CN105101260A

CN105101260A - Information processing method, base station and terminal

Info

Publication number: CN105101260A
Application number: CN201510330431.9A
Authority: CN
Inventors: 石彬
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2015-06-15
Filing date: 2015-06-15
Publication date: 2015-11-25
Anticipated expiration: 2035-06-15
Also published as: CN105101260B

Abstract

The invention discloses an information processing method, a base station and a terminal. The information processing method is applicable to the base station. The method comprises the following steps: detecting to obtain current geographical position information of a current position, where a first terminal is, reported by the first terminal; determining current channel state information corresponding to the first terminal based on the current geographical position information; and determining a current signal transceiving parameter corresponding to the first terminal based on the current channel state information. By means of the information processing method provided by the invention, the technical problems that a channel condition cannot be accurately reflected by a channel state obtaining manner and the labour cost is high in the prior art can be solved; and the technical effect of determining the channel condition intelligently and accurately is realized.

Description

A kind of information processing method, base station and terminal

Technical field

The present invention relates to communication technical field, particularly a kind of information processing method, base station and terminal.

Background technology

Along with the development of the communication technology, increasing mobile terminal enters the life of people, such as, mobile phone, panel computer, notebook computer etc., these terminals normally by with set up radio communication between the base station of region and be connected the communication realized with other-end.When in base station being the terminals with information transmission in its radio coverage area, the impact of the wireless channel of base station and terminal room can be subject to, as: shadow fading, frequency selective fading, multipath fading etc.Therefore, determine that the channel status of base station and terminal room can promote the performance of communication system, ensure that base station can be supplied to the good communication quality of terminal.In the prior art, channel status obtains often by various ways binding analysis such as traffic statistics analysis, test analysis of driving, call quality test or spot network quality test analysis, customer complaint analysis, signalling analysis, automatic road measuring analyses.

But present inventor is in the process realizing technical scheme in the embodiment of the present invention, find that above-mentioned technology at least exists following technical problem:

The analysis modes such as test analysis, call quality test or spot network quality test analysis, automatic road measuring analysis of driving need higher cost of labor, need to carry out real-time testing artificially, and when network environment changes, workload is comparatively large, cannot ensure networked-induced delay; The channel condition information only obtained by modes such as traffic statistics analysis, customer complaint analysis, signalling analysis accurately can not reflect again the real time status of channel.So, there is channel status obtain manner in prior art and accurately can not reflect channel conditions and the high technical problem of cost of labor.

Summary of the invention

The embodiment of the present invention provides a kind of information processing method, base station and terminal, there is channel status obtain manner accurately can not reflect channel conditions and the high technical problem of cost of labor for solving in prior art, to realize intelligence and to determine the technique effect of channel status exactly.

On the one hand, the embodiment of the present application provides a kind of information processing method, is applied to a base station, and described method comprises:

The current geographic position information of current location residing for the described first terminal that detection acquisition first terminal reports;

Based on described current geographic position information, determine the current channel condition information corresponding with described first terminal; And based on described current channel condition information, determine that the current demand signal corresponding with described first terminal receives and dispatches parameter.

Optionally, described based on described current geographic position information, determine the current channel condition information corresponding with described first terminal; And based on described current channel condition information, determine that the current demand signal corresponding with described first terminal receives and dispatches parameter, specifically comprise:

Based on described current geographic position information, determine first propagation coefficient of described current demand signal in described current location;

Based on described first propagation coefficient, determine that described current channel condition information is the first channel condition information;

Based on described first channel condition information, determine the first dual-mode antenna parameter of described current demand signal, the first transmitting-receiving frequency parameter, the first transmitting-receiving power parameter, the first receive-after-transmit time delay parameter and the first transmitting-receiving priority parameters.

Obtain the current translational speed that described first terminal reports;

Judge whether described current translational speed is less than first threshold, obtains the first judged result;

When described first judged result is for being, determine that described first terminal is in the first state;

Based on described current geographic position information and described first state, determine second propagation coefficient of described current demand signal in described current location;

Based on described second propagation coefficient, determine that described current channel condition information is second channel state information;

Based on described second channel state information, determine the second dual-mode antenna parameter of described current demand signal, the second transmitting-receiving frequency parameter, the second transmitting-receiving power parameter, the second receive-after-transmit time delay parameter, the second transmitting-receiving priority parameters.

Obtain the current translational speed of the described first terminal that described first terminal reports;

Judge whether described current translational speed is more than or equal to Second Threshold, obtains the second judged result;

When described second judged result is for being, determine that described first terminal is in the second state;

Based on described current geographic position information and described second state, determine three propagation coefficient of described current demand signal in described current location;

Based on described 3rd propagation coefficient, determine that described current channel condition information is the 3rd channel condition information;

Based on described 3rd channel condition information, determine the 3rd dual-mode antenna parameter of described current demand signal, the 3rd transmitting-receiving frequency parameter, the 3rd transmitting-receiving power parameter, the 3rd receive-after-transmit time delay parameter, the 3rd transmitting-receiving priority parameters.

