business using interval to run;

Second generates subelement, for generating the time selectivity scheduling strategy ensureing Consumer's Experience; Described time selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, and described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching.

56. devices as claimed in claim 55, it is characterized in that, described second generates subelement is used for first network data that are interval according to described centralized dispatching and that use target terminal described in the service rate requirement forecast of interval duration and described target terminal to load in the business that described centralized dispatching interval is run, and target of prediction terminal uses described the second network data loaded required for the interval business run; And generating the time selectivity scheduling strategy ensureing Consumer's Experience, described time selectivity scheduling strategy comprises the data message for representing described first network data and second network data and the block information for described centralized dispatching interval.

57. devices according to any one of claim 40,41,42,50,51,52, it is characterized in that, described device also comprises:

Transmission unit, for carrying out for keeping the essential information that the link of described target terminal current business and this business is presence to transmit at described interval and the described target terminal of using; And/or

Second transmitting element, for not comprising described target terminal when described network data when the network data that the described service needed using interval excess minutes to run loads, intervally send to described target terminal the network data that described target terminal loads in the service needed that described excess minutes runs described use; And/or

First receiving element, for when described target terminal current business sends change, receive described target terminal that described target terminal sends report change after the service quality of business need information.

58. devices according to any one of claim 40,41,42,50,51,52, it is characterized in that, described device also comprises:

Second receiving element, for receiving in described centralized dispatching interval the upstream data that described target terminal responds the transmission of described network data; Described network data is used to indicate target terminal reporting uplink data.

59. 1 kinds of subscriber equipmenies, is characterized in that, comprising: the first receiving element, buffer unit and call unit, wherein:

Described first receiving element, for receiving the described target terminal of network equipment transmission in described centralized dispatching interval and the network data using the interval business run in centralized dispatching interval; Wherein, described network data is the network data of described subscriber equipment interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use;

Described buffer unit, for the network data that the first receiving element described in buffer memory receives;

Described call unit, runs current business for and the described network data using interval to call described buffer unit buffer memory interval in described centralized dispatching.

60. subscriber equipmenies as claimed in claim 59, it is characterized in that, described centralized dispatching interval and described use interval are that between the lane place of described subscriber equipment diverse location in the motion track of following certain hour section, described centralized dispatching interval is positioned at before described use interval, or

Described centralized dispatching interval and the described time interval using the different time points of interval position residing for subscriber equipment described in uncertain certain hour, described centralized dispatching is interval interval early than described use.

61. subscriber equipmenies as claimed in claim 60, it is characterized in that, described device also comprises:

First transmitting element, for described network equipment reporting position information; Or

Second transmitting element, for reporting the motion track of described subscriber equipment to the described network equipment.

62. subscriber equipmenies as described in claim 60 or 61, it is characterized in that, described device also comprises:

Transmission unit, for using interval essential information of carrying out for keeping the link of current business and described current business to be presence with the described network equipment to transmit described; And/or

Second receiving element, when described network data does not comprise described target terminal in the network data that the described service needed using interval excess minutes to run loads, in the network data that the interval described subscriber equipment receiving the transmission of the described network equipment of described use loads in the service needed that described excess minutes runs, and call this network data operation current business; And/or

3rd transmitting element, for when described subscriber equipment current business sends change, reports the service quality of the business after change to need information to the network equipment.

63. subscriber equipmenies as described in claim 60 or 61, it is characterized in that, described network data is used to indicate described user equipment to report upstream data; Described call unit also calls described network data for and described use interval interval in described centralized dispatching and runs current business, and sends the upstream data of the described network data of response to the described network equipment.

64. 1 kinds of network performance analysis devices, is characterized in that, comprising: acquiring unit, set up unit and query unit, wherein:

Described acquiring unit, for obtaining the network resource transmission situation of specific location area each position;

Describedly set up unit, for carrying out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section;

Described query unit, for receiving the Query Information that the network equipment sends, and from the network resource transmission situation of target terminal described in described network performance data library inquiry in following certain hour section, described target terminal ensures the selectivity scheduling strategy of Consumer's Experience in the network resource transmission situation of following certain hour section for generating, and described selectivity scheduling strategy is used for sending network data to described target terminal centralized dispatching is interval; Wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, and the network resource transmission situation in described centralized dispatching interval is better than the interval network resource transmission situation of described use.

65. devices as described in claim 64, is characterized in that, described unit of setting up is for carrying out analyzing and processing to the described network resource transmission situation obtained, and to set up network performance data storehouse, wherein, analyzing and processing comprises with one of under type:

Filtering process, rasterizing process, interpolation processing and sample process.

