CN108184335A - A kind of resource regulating method, apparatus and system - Google Patents

Abstract

The present invention provides a kind of resource regulating method, apparatus and system, is related to field of communication technology, can avoid occurring the phenomenon that loss of data during transmission services, so as to improve the reliability of business transmission.This method includes：UE sends the high frequency traffic handing capacity of the UE to base station, and receive the information of the high frequency resources of base station transmission, the high frequency traffic handing capacity of the UE distributes high frequency resources for base station for the UE, for the high frequency traffic handing capacity of the UE for characterizing traffic handing capacities of the UE in high frequency mode, the information of high frequency resources is used to indicate the business that the UE transmits the UE on the high frequency resources.This method dispatches high frequency resources for base station for UE.

Description

A kind of resource regulating method, apparatus and system Technical field

The present invention relates to field of communication technology more particularly to a kind of resource regulating methods, apparatus and system.

Background technique

With user equipment (English: user equipment, abbreviation: UE) quantity is continuously increased, diversified trend is also presented in the characteristics of business that UE can be supported, including delay requirement, higher and data volume is larger, delay requirement is lower and data volume is larger, delay requirement is higher and data volume is smaller and delay requirement is lower and data volume is smaller etc..

In traditional low-frequency long term evolution (English: long term evolution, abbreviation: LTE) in network, since its bandwidth is limited, therefore when the biggish business of UE needs transmitted data amount in traditional low-frequency LTE network, base station in traditional low-frequency LTE network is the bandwidth of UE distribution, may be unable to satisfy UE to the business demand of the biggish business of data volume.Thus it has been proposed that a kind of high frequency network, i.e., the network communicated using the carrier wave that wavelength is millimeter magnitude as the carrier of UE transmission services.Since the bandwidth of high frequency network is more much bigger than the bandwidth of traditional low-frequency LTE network; therefore when the biggish business of UE needs transmitted data amount in high frequency network; in order to which the transmission of the biggish business of data volume is rapidly completed, the base station in high frequency network would generally distribute biggish bandwidth for UE.

However, when the base station in high frequency network is that different UE distributes biggish bandwidth and is used for transmission the biggish business of data volume, due to the limitation of UE self performance, cause UE possibly can not in time in processing business transmission process data, there is the phenomenon that loss of data so as to will lead in business transmission process, thereby reduces the reliability of business transmission.

Summary of the invention

The present invention provides a kind of resource regulating method, apparatus and system, can be avoided and the phenomenon that loss of data occurs during transmission services, to improve the reliability of business transmission.

In order to achieve the above objectives, the present invention adopts the following technical scheme:

In a first aspect, the present invention provides a kind of resource regulating method, comprising:

User equipment (UE) sends the high frequency traffic handing capacity of the UE to base station, in order to which the base station is that the UE distributes high frequency resources according to the high frequency traffic handing capacity of the UE；And

The UE receives the information for the high frequency resources that the base station is sent, and the information of the high frequency resources is used to indicate the business that the UE transmits the UE on the high frequency resources.

In the first possible implementation of the first aspect,

The high frequency traffic handing capacity of the UE includes:

At least one of in the maximum modulation coding mode of maximum resource block size, the maximum processing bandwidth that the UE is supported, the peak transfer rate of UE support and UE support that the UE is supported.

In conjunction with the possible implementation of the first of first aspect above-mentioned or first aspect, in second in possible implementation, the method also includes:

The UE sends the business demand information of the UE to the base station, and the business demand information of the UE judges whether the business of the UE meets high-frequency transmission requirement for the base station；

When the base station judges that the business of the UE meets the high-frequency transmission and requires, the UE receives the high frequency instruction information that the base station is sent.

The possible implementation of second with reference to first aspect, in the third possible implementation, the high frequency instruction information are used to indicate the high frequency traffic handing capacity that the UE sends the UE to the base station.

The third possible implementation with reference to first aspect, in the fourth possible implementation,

Running time-frequency resource information is carried in the high frequency instruction information, the UE sends the high frequency traffic handing capacity of the UE on the running time-frequency resource that the running time-frequency resource information indicates to the base station.

In conjunction with the possible implementation of the first of first aspect above-mentioned or first aspect, in the 5th in possible implementation, before the UE sends the high frequency traffic handing capacity of the UE to base station, the method also includes:

The UE judges whether the business of the UE is full according to the business demand information of the UE Sufficient high-frequency transmission requirement；

The UE sends the high frequency traffic handing capacity of the UE to base station, comprising:

When the business of the UE, which meets the high-frequency transmission, to be required, the UE sends the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request to the base station, the high frequency request is that the UE distributes high frequency resources for requesting the base station, and the business demand information of the UE is that the UE distributes the high frequency resources for the base station.

The 5th kind of possible implementation with reference to first aspect, in a sixth possible implementation, the UE according to the business demand information of the UE judge the UE business whether meet high-frequency transmission require before, the method also includes:

The UE receives the minimum service configuration information of the base station broadcast, and the minimum service configuration information is for characterizing requirement of the base station in the high frequency mode to the high frequency traffic handing capacity of the UE.

The 6th kind of possible implementation with reference to first aspect, in the 7th kind of possible implementation, if the business of the UE meets the high-frequency transmission requirement, then the UE sends the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request to the base station, comprising:

If the business of the UE meets the high-frequency transmission requirement, the UE judges whether the high frequency traffic handing capacity of the UE meets the minimum service configuration information；

If the high frequency traffic handing capacity of the UE meets the minimum service configuration information, the UE sends the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request to the base station.

Second aspect, the present invention provide a kind of resource regulating method, comprising:

Base station receives the high frequency traffic handing capacity for the UE that user equipment (UE) is sent；

High frequency resources are distributed according to the high frequency traffic handing capacity of the UE for the UE, the high frequency resources are used for transmission the business of the UE in the base station；

The base station sends the information of the high frequency resources to the UE, and the information of the high frequency resources transmits the business of the UE for the UE on the high frequency resources.