Optionally, when described second judged result is for being, described method also comprises:

Based on described current translational speed and described current geographic position information, determine described first terminal from described current location move to be positioned at the second place of the same area with described current location time signal the 4th propagation coefficient;

Based on described 4th propagation coefficient, determine the 4th channel condition information when described first terminal is positioned at the described second place;

Based on the 4th channel condition information, determine the 4th dual-mode antenna parameter of signal, the 4th transmitting-receiving frequency parameter, the 4th transmitting-receiving power parameter, the 4th receive-after-transmit time delay parameter, the 4th transmitting-receiving priority parameters.

Optionally, described based on described current channel condition information, after determining that the current demand signal corresponding with described first terminal receives and dispatches parameter, described method also comprises:

3rd geographical location information of the 3rd position residing for described second terminal of detection acquisition second terminal to report;

Based on described 3rd geographical location information and described current geographic position information, judge whether described second terminal and described first terminal are positioned at the same area, obtain the 3rd judged result;

When described 3rd judged result is for being, determine that the channel condition information corresponding with described second terminal is described current channel condition information;

Based on described current channel condition information, determine that the secondary signal corresponding with described second terminal receives and dispatches parameter.

On the other hand, the embodiment of the present application also provides a kind of information processing method, is applied to a terminal, and described method comprises:

Detect the current geographic position information obtaining current location residing for described terminal;

Send described current geographic position information to base station;

Receive the current channel condition information corresponding with described terminal that described base station sends;

Based on described current channel condition information, determine the current demand signal transmitting-receiving parameter of described terminal.

On the other hand, the embodiment of the present application also provides a kind of base station, comprising:

Housing;

First receiving element, is arranged in described housing, for receiving the current geographic position information of current location residing for described first terminal that first terminal reports;

Memory cell, is arranged in described housing, for storing at least one program module;

At least one processor, be arranged in described housing, at least one processor described is by obtaining and running at least one program module described, for obtaining described current geographic position information, based on described current geographic position information, determine the current channel condition information corresponding with described first terminal; Based on described current channel condition information, determine that the current demand signal corresponding with described first terminal receives and dispatches parameter.

Optionally, at least one processor described also for:

Obtain the current translational speed that described first terminal reports;

Based on described current geographic position information and described first state, determine second propagation coefficient of described current demand signal in described current location; Based on described second propagation coefficient, determine that described current channel condition information is second channel state information;

Optionally, at least one processor described also for:

On the other hand, the embodiment of the present application also provides a kind of terminal, comprising:

Housing;

Detecting unit, for detecting the current geographic position information obtaining current location residing for described terminal;

Transmitting element, for sending described current geographic position information to base station;

Receiving element, for receiving the current channel condition information corresponding with described terminal that described base station sends;

At least one processor, is arranged in described housing, and at least one processor described, by obtaining and running at least one program module described, for based on described current channel condition information, determines the current demand signal transmitting-receiving parameter of described terminal.

Above-mentioned one or more technical scheme in the embodiment of the present application, at least has one or more technique effects following:

1, due in technical scheme in the embodiment of the present application, have employed the current geographic position information detecting and obtain current location residing for the described first terminal that reports of first terminal; Based on described current geographic position information, determine the current channel condition information corresponding with described first terminal; And based on described current channel condition information, determine that the current demand signal corresponding with described first terminal receives and dispatches the technological means of parameter.Like this, the geographical location information of base station real-time reception terminal to report, and determine the channel status with terminal room according to this geographical location information, and then determine the signal transmitting and receiving parameter that adapts with channel status, therefore, without the need to as prior art, need to carry out real-time testing artificially, and when network environment changes, workload is comparatively large, cannot ensure networked-induced delay.So, effectively can solve in prior art and there is channel status obtain manner and accurately can not reflect channel conditions and the high technical problem of cost of labor, to realize intelligence and to determine the technique effect of channel status exactly.

2, due in technical scheme in the embodiment of the present application, have employed the current translational speed obtaining described first terminal and report; Judge whether described current translational speed is less than first threshold, obtains the first judged result; When described first judged result is for being, determine that described first terminal is in the first state; Based on described current geographic position information and described first state, determine second propagation coefficient of described current demand signal in described current location; Based on described second propagation coefficient, determine that described current channel condition information is the technological means of second channel state information.Like this, terminal is fixing or when moving at a slow speed, the geographical position residing for it is relatively fixing, so, the signal propagation coefficient of terminal region can be determined in base station, and then based on the signal propagation coefficient in this region, determines the channel condition information in geographical position residing for terminal.Further, when fast mobile terminal is to other positions in this region, channel condition information corresponding to terminal also can be determined fast.So, achieve the technique effect determining the current channel condition information that first terminal that position is comparatively fixed is corresponding rapidly and accurately.