66. devices as described in claim 64, it is characterized in that, described device also comprises:

First transmitting element, for sending the network resource transmission situation of described target terminal in following certain hour section to the described network equipment; Or

Second transmitting element, for generating in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience based on described target terminal, and sends described selectivity scheduling strategy to the described network equipment.

67. devices according to any one of claim 64-66, it is characterized in that, described target terminal is the network resource transmission situation of described target terminal each position in the motion track of following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the regioselectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and described use interval are between the lane place of diverse location in described motion track, described centralized dispatching interval is positioned at before described use interval, and described network data is the network data of described target terminal interval business with running when using interval mobile in described centralized dispatching; Or

The network resource transmission situation that described target terminal is each time point of the position of described target terminal residing for following certain hour section in the network resource transmission situation of following certain hour section; Described selectivity scheduling strategy is comprise block information for representing centralized dispatching interval and the time selectivity scheduling strategy for the data message that represents network data, described centralized dispatching interval and the described time interval using the different time points of interval position residing for described target terminal, described centralized dispatching is interval interval early than described use.

68. devices as described in claim 67, it is characterized in that, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of specific location area, and described motion track is positioned at described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation;

Described acquiring unit is used for channel quality level situation and/or the cell load situation of described acquisition specific location area each position.

69. devices as recited in claim 68, it is characterized in that, described acquiring unit is positioned at described ad-hoc location and quantity is greater than the channel information of the user terminal to send up of predetermined number for receiving, and analyze the channel information received, to obtain the channel quality level situation of described specific location area each position; Or described acquiring unit is used for the channel quality level situation being measured described specific location area each position by the associating reception technique of multiple cell and multi-antenna technology;

Described acquiring unit also for this cell load condition information that the base station of each community obtaining described specific location area reports, and combines the cell load situation that the cell load condition information obtained obtains described specific location area.

70. devices according to any one of claim 67, it is characterized in that, described unit of setting up is for carrying out analyzing and processing to the described network resource transmission situation obtained, to set up network performance data storehouse, wherein, described network performance data storehouse is for representing the descending and/or up network resource transmission situation of described specific location area each position.

71. devices according to any one of claim 67, it is characterized in that, described network performance data storehouse is for representing the network performance data storehouse of the network resource transmission situation of each time point of described following certain hour section specific location area, and the position residing for described target terminal belongs to described specific location area; Described network resource transmission situation comprises: channel quality level situation and/or cell load situation;

Described acquiring unit is for obtaining channel quality level situation and/or the cell load situation of each time point of described following certain hour section specific location area each position.

72. devices as described in claim 71, it is characterized in that, described acquiring unit is used for the channel quality level situation of each time point being obtained described following certain hour section described specific location area each position by the temporal regularity of the channel quality level situation of specific location area each position; And/or

Described acquiring unit is used for the cell load situation of each time point being obtained described following certain hour section described specific location area each position by the temporal regularity of the cell load situation of specific location area each position.

73. 1 kinds of network data transmission systems, is characterized in that, comprise network performance analysis device and network data transmission device, wherein:

Described network performance analysis device, for obtaining the network resource transmission situation of specific location area each position; And analyzing and processing is carried out to the described network resource transmission situation obtained, to set up network performance data storehouse, described network performance data storehouse comprises the network resource transmission situation of described target terminal in following certain hour section; And receive the Query Information that the network equipment sends, and from the network resource transmission situation of target terminal described in described network performance data library inquiry in following certain hour section;

Described network data transmission device, for sending described network data according to selectivity scheduling strategy to described target terminal in centralized dispatching interval, wherein, described network data is used for described target terminal in described centralized dispatching interval and described use section operation current business, described selectivity scheduling strategy is that described target terminal generates in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience, described selectivity scheduling strategy comprises the block information for representing centralized dispatching interval and the data message for representing network data, described network data is the network data of described target terminal interval business with using interval to run in described centralized dispatching, the network resource transmission situation in described centralized dispatching interval is better than the described network resource transmission situation using interval.

74. systems as described in claim 73, is characterized in that, described network performance analysis device is also for the network resource transmission situation of target terminal described in described network data transmission device in following certain hour section; Described network data transmission device is also for generating in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience based on described target terminal; Or

Described network performance analysis device also for generating in the network resource transmission situation of following certain hour section the described selectivity scheduling strategy ensureing Consumer's Experience based on described target terminal, and sends described selectivity scheduling strategy to the described network equipment.