In the first possible implementation of the second aspect,

The high frequency traffic handing capacity of the UE includes:

At least one of in the maximum modulation coding mode of maximum resource block size, the maximum processing bandwidth that the UE is supported, the peak transfer rate of UE support and UE support that the UE is supported.

In conjunction with the possible implementation of the first of second aspect above-mentioned or second aspect, in the second possible implementation, the method also includes:

The base station receives the business demand information that the UE is sent；

The base station judges whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the UE；

If the business of the UE meets the high-frequency transmission requirement, the base station sends high frequency to the UE and indicates that information, the high frequency instruction information are used to indicate the high frequency traffic handing capacity that the UE sends the UE to the base station.

In conjunction with second of possible implementation of aforementioned second aspect, in the third possible implementation, high frequency resources are distributed according to the high frequency traffic handing capacity of the UE for the UE in the base station, comprising:

The base station judges whether the high frequency traffic handing capacity of the UE meets minimum service configuration information, and the minimum service configuration information is for characterizing requirement of the base station in the high frequency mode to the high frequency traffic handing capacity of the UE；

If the high frequency traffic handing capacity of the UE meets the minimum service configuration information, the high frequency resources are distributed according to the high frequency traffic handing capacity of the UE for the UE in the base station.

In conjunction with the third possible implementation of second possible implementation and second aspect of second aspect, in the fourth possible implementation,

Running time-frequency resource information is carried in the high frequency instruction information, the UE sends the high frequency traffic handing capacity of the UE on the running time-frequency resource that the running time-frequency resource information indicates to base station.

It may any implementation of the implementation into the 4th kind of possible implementation of second aspect in conjunction with second of second aspect, in a fifth possible implementation, high frequency resources are distributed according to the high frequency traffic handing capacity of the UE for the UE in the base station, comprising:

The base station according to the business demand information of the UE and the high frequency business of the UE at Reason ability distributes the high frequency resources for the UE.

In conjunction with the 5th kind of possible implementation of second aspect, in a sixth possible implementation, the quantity of the UE be it is multiple,

The high frequency resources are distributed according to the business demand information of the UE and the high frequency traffic handing capacity of the UE, for the UE in the base station, comprising:

The base station determines the dispatching priority of the multiple UE according to the high frequency traffic handing capacity of the business demand information of multiple UE or the business demand information of the multiple UE and the multiple UE；

The base station is according to the dispatching priority of the business demand information of the multiple UE, the high frequency traffic handing capacity of the multiple UE and the multiple UE, the respectively the multiple UE distribution high frequency resources.

In conjunction with second of second aspect may any implementation of the implementation into the 6th kind of possible implementation of second aspect, in the 7th kind of possible implementation,

The business demand information of the UE includes at least: the delay requirement of the data volume of the business of the UE and the business of the UE.

The third aspect, the present invention provide a kind of user equipment (UE), comprising:

Transmission unit, for sending the high frequency traffic handing capacity of the UE to base station, in order to which the base station is that the UE distributes high frequency resources according to the high frequency traffic handing capacity of the UE；And

Receiving unit, for receiving the information for the high frequency resources that the base station is sent, the information of the high frequency resources transmits the business of the UE for the UE on the high frequency resources.

In the first possible implementation of the third aspect,

The high frequency traffic handing capacity for the UE that the transmission unit is sent includes:

At least one of in the maximum modulation coding mode of maximum resource block size, the maximum processing bandwidth that the UE is supported, the peak transfer rate of UE support and UE support that the UE is supported.

In conjunction with the possible implementation of the first of the third aspect above-mentioned or the third aspect, in second in possible implementation,

The transmission unit, is also used to send the business demand information of the UE to the base station, and the business demand information of the UE judges whether the business of the UE meets high-frequency transmission requirement for the base station；

The receiving unit is also used to receive the high frequency instruction information that the base station is sent when the base station judges that the business of the UE meets the high-frequency transmission and requires.

In conjunction with second of possible implementation of the third aspect, in the third possible implementation, the received high frequency instruction information of receiving unit is used to indicate the high frequency traffic handing capacity that the transmission unit sends the UE to the base station.

In conjunction with the third possible implementation of the third aspect, in the fourth possible implementation,

Running time-frequency resource information is carried in the received high frequency instruction information of receiving unit, the transmission unit sends the high frequency traffic handing capacity of the UE on the running time-frequency resource that the running time-frequency resource information indicates to the base station.

In conjunction with the possible implementation of the first of the third aspect above-mentioned or the third aspect, in the 5th in possible implementation, the UE further includes judging unit,

The judging unit before the high frequency traffic handing capacity for sending the UE to base station for the transmission unit, judges whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the UE；

The transmission unit, when specifically for judging that the business of the UE meets high-frequency transmission requirement when the judging unit, the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request are sent to the base station, the high frequency request is that the UE distributes high frequency resources for requesting the base station, and the business demand information of the UE is that the UE distributes the high frequency resources for the base station.

In conjunction with the 5th kind of possible implementation of the third aspect, in a sixth possible implementation,

The receiving unit, be also used to the judging unit according to the business demand information of the UE judge the UE business whether meet high-frequency transmission require before, the minimum service configuration information of the base station broadcast is received, the minimum service configuration information is for characterizing requirement of the base station in the high frequency mode to the high frequency traffic handing capacity of the UE.

In conjunction with the 6th kind of possible implementation of the third aspect, in the 7th kind of possible implementation,

The judging unit judges whether the high frequency traffic handing capacity of the UE meets the minimum service configuration information if the business for being also used to the UE meets the high-frequency transmission requirement；

The transmission unit, if judging that the high frequency traffic handing capacity of the UE meets the minimum service configuration information specifically for the judging unit, the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request are sent to the base station.