3, due in technical scheme in the embodiment of the present application, have employed the current translational speed obtaining the described first terminal that described first terminal reports; Judge whether described current translational speed is more than or equal to Second Threshold, obtains the second judged result; When described second judged result is for being, determine that described first terminal is in the second state; Based on described current geographic position information and described second state, determine three propagation coefficient of described current demand signal in described current location; Based on described 3rd propagation coefficient, determine that described current channel condition information is the technological means of the 3rd channel condition information.Like this, terminal is when fast moving, and the geographical position change residing for it is very fast, so the signal propagation coefficient of the terminal region of fast moving and the channel condition information of correspondence can be determined in base station.So, achieve the technique effect determining the change in location current channel condition information that first terminal is corresponding faster rapidly and accurately.

4, due in technical scheme in the embodiment of the present application, have employed detect acquisition second terminal to report described second terminal residing for the 3rd geographical location information of the 3rd position; Based on described 3rd geographical location information and described current geographic position information, judge whether described second terminal and described first terminal are positioned at the same area, obtain the 3rd judged result; When described 3rd judged result is for being, determine that the channel condition information corresponding with described second terminal is described current channel condition information; Based on described current channel condition information, determine that the secondary signal corresponding with described second terminal receives and dispatches the technological means of parameter.Like this, terminal is fixing or when moving at a slow speed, geographical position residing for it is relatively fixing, so, the signal propagation coefficient of terminal region can be determined in base station, and then based on the signal propagation coefficient in this region, determines the channel status in region residing for terminal, and then, achieve and can to make and described terminal is in channel status between the other-end of the same area and base station in area fast.

Accompanying drawing explanation

The flow chart of a kind of information processing method that Fig. 1 provides for the embodiment of the present application one;

Fig. 2 is the first implementation of step S102 in the embodiment of the present application one;

Fig. 3 is the second implementation of step S102 in the embodiment of the present application one;

Fig. 4 is the third implementation of step S102 in the embodiment of the present application one;

Fig. 5 is when in the embodiment of the present application one, step S102 implements with the third implementation, the flow chart of steps that described information processing method also comprises;

Fig. 6 be in the embodiment of the present application one after step s 102, the flow chart of steps that described information processing method also comprises;

The flow chart of a kind of information processing method that Fig. 7 provides for the embodiment of the present application two;

The structural representation of a kind of base station that Fig. 8 provides for the embodiment of the present application three;

The structural representation of a kind of terminal that Fig. 9 provides for the embodiment of the present application four.

Embodiment

Technical scheme in the embodiment of the present invention is solve above-mentioned technical problem, and general thought is as follows:

A kind of information processing method, be applied to a base station, described method comprises:

Due in technical scheme in the embodiment of the present application, have employed the current geographic position information detecting and obtain current location residing for the described first terminal that reports of first terminal; Based on described current geographic position information, determine the current channel condition information corresponding with described first terminal; And based on described current channel condition information, determine that the current demand signal corresponding with described first terminal receives and dispatches the technological means of parameter.Like this, the geographical location information of base station real-time reception terminal to report, and determine the channel status with terminal room according to this geographical location information, and then determine the signal transmitting and receiving parameter that adapts with channel status, therefore, without the need to as prior art, need to carry out real-time testing artificially, and when network environment changes, workload is comparatively large, cannot ensure networked-induced delay.So, effectively can solve in prior art and there is channel status obtain manner and accurately can not reflect channel conditions and the high technical problem of cost of labor, to realize intelligence and to determine the technique effect of channel status exactly.

Clearly understand for making the object of the application, technical scheme and advantage, below in conjunction with the accompanying drawing in the embodiment of the present application, technical scheme in the embodiment of the present application is clearly and completely described, obviously, described embodiment is only some embodiments of the present application, instead of whole embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the application's protection.When not conflicting, the embodiment in the application and the feature in embodiment can combination in any mutually.Further, although show logical order in flow charts, in some cases, can be different from the step shown or described by order execution herein.

In addition, term "and/or" herein, being only a kind of incidence relation describing affiliated partner, can there are three kinds of relations in expression, and such as, A and/or B, can represent: individualism A, exists A and B simultaneously, these three kinds of situations of individualism B.In addition, character "/" herein, when not illustrating, general expression forward-backward correlation is to the relation liking a kind of "or".

In the embodiment of the present application, base station (such as, access point) can to refer in Access Network the equipment by one or more sector and wireless terminal communications on aloft interface.Such as, base station can be global system for mobile communications (GlobalSystemforMobilecommunications, or code division multiple access (CodeDivisionMultipleAccess GSM), CDMA) base station (BaseTransceiverStation in, BTS), also can be Wideband Code Division Multiple Access (WCDMA) (WidebandCodeDivisionMultipleAccessWireless, WCDMA) base station (NodeB) in, can also be Long Term Evolution (LongTermEvolution, LTE) evolved base station (NodeB or eNB or e-NodeB in system, evolutionalNodeB), in embodiments of the present invention, be described for the evolved base station in LTE communication system, but the embodiment of the present invention is not limited to this.

In the embodiment of the present application, described first terminal and described second terminal can be can carry out the electronic equipment of transmission of wireless signals with base station, can work in the mobile communication network, such as, mobile phone, notebook, PAD (panel computer), etc., the application does not limit.

In order to better understand the technical scheme of the application, below in conjunction with Figure of description and concrete execution mode, the technical scheme to the application is described in detail.

Embodiment one

Refer to Fig. 1, the embodiment of the present application provides a kind of information processing method, is applied to a base station, and described method comprises:

S101: the current geographic position information of current location residing for the described first terminal that detection acquisition first terminal reports;

S102: based on described current geographic position information, determines the current channel condition information corresponding with described first terminal; And based on described current channel condition information, determine that the current demand signal corresponding with described first terminal receives and dispatches parameter.

In the present embodiment, step S101 is implemented as: the signal transmitting and receiving of the terminal within the scope of its coverage cell of base stations being in charge, first terminal is in the cell range of base station coverage.Base station detects the geographical location information that the terminal within the scope of its coverage cell sends in real time, therefore, when first terminal needs base station to be its resource allocation, the current geographic position information of residing current location is sent to base station, so the current geographic position information obtaining current location residing for the first terminal that reports of first terminal can be detected in base station, wherein, current geographic position information can be current location residing for first terminal, also can be the building information of the first area at current location place residing for first terminal, road information, bridge information, the geographical location information such as mountains and rivers information.During the current location of the current geographic position information that the first terminal received in base station reports residing for first terminal, base station based on the current location residing for first terminal, can inquire and the geographical location information such as the building information of the first area at current location place, road information, bridge information, mountains and rivers information from high in the clouds or network.

After complete step S101, the method in the embodiment of the present application just performs step S102, that is: based on described current geographic position information, determine the current channel condition information corresponding with described first terminal; And based on described current channel condition information, determine that the current demand signal corresponding with described first terminal receives and dispatches parameter.

In the embodiment of the present application, step S102 at least has three kinds of specific implementations, but is not limited only to this three kinds of implementations:

With reference to figure 2, the first implementation, step S102 specifically comprises the following steps:

S201: based on described current geographic position information, determines first propagation coefficient of described current demand signal in described current location;

S202: based on described first propagation coefficient, determines that described current channel condition information is the first channel condition information;

S203: based on described first channel condition information, determines the first dual-mode antenna parameter of described current demand signal, the first transmitting-receiving frequency parameter, the first transmitting-receiving power parameter, the first receive-after-transmit time delay parameter and the first transmitting-receiving priority parameters.

With reference to figure 3, the second implementation, step S102 specifically comprises the following steps:

S301: obtain the current translational speed that described first terminal reports;

S302: judge whether described current translational speed is less than first threshold, obtains the first judged result;

S303: when described first judged result is for being, determine that described first terminal is in the first state;

S304: based on described current geographic position information and described first state, determines second propagation coefficient of described current demand signal in described current location;

S305: based on described second propagation coefficient, determines that described current channel condition information is second channel state information;

S306: based on described second channel state information, determines the second dual-mode antenna parameter of described current demand signal, the second transmitting-receiving frequency parameter, the second transmitting-receiving power parameter, the second receive-after-transmit time delay parameter, the second transmitting-receiving priority parameters.

With reference to figure 4, the third implementation, step S102 specifically comprises the following steps:

S401: the current translational speed obtaining the described first terminal that described first terminal reports;

S402: judge whether described current translational speed is more than or equal to Second Threshold, obtains the second judged result;

S403: when described second judged result is for being, determine that described first terminal is in the second state;

S404: based on described current geographic position information and described second state, determines three propagation coefficient of described current demand signal in described current location;

S405: based on described 3rd propagation coefficient, determines that described current channel condition information is the 3rd channel condition information;

S406: based on described 3rd channel condition information, determines the 3rd dual-mode antenna parameter of described current demand signal, the 3rd transmitting-receiving frequency parameter, the 3rd transmitting-receiving power parameter, the 3rd receive-after-transmit time delay parameter, the 3rd transmitting-receiving priority parameters.

Concrete, in the present embodiment, when described information processing method is applied to base station, above-mentioned three kinds of implementations of step S102 are by shown in describing as follows:

The first implementation, base station is after obtaining the current geographic position information that reports of first terminal, first propagation coefficient of described current demand signal in described current location is determined based on this current geographic position information, such as: when first terminal is positioned at the A position of the intensive first area of building, the building information of A position is sent to base station, base station, when receiving the building information of the A position residing for first terminal, determines that first terminal is in the intensive signal communication environments of city building.

Further, base station is based on above-mentioned communication environments, determine that current demand signal is sent to the signal propagation model of first terminal, and according to the building information that first terminal reports, such as: the building residing for first terminal is high, the construction material of building, as glass curtain wall and concrete, the information such as surrounding building construction, by reporting current geographic position information, carrying out signal transmission path emulation, determining the propagation coefficient in propagation model.Suppose that the propagation model set up is B model, the propagation coefficient determined is C, further, based on the propagation model B determined and propagation coefficient C, when determining propagation model B and propagation coefficient C, can according to the first channel condition information of model and coefficient estimate base station and first terminal, as: the information such as transmission rate, signal to noise ratio, channel gain, noise power.