Fourth aspect, the present invention provide a kind of base station, comprising:

Receiving unit, the high frequency traffic handing capacity of the UE for receiving user equipment (UE) transmission；

Allocation unit distributes high frequency resources for the high frequency traffic handing capacity according to the received UE of the receiving unit for the UE, the high frequency resources are used for transmission the business of the UE；

Transmission unit, for sending the information for the high frequency resources that the allocation unit is distributed to the UE, the information of the high frequency resources transmits the business of the UE for the UE on the high frequency resources.

In the first possible implementation of the fourth aspect,

The high frequency traffic handing capacity of the received UE of receiving unit includes:

At least one of in the maximum modulation coding mode of maximum resource block size, the maximum processing bandwidth that the UE is supported, the peak transfer rate of UE support and UE support that the UE is supported.

In conjunction with the possible implementation of the first of fourth aspect above-mentioned or fourth aspect, in the second possible implementation, the base station further includes judging unit,

The receiving unit is also used to receive the business demand information that the UE is sent；

The judging unit, for judging whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the received UE of the receiving unit；

The transmission unit sends high frequency to the UE and indicates information, the high frequency instruction if being also used to the judging unit judges that the business of the UE meets the high-frequency transmission requirement Information is used to indicate the high frequency traffic handing capacity that the UE sends the UE to the base station.

In conjunction with second of possible implementation of aforementioned fourth aspect, in the third possible implementation, the allocation unit specifically includes judgment module and distribution module,

The judgment module, for judging whether the high frequency traffic handing capacity of the UE meets minimum service configuration information, the minimum service configuration information is for characterizing requirement of the base station in the high frequency mode to the high frequency traffic handing capacity of the UE；

The distribution module, according to the high frequency traffic handing capacity of the UE, distributes the high frequency resources if judging that the high frequency traffic handing capacity of the UE meets the minimum service configuration information for the judgment module for the UE.

In conjunction with the third possible implementation of second possible implementation and fourth aspect of fourth aspect, in the fourth possible implementation,

Running time-frequency resource information is carried in the high frequency instruction information that the transmission unit is sent, the UE sends the high frequency traffic handing capacity of the UE on the running time-frequency resource that the running time-frequency resource information indicates to base station.

In conjunction with second of fourth aspect may any implementation of the implementation into the 4th kind of possible implementation of fourth aspect, in a fifth possible implementation,

The allocation unit, specifically for distributing the high frequency resources for the UE according to the business demand information of the received UE of the receiving unit and the high frequency traffic handing capacity of the UE.

In conjunction with the 5th kind of possible implementation of fourth aspect, in a sixth possible implementation, the quantity of the UE be it is multiple, the allocation unit further includes determining module,

The determining module determines the dispatching priority of the multiple UE for the high frequency traffic handing capacity according to the business demand information of multiple UE or the business demand information of the multiple UE and the multiple UE；

The distribution module, specifically for the dispatching priority of the multiple UE determined according to the business demand information of the multiple UE, the high frequency traffic handing capacity of the multiple UE and the determining module, respectively the multiple UE distributes the high frequency resources.

In conjunction with second of fourth aspect may any implementation of the implementation into the 6th kind of possible implementation of fourth aspect, in the 7th kind of possible implementation,

The business demand information of the received UE of receiving unit includes at least: the delay requirement of the data volume of the business of the UE and the business of the UE.

5th aspect, the present invention provide a kind of user equipment (UE), comprising:

Transmitter, for sending the high frequency traffic handing capacity of the UE to base station, in order to which the base station is that the UE distributes high frequency resources according to the high frequency traffic handing capacity of the UE；And

Receiver, for receiving the information for the high frequency resources that the base station is sent, the information of the high frequency resources transmits the business of the UE for the UE on the high frequency resources.

In the first possible implementation of the 5th aspect,

The high frequency traffic handing capacity for the UE that the transmitter is sent includes:

At least one of in the maximum modulation coding mode of maximum resource block size, the maximum processing bandwidth that the UE is supported, the peak transfer rate of UE support and UE support that the UE is supported.

In conjunction with the first possible implementation of the 5th aspect above-mentioned or the 5th aspect, in second in possible implementation,

The transmitter, is also used to send the business demand information of the UE to the base station, and the business demand information of the UE judges whether the business of the UE meets high-frequency transmission requirement for the base station；

The receiver is also used to receive the high frequency instruction information that the base station is sent when the base station judges that the business of the UE meets the high-frequency transmission and requires.

In conjunction with second of possible implementation of the 5th aspect, in the third possible implementation, the received high frequency instruction information of receiver is used to indicate the high frequency traffic handing capacity that the transmitter sends the UE to the base station.

In conjunction with the third possible implementation of the 5th aspect, in the fourth possible implementation,

Running time-frequency resource information is carried in the received high frequency instruction information of receiver, the transmitter sends the high frequency traffic handing capacity of the UE on the running time-frequency resource that the running time-frequency resource information indicates to the base station.

In conjunction with it is above-mentioned 5th aspect or the 5th aspect the first possible implementation, In 5th in possible implementation, the UE further includes processor,

The processor before the high frequency traffic handing capacity for sending the UE to base station for the transmitter, judges whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the UE；

The transmitter, when specifically for judging that the business of the UE meets high-frequency transmission requirement when the processor, the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request are sent to the base station, the high frequency request is that the UE distributes high frequency resources for requesting the base station, and the business demand information of the UE is that the UE distributes the high frequency resources for the base station.