When the first channel condition information is determined in base station, can according to the first channel condition information, determine and between first terminal current demand signal the first dual-mode antenna parameter, the first transmitting-receiving frequency parameter, first receives and dispatches power parameter, the first receive-after-transmit time delay parameter and first receives and dispatches priority parameters.Such as: when the send/receive antenna in base station is the aerial array of 4*4, to determine in this aerial array that the first antenna is for sending and receiving current demand signal, and the transmitting-receiving frequency determining the signal between the first antenna transmitting-receiving and first terminal be 3600HZ, receive and dispatch that power is 80W, receive-after-transmit time delay 0.05s and to receive and dispatch priority be the parameters such as the first priority.

The second implementation, first terminal, while transmission current geographic position information, also can report the translational speed of oneself.Base station, after receiving the translational speed of first terminal, judges whether the current translational speed of first terminal is less than first threshold.When determining that the current translational speed of first terminal is less than first threshold, determine that first terminal is in low speed and moves or the first fixing state.And then second propagation coefficient of described current demand signal in described current location is determined based on the current geographic position information of first terminal and the first state again in base station.

Such as: be in office when user carries first terminal, and this office is positioned at the A position of the intensive first area of building, it can thus be appreciated that first terminal is in stationary state, the current translational speed that first terminal reports is 0km/h ~ 1km/h, the building information of A position and front translational speed 0km/h ~ 1km/h are sent to base station by first terminal, base station is when the current translational speed that the building information and first terminal that receive the A position residing for first terminal report, determine that first terminal is in the intensive signal communication environments of city building, further, when the first threshold preset in base station is 5km/h, base station determines that the current translational speed that first terminal reports is that 0km/h ~ 1km/h is less than first threshold 5km/h, base station determines that first terminal is in stationary state, and then base station is based on the signal communication environments that city building the are intensive stationary state corresponding with first terminal, determine that current demand signal is sent to the signal propagation model of first terminal, and according to the building information that first terminal reports, such as: the building residing for first terminal is high, the construction material of building, as glass curtain wall and concrete, the information such as surrounding building construction, by reporting current geographic position information, carry out signal transmission path emulation, determine the propagation coefficient in propagation model.

Suppose that the propagation model set up is D model, the propagation coefficient determined is E, further, based on the propagation model D determined and propagation coefficient E, when determining propagation model B and propagation coefficient C, can according to the second channel state information of model and coefficient estimate base station and first terminal, as: the information such as transmission rate, signal to noise ratio, channel gain, noise power.When determining second channel state information, can according to second channel state information, determine and between first terminal current demand signal the second dual-mode antenna parameter, the second transmitting-receiving frequency parameter, second receives and dispatches power parameter, the second receive-after-transmit time delay parameter and second receives and dispatches priority parameters.Such as: when the send/receive antenna in base station is the aerial array of 4*4, to determine in this aerial array that the second antenna is for sending and receiving current demand signal, and the transmitting-receiving frequency determining the signal between the second antenna transmitting-receiving and first terminal be 4000HZ, receive and dispatch that power is 90W, receive-after-transmit time delay 0.06s and to receive and dispatch priority be the parameters such as the second priority.

The third implementation, first terminal, while transmission current geographic position information, also can report the translational speed of oneself.Base station, after receiving the translational speed of first terminal, judges whether the current translational speed of first terminal is less than Second Threshold.When determining that the current translational speed of first terminal is greater than Second Threshold, determine that first terminal is in the second state of fast moving.And then three propagation coefficient of described current demand signal in described current location is determined based on the current geographic position information of first terminal and the second state again in base station.

Such as: be on the automobile of traveling when user carries first terminal, and, this running car is at the intensive environment of building, first terminal sends current translational speed and current location to base station by the time interval of presetting, when base station receives the current translational speed 40km/h that the geography information of the Q position residing for first terminal and first terminal report, determine that first terminal is in the intensive signal communication environments of city building, further, the first threshold preset in base station is 30km/h, base station determines that the current translational speed that first terminal reports is that 40km/h is greater than Second Threshold 30km/h, base station determines that first terminal is in mobile status, and then base station is based on the signal communication environments that city building the are intensive mobile status corresponding with first terminal, determine that current demand signal is sent to the signal propagation model of first terminal, and according to the building information that first terminal reports, bridge information, mountains and rivers information etc., such as: the building residing for first terminal is high, the construction material of building, as glass curtain wall and concrete, building around, the information such as bridge information, by reporting current geographic position information, carry out signal transmission path emulation, determine the propagation coefficient in propagation model.

Suppose that the propagation model set up is M model, the propagation coefficient determined is N, further, based on the propagation model M determined and propagation coefficient N, when determining propagation model M and propagation coefficient N, can according to the 3rd channel condition information of model and coefficient estimate base station and first terminal, as: the information such as transmission rate, signal to noise ratio, channel gain, noise power.When determining the 3rd channel condition information, can according to the 3rd channel condition information, determine and between first terminal current demand signal the 3rd dual-mode antenna parameter, the 3rd transmitting-receiving frequency parameter, the 3rd receives and dispatches power parameter, the 3rd receive-after-transmit time delay parameter and the 3rd receives and dispatches priority parameters.Such as: when the send/receive antenna in base station is the aerial array of 4*4, to determine in this aerial array that third antenna is for sending and receiving current demand signal, and the transmitting-receiving frequency determining the signal between third antenna transmitting-receiving and first terminal be 4000HZ, receive and dispatch that power is 200W, receive-after-transmit time delay 0.04s and to receive and dispatch priority be the parameters such as the first priority.

Please refer to Fig. 5, when in the embodiment of the present application is with the 3rd, implementation realizes step S102, in step s 102, when described second judged result is for being, described method also comprises:

S501: based on described current translational speed and described current geographic position information, determine described first terminal from described current location move to be positioned at the second place of the same area with described current location time signal the 4th propagation coefficient;

S502: based on described 4th propagation coefficient, determines the 4th channel condition information when described first terminal is positioned at the described second place;

S503: based on the 4th channel condition information, determines the 4th dual-mode antenna parameter of signal, the 4th transmitting-receiving frequency parameter, the 4th transmitting-receiving power parameter, the 4th receive-after-transmit time delay parameter, the 4th transmitting-receiving priority parameters.

In the present embodiment, base station, when determining that the current translational speed of first terminal is greater than Second Threshold, determines that first terminal is in the second state of fast moving.And then, base station is again based on the translational speed that first terminal reports, when estimation first terminal moves to the second place from current location, when the geographical location information that first terminal is corresponding and first terminal are in the second place, four propagation coefficient of signal from base-station transmission to first terminal.

Such as: be on the automobile of traveling when user carries first terminal, and, this running car is at the intensive environment of building, first terminal sends current translational speed and current location to base station by the time interval of presetting, when to receive current translational speed that the geography information of the Q position residing for first terminal and first terminal report be 40km/h in base station, determine that first terminal moves to signal communication environments corresponding to the second place after T time, base station is based on the translational speed of first terminal, estimation first terminal is moved to the P place being positioned at the bridge of the same area with Q place after five minutes by the Q place that building are intensive, base station determines that first terminal is in mobile status, and then base station is based on the signal communication environments of the bridge mobile status corresponding with first terminal, determine that signal is sent to signal propagation model when first terminal is in the P place of bridge, such as: the building information around bridge, lake information, mountains and rivers information etc., by reporting current geographic position information, carry out signal transmission path emulation, determine the propagation coefficient in propagation model.

Suppose that the propagation model set up is H model, the propagation coefficient determined is G, further, based on the propagation model H determined and propagation coefficient G, when determining propagation model H and propagation coefficient G, can according to the 4th channel condition information of model and coefficient estimate base station and first terminal, as: the information such as transmission rate, signal to noise ratio, channel gain, noise power.When determining the 4th channel condition information, can according to the 4th channel condition information, determine and between first terminal signal the 4th dual-mode antenna parameter, the 4th transmitting-receiving frequency parameter, the 4th receives and dispatches power parameter, the 4th receive-after-transmit time delay parameter and the 4th receives and dispatches priority parameters.Such as: when the send/receive antenna in base station is the aerial array of 4*4, to determine in this aerial array that the first antenna is for sending and receiving current demand signal, and the transmitting-receiving frequency determining the signal between third antenna transmitting-receiving and first terminal be 4600HZ, receive and dispatch that power is 180W, receive-after-transmit time delay 0.08s and to receive and dispatch priority be the parameters such as the first priority.

Please refer to Fig. 6, after the embodiment of the present application execution of step S102, described method also comprises:

S601: the 3rd geographical location information of the 3rd position residing for described second terminal of detection acquisition second terminal to report;

S602: based on described 3rd geographical location information and described current geographic position information, judges whether described second terminal and described first terminal are positioned at the same area, obtains the 3rd judged result;

S603: when described 3rd judged result is for being, determines that the channel condition information corresponding with described second terminal is described current channel condition information;

S604: based on described current channel condition information, determines that the secondary signal corresponding with described second terminal receives and dispatches parameter.

In the present embodiment, base station is after the current demand signal transmitting-receiving parameter of correspondence determining first terminal, the geographical location information that the other-end that its overlay area still can be detected in base station reports, when the 3rd geographical location information of the 3rd position residing for the second terminal that base station receives the second terminal to report, the current geographic position information that base station reports based on the 3rd geographical location information received and first terminal, judge whether be positioned at the same area in the second terminal and first terminal, after the second terminal is determined in base station and first terminal is positioned at the same area, the current channel condition information of the channel condition information corresponding with the second terminal corresponding to first terminal is determined in base station, and then, base station is based on signal transmitting and receiving parameter corresponding to the current channel condition information determined, determine the secondary signal transmitting-receiving parameter that the second terminal is corresponding.