In conjunction with the 5th kind of possible implementation of the 5th aspect, in a sixth possible implementation,

The receiver, be also used to the processor according to the business demand information of the UE judge the UE business whether meet high-frequency transmission require before, the minimum service configuration information of the base station broadcast is received, the minimum service configuration information is for characterizing requirement of the base station in the high frequency mode to the high frequency traffic handing capacity of the UE.

In conjunction with the 6th kind of possible implementation of the 5th aspect, in the 7th kind of possible implementation,

The processor judges whether the high frequency traffic handing capacity of the UE meets the minimum service configuration information if the business for being also used to the UE meets the high-frequency transmission requirement；

The transmitter sends the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request to the base station if judging that the high frequency traffic handing capacity of the UE meets the minimum service configuration information specifically for the processor.

6th aspect, the present invention provide a kind of base station, comprising:

Receiver, the high frequency traffic handing capacity of the UE for receiving user equipment (UE) transmission；

Processor distributes high frequency resources for the high frequency traffic handing capacity according to the received UE of the receiver for the UE, the high frequency resources are used for transmission the business of the UE；

Transmitter, for sending the information for the high frequency resources that the processor distributes to the UE, the information of the high frequency resources transmits the business of the UE for the UE on the high frequency resources.

In the first possible implementation of the 6th aspect,

The high frequency traffic handing capacity of the received UE of receiver includes:

At least one of in the maximum modulation coding mode of maximum resource block size, the maximum processing bandwidth that the UE is supported, the peak transfer rate of UE support and UE support that the UE is supported.

In conjunction with the first possible implementation of the 6th aspect above-mentioned or the 6th aspect, in the second possible implementation,

The receiver is also used to receive the business demand information that the UE is sent；

The processor, is also used to judge according to the business demand information of the received UE of the receiver whether the business of the UE meets high-frequency transmission requirement；

The transmitter, if being also used to the processor judges that the business of the UE meets the high-frequency transmission requirement, high frequency then, which is sent, to the UE indicates that information, the high frequency instruction information are used to indicate the high frequency traffic handing capacity that the UE sends the UE to the base station.

In conjunction with second of possible implementation of aforementioned 6th aspect, in the third possible implementation,

The processor, specifically for judging whether the high frequency traffic handing capacity of the UE meets minimum service configuration information, the minimum service configuration information is for characterizing requirement of the base station in the high frequency mode to the high frequency traffic handing capacity of the UE；

The processor, according to the high frequency traffic handing capacity of the UE, distributes the high frequency resources if the high frequency traffic handing capacity specifically for the UE meets the minimum service configuration information for the UE.

In conjunction with the third possible implementation of second possible implementation and the 6th aspect of the 6th aspect, in the fourth possible implementation,

Running time-frequency resource information is carried in the high frequency instruction information that the transmitter is sent, the UE sends the high frequency traffic handing capacity of the UE on the running time-frequency resource that the running time-frequency resource information indicates to base station.

In conjunction with the 6th aspect second may implementation to the 6th aspect the 4th kind of possible implementation in any implementation, in a fifth possible implementation,

The processor, specifically for distributing the high frequency resources for the UE according to the business demand information of the received UE of the receiver and the high frequency traffic handing capacity of the UE.

In conjunction with the 5th kind of possible implementation of the 6th aspect, in a sixth possible implementation, the quantity of the UE be it is multiple,

The processor is also used to the high frequency traffic handing capacity according to the business demand information of multiple UE or the business demand information of the multiple UE and the multiple UE, determines the dispatching priority of the multiple UE；

The processor, specifically for the dispatching priority according to the business demand information of the multiple UE, the high frequency traffic handing capacity of the multiple UE and the multiple UE, respectively the multiple UE distributes the high frequency resources.

In conjunction with the 6th aspect second may implementation to the 6th aspect the 6th kind of possible implementation in any implementation, in the 7th kind of possible implementation,

The business demand information of the received UE of receiver includes at least: the delay requirement of the data volume of the business of the UE and the business of the UE.

7th aspect, the present invention provide a kind of communication system, comprising:

User equipment (UE) as described in any possible implementation of the above-mentioned third aspect or the third aspect, and the base station as described in any possible implementation of above-mentioned fourth aspect or fourth aspect；Alternatively,

User equipment (UE) as described in any possible implementation in terms of the above-mentioned 5th or in terms of the 5th, and the base station as described in any possible implementation in terms of the above-mentioned 6th or in terms of the 6th.

The present invention provides a kind of resource regulating method, apparatus and system, specifically include the high frequency traffic handing capacity that UE sends UE to base station, and receive the information of the high frequency resources of base station transmission, wherein, the high frequency traffic handing capacity of UE is that UE distributes high frequency resources for base station, traffic handing capacity of the high frequency traffic handing capacity characterization UE of UE in high frequency mode, the information of high frequency resources are used to indicate the business that UE transmits the UE on the high frequency resources.Pass through Resource regulating method provided by the invention, apparatus and system, UE can send the high frequency traffic handing capacity of UE to base station, enable base station by being that UE distributes suitable high frequency resources according to the high frequency traffic handing capacity of UE, so that UE transmits the business of the UE on the high frequency resources, so as to avoid there is the phenomenon that loss of data in prior art business transmission process, and then improve the reliability of business transmission.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, the drawings to be used in the description of the embodiments or prior art will be briefly described below, apparently, the attached drawing that drawings in the following description are only some embodiments of the invention, attached drawing instead of all the embodiments.

Fig. 1 is the network architecture schematic diagram of low-and high-frequency networking provided in an embodiment of the present invention；

Fig. 2 is a kind of flow chart one of resource regulating method provided in an embodiment of the present invention；

Fig. 3 is a kind of flowchart 2 of resource regulating method provided in an embodiment of the present invention；

Fig. 4 is a kind of interaction figure one of resource regulating method provided in an embodiment of the present invention；

Fig. 5 is a kind of interaction figure two of resource regulating method provided in an embodiment of the present invention；

Fig. 6 is a kind of interaction figure three of resource regulating method provided in an embodiment of the present invention；

Fig. 7 is a kind of interaction figure four of resource regulating method provided in an embodiment of the present invention；

Fig. 8 is a kind of interaction figure five of resource regulating method provided in an embodiment of the present invention；

Fig. 9 is a kind of interaction figure six of resource regulating method provided in an embodiment of the present invention；

Figure 10 is a kind of interaction figure seven of resource regulating method provided in an embodiment of the present invention；

Figure 11 is a kind of interaction figure eight of resource regulating method provided in an embodiment of the present invention；

Figure 12 is a kind of structural schematic diagram one of UE provided in an embodiment of the present invention；

Figure 13 is a kind of structural schematic diagram two of UE provided in an embodiment of the present invention；

Figure 14 is a kind of structural schematic diagram one of base station provided in an embodiment of the present invention；

Figure 15 is a kind of structural schematic diagram two of base station provided in an embodiment of the present invention；

Figure 16 is a kind of structural schematic diagram three of base station provided in an embodiment of the present invention；

Figure 17 is a kind of structural schematic diagram four of base station provided in an embodiment of the present invention；

Figure 18 is a kind of hardware structural diagram of UE provided in an embodiment of the present invention；

Figure 19 is a kind of hardware structural diagram of base station provided in an embodiment of the present invention；

Figure 20 is a kind of communication system block diagram provided in an embodiment of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.

In the prior art, since the bandwidth of high frequency network is very big, when transmitting the business of UE request transmission by high frequency network, the high frequency base station in high frequency network can distribute biggish running time-frequency resource for UE.But since the performance of UE itself limits, UE may not be able to make full use of high frequency base station for the running time-frequency resource of its distribution.Therefore, in business transmission process UE possibly can not in time in processing business transmission process data, there is the phenomenon that loss of data so as to will lead to UE during carry out business transmission, thereby reduce the reliability of business transmission.

In order to improve the reliability of business transmission, the embodiment of the invention provides a kind of resource regulating methods, high frequency base station is by executing the resource regulating method, suitable running time-frequency resource information can be distributed for UE, to avoid occurring the phenomenon that loss of data in prior art business transmission process, and then improve the reliability of business transmission.

Resource regulating method provided in an embodiment of the present invention can be applied in the network architecture of low-and high-frequency networking, the network architecture schematic diagram of low-and high-frequency networking is as shown in Figure 1, base station in the network architecture of low-and high-frequency networking includes high frequency base station and low frequency base station, i.e. in the coverage area of low frequency base station, one or more high frequencies base station is established.

Further, in the network architecture of low-and high-frequency networking, the transmission mode of the transmission of burst service is completed using high frequency base station auxiliary low frequency base station.Specifically, if UE is then running time-frequency resource needed for the business is transmitted in UE distribution as low frequency base station, to transmit the business when UE requests transmission services in the coverage area of low frequency base station, but not in the coverage area of high frequency base station.

It is running time-frequency resource needed for the burst service is transmitted in UE distribution as high frequency base station, to transmit the burst service of UE if the business of UE request transmission is burst service when UE requests transmission services if UE is in the coverage area of high frequency base station.

It is that UE distribution passes by low frequency base station if the business of UE request transmission is general service Running time-frequency resource needed for the defeated general service, to transmit the general service of UE.

It should be noted that above-mentioned burst service refers to, the higher business of delay requirement or the biggish business of data volume.I.e. when the data volume of the business of UE request transmission is more than or equal to preset data-quantity threshold, or when the delay of the business of UE request transmission is less than or equal to preset delay threshold, then the business of UE request transmission is burst service.Wherein, which is greater than the maximum amount of data that low frequency base station can transmit, which is less than the minimum delay that low frequency base station can reach.

Above-mentioned general service refers to, delay requirement is lower and the lesser business of data volume.I.e. when the data volume of the business of UE request transmission is less than preset data-quantity threshold, and the delay of the business of UE request transmission is greater than preset delay threshold, then the business of UE request transmission is general service.

In embodiments of the present invention, UE can for it is following any one, and UE can be static, be also possible to mobile.UE can include but is not limited to: platform (English: Station), mobile station (English: Mobile Station), subscriber unit (English: Subscriber Unit), PC (English: Personal Computer), laptop computer (English: Laptop Computer), tablet computer (English: Tablet Computer), net book (English: Netbook), terminal (English: Terminal), cellular phone (English: Cellular Phone), handheld device (English: Handheld), wireless phone (English: Cordless Phone), personal digital assistant (English: Personal Digital Assistant, abbreviation: PDA), data card (English: Data Card), universal serial bus (English: Uninersal Serial Bus, abbreviation: USB) insertion equipment, mobile Wi-Fi hotspot equipment (English: MiFi Devices), smartwatch, intelligent glasses, radio modem (English: Modem), wireless router, wireless local loop (English: Wireless Local Loop, abbreviation: WLL) platform etc..Above-mentioned UE can be distributed in entire wireless network.

Embodiment one

The embodiment of the present invention provides a kind of resource regulating method, as shown in Fig. 2, this method may include:

S101, UE send the high frequency traffic handing capacity of UE, the high frequency business of UE to base station Processing capacity is that UE distributes high frequency resources, traffic handing capacity of the high frequency traffic handing capacity characterization UE of UE in high frequency mode for base station.

Wherein, high frequency mode refers to operating mode of the working frequency range more than 6 gigahertzs (gigahertz is expressed as GHz), such as 15GHz, 28GHz, 45GHz and 60GHz etc..

In embodiments of the present invention, UE has radio frequency system, i.e., the system being made of devices such as the high-frequency amplifiers, high frequency filter and high-frequency mixer of support high frequency mode enables UE to work under high frequency mode.