Such as: the first terminal that user A carries and the second terminal that user B carries are positioned at the same area, second terminal reports current geographic position information to base station, and then, the geographical location information of geographical location information second terminal to report that base station reports based on first terminal, determine that first terminal and the second terminal are in the same area, and then, because base station determines that the signal transmitting and receiving parameter that first terminal is corresponding is the first parameter, so base station determines that the signal transmitting and receiving parameter corresponding with the second terminal is also the first parameter.

Embodiment two

Please refer to Fig. 7, another embodiment of the application provides a kind of information processing method, is applied to a terminal, and described method comprises:

S701: detect the current geographic position information obtaining current location residing for described terminal;

S702: send described current geographic position information to base station;

S703: receive the current channel condition information corresponding with described terminal that described base station sends;

S704: based on described current channel condition information, determines the current demand signal transmitting-receiving parameter of described terminal.

In specific implementation process, described terminal can be mobile phone, also can be panel computer, or is other electronic equipments, and the embodiment of the present application just differs and one to schematically illustrate.

When terminal needs to carry out Signal transmissions with base station, the current geographic position information of terminal to report, concrete, terminal utilizes the current geographic position information residing for GPS location, or obtain the current geographic position information residing for terminal by the locate mode of wifi, and then terminal to report current geographic position information is to base station.After base station utilizes the information processing method in embodiment one to determine the current channel condition information corresponding with terminal, current channel condition information is sent to terminal, after terminal receives this current channel condition information, determine the current demand signal transmitting-receiving parameter between terminal and base station.Such as: terminal is by construction material that is high for the building in residing geographical position, building, and as glass curtain wall and concrete, the information reportings such as surrounding building construction are to base station, and signal transmission path emulation is carried out in base station, determines the propagation coefficient in propagation model.And then can according to the channel condition information of model and coefficient estimate base station and terminal, as: the information such as transmission rate, signal to noise ratio, channel gain, noise power.When determining channel condition information, channel condition information is sent to terminal, and then terminal can according to channel condition information, determining and the signal transmitting and receiving frequency of current demand signal, signal transmitting and receiving power, signal transmitting and receiving time delay between base station.Such as: to determine and between base station, the transmitting-receiving frequency of signal is 3600HZ, to receive and dispatch power be the parameter such as 80W, receive-after-transmit time delay 0.05s.

Embodiment three

Please refer to Fig. 8, based on same inventive concept, the method for corresponding embodiment one, the embodiment of the present application three also provides a kind of base station, comprising:

Housing 801;

First receiving element 802, is arranged in described housing, for receiving the current geographic position information of current location residing for described first terminal that first terminal reports;

Memory cell 803, is arranged in described housing, for storing at least one program module;

At least one processor 804, be arranged in described housing, at least one processor described is by obtaining and running at least one program module described, for obtaining described current geographic position information, based on described current geographic position information, determine the current channel condition information corresponding with described first terminal; Based on described current channel condition information, determine that the current demand signal corresponding with described first terminal receives and dispatches parameter.

Optionally, at least one processor described also for:

Obtain the current translational speed that described first terminal reports;

Optionally, at least one processor described also for:

Embodiment four

Please refer to Fig. 9, based on same inventive concept, the method for corresponding embodiment two, the embodiment of the present application four also provides a kind of terminal, comprising:

Housing 901;

Detecting unit 902, for detecting the current geographic position information obtaining current location residing for described terminal;

Transmitting element 903, for sending described current geographic position information to base station;

Receiving element 904, for receiving the current channel condition information corresponding with described terminal that described base station sends;

Memory cell 905, is arranged in described housing, for storing at least one program module;

At least one processor 906, is arranged in described housing, and at least one processor described, by obtaining and running at least one program module described, for based on described current channel condition information, determines the current demand signal transmitting-receiving parameter of described terminal.

By the one or more technical schemes in the embodiment of the present application, following one or more technique effect can be realized:

4, due in technical scheme in the embodiment of the present application, have employed detect acquisition second terminal to report described second terminal residing for the 3rd geographical location information of the 3rd position; Based on described 3rd geographical location information and described current geographic position information, judge whether be positioned at the same area in described second terminal and described first terminal, obtain the 3rd judged result; When described 3rd judged result is for being, determine that the channel condition information corresponding with described second terminal is described current channel condition information; Based on described current channel condition information, determine that the secondary signal corresponding with described second terminal receives and dispatches the technological means of parameter.Like this, terminal is fixing or when moving at a slow speed, geographical position residing for it is relatively fixing, so, the signal propagation coefficient of terminal region can be determined in base station, and then based on the signal propagation coefficient in this region, determines the channel status in region residing for terminal, and then, achieve and can to make and described terminal is in channel status between the other-end of the same area and base station in area fast.

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of complete hardware embodiment, completely software implementation or the embodiment in conjunction with software and hardware aspect.And the present invention can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disc store, CD-ROM, optical memory etc.) of computer usable program code.