High frequency traffic handing capacity refers to traffic handing capacity when UE transmits the business of UE under high frequency mode.Wherein, the business of UE is the business that UE is transmitted to base station requests.

Specifically, the high frequency traffic handing capacity of UE include: UE support maximum resource block size, UE support maximum processing bandwidth, UE support peak transfer rate, at least one of and in the maximum modulation coding mode (English: modulation and coding scheme, abbreviation: MCS) that UE is supported.

It should be noted that in embodiments of the present invention, the base station can be the base station of low-and high-frequency co-sited, LF communication or high-frequency communication can be carried out with UE；The base station can also there are two or multiple, including high frequency base station and low frequency base station.Specifically, UE can send the high frequency traffic handing capacity of the UE by the low frequency system of the UE to low frequency base station, and the high frequency traffic handing capacity of the UE is sent to high frequency base station by low frequency base station, so that high frequency base station obtains the high frequency traffic handing capacity of the UE.

Wherein, the low frequency system of UE is the system being made of devices such as the low-frequency amplifiers, low-frequency filter and low-frequency mixer of support low frequency mode, and UE is worked under low frequency mode.Low frequency mode refers to working frequency range in 10GHz operating mode below, such as 10GHz, 5GHz etc..

UE can also directly send the high frequency traffic handing capacity of the UE by the radio frequency system of the UE to high frequency base station.

Further, high frequency base station is after getting the high frequency traffic handing capacity of the UE, high frequency base station can be that the UE distributes suitable high frequency resources according to the high frequency traffic handing capacity of the UE, i.e. high frequency base station is that the UE distributes the high frequency resources that can give full play to the high frequency traffic handing capacity of the UE, guarantee that excessive high frequency resources will not be distributed for the UE, to avoid There is the phenomenon that loss of data when transmitting the business of the UE on the high frequency resources in UE.

Further, in the prior art, although high frequency base station is that UE is assigned with biggish high frequency resources, but the high frequency traffic handing capacity of some UE is stronger, bigger high frequency resources can also be supported to carry out transmission services, therefore, if being still the method for UE distribution high frequency resources according to prior art medium-high frequency base station, the efficiency of transmission of these UE can be reduced.And the resource regulating method provided through the embodiment of the present invention, it is that the UE distributes suitable high frequency resources since high frequency base station is according to the high frequency traffic handing capacity of the UE, i.e. high frequency base station can give full play to the high frequency resources of the high frequency traffic handing capacity of the UE for UE distribution, therefore, the resource regulating method provided through the embodiment of the present invention, additionally it is possible to improve the efficiency of transmission of the stronger UE of these high frequency traffic handing capacities.

Optionally, the high frequency traffic handing capacity of UE is in addition to the maximum resource block size supported comprising above-mentioned UE, the maximum processing bandwidth that UE is supported, the peak transfer rate that UE is supported, and outside the maximum MCS of UE support, it can also include the clock of UE, the processing speed of UE, the buffer memory capacity of UE, UE current energy (can be understood as the current electricity of UE), and one or more of performances such as antenna amount of UE support, so that when base station is according to the high frequency resources that the high frequency traffic handing capacity of the UE is that the UE is distributed, the performance of the UE can be played to a greater extent.

S102, UE receive the information for the high frequency resources that base station is sent, and the information of the high frequency resources is used to indicate the business that the UE transmits the UE on the high frequency resources.

Specifically, UE can receive the information for the high frequency resources that high frequency base station is sent by the radio frequency system of the UE, the information for the high frequency resources that low frequency base station is sent can also be received by the low frequency system of the UE.Wherein, the information for the high frequency resources that low frequency base station is sent is that high frequency base station is after the UE distributes high frequency resources, to send tremendously low frequency base station.

It should be noted that UE can transmit the business of the UE on high frequency resources, i.e. UE need to transmit the business of the UE by the radio frequency system of the UE on the high frequency resources when UE works under high frequency mode.

The embodiment of the present invention provides a kind of resource regulating method, it specifically includes UE and sends the high frequency traffic handing capacity of UE to base station, and receive the information of the high frequency resources of base station transmission, wherein, the high frequency traffic handing capacity of UE is that UE distributes high frequency resources, the high frequency industry of UE for base station Traffic handing capacity of processing capacity of the being engaged in characterization UE in high frequency mode, the information of high frequency resources are used to indicate the business that UE transmits the UE on the high frequency resources.Pass through this method, UE can send the high frequency traffic handing capacity of UE to base station, base station is enabled to distribute suitable high frequency resources according to the high frequency traffic handing capacity of UE for UE, so that UE transmits the business of the UE on the high frequency resources, so as to avoid there is the phenomenon that loss of data in prior art business transmission process, and then improve the reliability of business transmission.

The embodiment of the present invention provides a kind of resource regulating method, as shown in figure 3, this method may include:

S201, base station receive the high frequency traffic handing capacity for the UE that UE is sent, and the high frequency traffic handing capacity of the UE characterizes traffic handing capacity of the UE in high frequency mode.

It should be noted that base station can be the high frequency base station of work under high frequency mode, or the low frequency base station for work under low frequency mode in above-mentioned S201.Wherein, high frequency base station and low frequency base station can be the base station of a low-and high-frequency co-sited, or mutually independent base station.

Wherein, the meaning of high frequency mode and the meaning of the high frequency mode in embodiment as shown in Figure 2 and identical, the meaning of low frequency mode is identical as the meaning of low frequency mode in embodiment as shown in Figure 2, and for details, reference can be made to the associated descriptions in embodiment as shown in Figure 2, and details are not described herein again.

Specifically, can directly receive the high frequency traffic handing capacity of the UE of UE transmission by high frequency base station in above-mentioned S201；The high frequency traffic handing capacity for the UE that UE is sent can also be received by low frequency base station, and low frequency base station, after receiving the high frequency traffic handing capacity of the UE, the high frequency traffic handing capacity of the UE is sent to high frequency base station by low frequency base station.

Further, the meaning of the high frequency traffic handing capacity of UE, identical as the meaning of high frequency traffic handing capacity of UE in embodiment as shown in Figure 2, for details, reference can be made to the associated descriptions in embodiment as shown in Figure 2, and details are not described herein again.

High frequency resources are distributed according to the high frequency traffic handing capacity of the UE for the UE, which is used for transmission the business of the UE in S202, base station.

It should be noted that the base station in above-mentioned S202 is high frequency base station, i.e., it is that the UE distributes high frequency resources according to the high frequency traffic handing capacity of the UE by high frequency base station.

Specifically, after high frequency base station receives the high frequency traffic handing capacity of the UE of UE transmission, alternatively, after high frequency base station receives the high frequency traffic handing capacity of the UE of low frequency base station transmission, suitable high frequency resources are distributed according to the high frequency traffic handing capacity of the UE for the UE in high frequency base station.

Illustratively, assuming that, the high frequency traffic handing capacity for the UE that high frequency base station receives are as follows: the maximum resource block size that the UE is supported is 90 kHz (kHz is expressed as KHz), the peak transfer rate that the UE is supported is 2 gigabit per seconds (gigabit per second is expressed as Gbps), the maximum MCS that the UE is supported is 64 phase quadrature amplitude modulations (English: quadrature amplitude modulation, abbreviation: QAM) and the UE support antenna number be 3.

When high frequency base station is that UE dispatches high frequency resources, high frequency base station is according to the high frequency traffic handing capacity of the UE, suitable high frequency resources can be distributed for the UE, so that UE is when transmitting the business of UE on the high frequency resources, the resource block size of transmission is 90KHz, and the MCS used is 64QAM, and the transmission mode used is multiple-input and multiple-output (English: multiple input multiple output, abbreviation: MIMO) transmission mode, the transmission rate used is 2Gbps.

Conventionally, as high frequency base station is when distributing high frequency resources for UE, it is not intended that the high frequency traffic handing capacity of the UE, therefore, high frequency base station high frequency resources distribute for UE may and it is improper, it is possible to can be the biggish high frequency resources of UE distribution.And UE may be subjected to the performance limitation of the high frequency traffic handing capacity of the UE, prevent UE is from making full use of the biggish high frequency resources, so that the UE possibly can not in time in processing business transmission process data, in turn result in the UE and the phenomenon that loss of data occur when transmitting the business of the UE.

Such as, after high frequency base station is that UE distributes high frequency resources, when the business of the UE is transmitted to UE with the transmission rate for the peak transfer rate that can be supported greater than UE, since UE cannot support the transmission rate, therefore UE can not all receive the data of high frequency base station transmission, the phenomenon that so as to cause will appear loss of data in business transmission process.

And in resource regulating method provided in an embodiment of the present invention, high frequency base station is after getting the high frequency traffic handing capacity of the UE, high frequency base station can be that the UE distributes suitable high frequency resources according to the high frequency traffic handing capacity of the UE, i.e. high frequency base station is that the UE distributes energy The high frequency resources of the high frequency traffic handing capacity of the UE are enough given full play to, guarantee that excessive high frequency resources will not be distributed for the UE, so that UE be avoided the phenomenon that loss of data occur when transmitting the business of the UE on the high frequency resources.

Further, conventionally, as the high frequency traffic handing capacity of some UE is stronger, even if high frequency base station is that the UE is assigned with biggish high frequency resources, which still can support bigger high frequency resources, accordingly, it is possible to which the efficiency of transmission of the UE can be reduced.

Such as, in the prior art, high frequency base station is after the UE is assigned with biggish high frequency resources, the transmission rate that the business of the UE is transmitted in high frequency base station on the high frequency resources to the UE is still much smaller than the peak transfer rate that UE can be supported, to reduce the efficiency of transmission when UE transmits the business of the UE.

However, in resource regulating method provided in an embodiment of the present invention, high frequency base station is that the UE distributes suitable high frequency resources according to the high frequency traffic handing capacity of UE, to guarantee that high frequency base station can be with the transmission rate of the UE peak transfer rate that can be supported, the high frequency traffic handing capacity of the UE is given full play to, and then improves the efficiency of transmission of the UE.

S203, base station send the information of the high frequency resources to UE, and the information of the high frequency resources is used to indicate the business that the UE transmits the UE on high frequency resources.

It should be noted that base station can may be low frequency base station for high frequency base station in above-mentioned S203.Specifically, if the high frequency traffic handing capacity of the UE is directly sent to high frequency base station from UE, then after it is that the UE distributes high frequency resources that high frequency base station is according to the high frequency traffic handing capacity of the UE, high frequency base station can directly send the information of the high frequency resources to UE, so that information of the UE according to the high frequency resources, transmits the business of the UE on the high frequency resources.

If the high frequency traffic handing capacity of the UE is sent tremendously low frequency base station by UE, the high frequency traffic handing capacity of the UE is sent to high frequency base station by low frequency base station, then after it is that the UE distributes high frequency resources that high frequency base station is according to the high frequency traffic handing capacity of the UE, high frequency base station can send the information of the high frequency resources to low frequency base station, the information of the high frequency resources is sent to UE by low frequency base station, so that information of the UE according to the high frequency resources, transmits the business of the UE on the high frequency resources.