The present invention describes with reference to according to the flow chart of the method for the embodiment of the present invention, equipment (system) and computer program and/or block diagram.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block diagram and/or square frame and flow chart and/or block diagram and/or square frame.These computer program instructions can being provided to the processor of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computer or other programmable data processing device produce device for realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, make on computer or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computer or other programmable devices is provided for the step realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

Specifically, the computer program instructions that a kind of information processing method in the embodiment of the present application is corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk, when the computer program instructions corresponding with information processing method in storage medium to be read by base station or be performed, comprise the steps:

Optionally, that store in described storage medium and step: based on described current geographic position information, determine the current channel condition information corresponding with described first terminal; And based on described current channel condition information, determine that the current demand signal corresponding with described first terminal receives and dispatches parameter, corresponding computer instruction, by concrete implementation, specifically comprises the steps:

Obtain the current translational speed that described first terminal reports;

Optionally, when the computer program instructions corresponding with information processing method in storage medium to be read by base station or be performed, in step when described second judged result is for being, also comprise the steps:

Optionally, when the computer program instructions corresponding with information processing method in storage medium to be read by base station or is performed, in step based on described current channel condition information, after determining that the current demand signal corresponding with described first terminal receives and dispatches parameter, also comprise the steps:

Specifically, the computer program instructions that a kind of information processing method in the embodiment of the present application is corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk, read by the second electronic equipment when the computer program instructions corresponding with information processing method in storage medium or when being performed, comprise the steps:

Judge whether described second electronic equipment and the first electric room exist first and be connected, obtain the 5th judged result;

When described 5th judged result is for being, receive the first information that described first electronic equipment sends;

Control described second electronic equipment and be in silent mode, and export the first content corresponding with the described first information.

Optionally, that store in described storage medium and step: control described second electronic equipment and be in silent mode, corresponding computer instruction, by concrete implementation, specifically comprises the steps:

At the described first information to when should have the second prompting audio frequency, described second prompt tone is kept pouring in second voice output unit of being defeated by described second electronic equipment, control described second voice output unit and export described second prompting audio frequency to be less than or equal to the second output volume presetting volume; Or;

At the described first information to when should have the second prompting audio frequency, control described second prompting audio frequency and be not transferred to described second voice output unit.

Optionally, read by the second electronic equipment when the computer program instructions corresponding with information processing method in storage medium or when being performed, in step after the first content that described output is corresponding with the described first information, also comprise the steps:

Obtain the second information of first user input, wherein, described second information is specially that described first user inputs in described second electronic equipment, for sending to the information of the 4th electronic equipment;

Connect based on described first, described second information is sent to described first electronic equipment.

Specifically, the computer program instructions that a kind of information processing method in the embodiment of the present application is corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk, when the computer program instructions corresponding with information processing method in storage medium is by an information processing system reading or when being performed, described information processing system comprises the first electronic equipment and second electronic equipment different from described first electronic equipment, and described method comprises the steps:

When described first electronic equipment is in a default scene, described first electronic equipment is set up and is connected with first of the second electronic equipment;

Described first electronic equipment receives the first information that the 3rd electronic equipment sends;

Described first electronic equipment controls described first electronic equipment and is in silent mode, and connects based on described first, the described first information is sent to described second electronic equipment, exports the described first information for the second electronic equipment;

Described second electronic equipment receives the described first information;

Described second electronic equipment controls described second electronic equipment and is in silent mode, and exports the first content corresponding with the described first information.

Although describe the preferred embodiments of the present invention, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the scope of the invention.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims

1. an information processing method, is applied to a base station, and described method comprises:

2. the method for claim 1, is characterized in that, described based on described current geographic position information, determines the current channel condition information corresponding with described first terminal; And based on described current channel condition information, determine that the current demand signal corresponding with described first terminal receives and dispatches parameter, specifically comprise:

3. the method for claim 1, is characterized in that, described based on described current geographic position information, determines the current channel condition information corresponding with described first terminal; And based on described current channel condition information, determine that the current demand signal corresponding with described first terminal receives and dispatches parameter, specifically comprise:

Obtain the current translational speed that described first terminal reports;

4. the method for claim 1, is characterized in that, described based on described current geographic position information, determines the current channel condition information corresponding with described first terminal; And based on described current channel condition information, determine that the current demand signal corresponding with described first terminal receives and dispatches parameter, specifically comprise:

5. method as claimed in claim 4, it is characterized in that, when described second judged result is for being, described method also comprises:

6. the method as described in claim arbitrary in claim 1-5, is characterized in that, described based on described current channel condition information, after determining that the current demand signal corresponding with described first terminal receives and dispatches parameter, described method also comprises:

7. an information processing method, is applied to a terminal, and described method comprises:

Send described current geographic position information to base station;

8. a base station, comprising:

Housing;

9. base station as claimed in claim 8, is characterized in that, at least one processor described also for:

10. base station as claimed in claim 8, is characterized in that, at least one processor described also for:

Obtain the current translational speed that described first terminal reports;

11. base stations as claimed in claim 8, is characterized in that, at least one processor described also for:

12. base stations as claimed in claim 11, is characterized in that, at least one processor described also for:

13. base stations as described in claim arbitrary in claim 8-12, is characterized in that, at least one processor described also for:

14. 1 kinds of terminals, comprising:

Housing;