The embodiment of the present invention provides a kind of resource regulating method, specifically includes base station and receives UE The high frequency traffic handing capacity of the UE sent, and according to the high frequency traffic handing capacity of the UE, high frequency resources are distributed for the UE, and the source information that the high frequency provides is sent to the UE, wherein, the high frequency traffic handing capacity of UE characterizes traffic handing capacity of the UE in high frequency mode, and the information of the high frequency resources is used to indicate the business that the UE transmits the UE on high frequency resources.Pass through this method, base station can receive the high frequency traffic handing capacity of the UE of UE transmission, and according to the high frequency traffic handing capacity of the UE, suitable high frequency resources are distributed for the UE, so that UE transmits the business of the UE on the high frequency resources, so as to avoid there is the phenomenon that loss of data in prior art business transmission process, and then improve the reliability of business transmission.

Embodiment two

The embodiment of the present invention provides a kind of resource regulating method, can be applied to two kinds of possible application scenarios.Wherein, in the first possible application scenarios, base station can actively judge whether it is the UE scheduling high frequency resources of request transmission services；In second of possible application scenarios, UE can independently judge whether that requesting base station is that the UE dispatches high frequency resources.

Further, in the first possible application scenarios, there are two types of possible implementations for tool.

Specifically, the radio frequency system of UE is always on, and UE is directly interacted with high frequency base station by the radio frequency system of the UE, as shown in figure 4, this method may include: in the first possible implementation in the first possible application scenarios

S301, UE send the business demand information of the UE to high frequency base station.

It should be noted that, in embodiments of the present invention, the business demand information of UE includes at least: the data volume (total bit number for needing to transmit during transmitting the business) of the business of UE request transmission and the delay requirement (completing the transmission time of business transmission) of the business.

Further, the business demand information of UE can also include the information such as the type (such as voice communication, video, short message) of business of UE request transmission.

S302, high frequency base station judge whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the UE.

In embodiments of the present invention, high-frequency transmission requires to judge whether it is UE scheduling high frequency resources for high frequency base station, i.e. high frequency base station requires to judge whether it is the UE points according to the high-frequency transmission With high frequency resources.Wherein, it is burst service that high-frequency transmission requirement, which may include: the business of UE,.

After high frequency base station receives the business demand information of UE, judge whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the UE.

Specifically, if high frequency base station judges that the data volume of the business of the UE is more than or equal to preset data-quantity threshold, then high frequency base station judges the business of the UE for the biggish business of data volume, to which high frequency base station judges the business of the UE for unexpected business, i.e., high frequency base station judges that the business of the UE meets high-frequency transmission requirement.

Or, if high frequency base station judges that the delay of the business of the UE is less than or equal to preset delay threshold, then high frequency base station judges the business of the UE for the higher business of delay requirement, to which high frequency base station judges the business of the UE for burst service, i.e., high frequency base station judges that the business of the UE meets high-frequency transmission requirement.

Further, if high frequency base station judges that the data volume of the business of the UE is less than preset data-quantity threshold, and the delay of the business of the UE is greater than preset delay threshold, then high frequency base station judges the business of the UE for general service, so that high frequency base station judges that the business of the UE is unsatisfactory for high-frequency transmission requirement.

If the business of S303, UE meet high-frequency transmission requirement, high frequency base station sends high frequency to UE and indicates information.

Specifically, if high frequency base station judges that the business of UE meets high-frequency transmission requirement, illustrate that high frequency base station can dispatch high frequency resources for the UE, then high frequency base station can send high frequency to the UE and indicate information, to indicate that the UE sends the high frequency traffic handing capacity of the UE, so that high frequency base station can be that the UE distributes high frequency resources according to the high frequency traffic handing capacity of the UE after receiving the high frequency traffic handing capacity of the UE of UE transmission.

Further, if high frequency base station judges that the business of UE is unsatisfactory for high-frequency transmission requirement, then high frequency base station sends the business demand information of the UE to low frequency base station, and indicate that low frequency base station is that the UE dispatches low-frequency resources, i.e. instruction low frequency base station is that the UE distributes low-frequency resources according to the business demand information of the UE, so that the UE transmits the business of the UE in the low-frequency resources.

Specifically, low frequency base station is according to the mode that the business demand information of the UE is that the UE distributes low-frequency resources, it is that the UE distribution mode of running time-frequency resource is identical with the base station in traditional low-frequency LTE network, is that UE distributes running time-frequency resource for details, reference can be made to the base station in traditional low-frequency LTE network Mode, details are not described herein again.

After S304, UE receive the high frequency instruction information of high frequency base station transmission, information is indicated according to the high frequency, the high frequency traffic handing capacity of the UE is sent to high frequency base station.

It should be noted that carrying the information for the running time-frequency resource that high frequency base station is UE distribution in high frequency instruction information, which sends the high frequency traffic handing capacity of the UE for UE to high frequency base station.After UE receives high frequency instruction information, UE indicates information according to the high frequency, sends the high frequency traffic handing capacity of the UE to high frequency base station on the running time-frequency resource.

After S305, high frequency base station receive the high frequency traffic handing capacity of the UE, according to the high frequency traffic handing capacity of the business demand information of the UE and the UE, high frequency resources are distributed for the UE.

Illustratively, after high frequency base station receives the high frequency traffic handing capacity of the UE of UE transmission, assuming that the high frequency traffic handing capacity of the UE includes the peak transfer rate that the UE can be supported, it include the data volume of business, the type of the business of the delay requirement of the business of the UE and the UE of the UE in the business demand information of the UE, the then peak transfer rate that high frequency base station can be supported according to the UE, and the type of the business of the delay requirement and UE of the data volume of the business of the UE, the business of the UE, suitable high frequency resources are distributed for the UE.

It should be noted that, since high frequency base station can provide service to open the UE of radio frequency system in its coverage area, therefore, when the determination of high frequency base station can distribute high frequency resources for the UE, high frequency base station also needs to determine whether the UE is the UE for opening radio frequency system in the high frequency base station range, i.e., high frequency base station need to further determine whether that service can be provided for the UE.

Specifically, high frequency base station can periodically send sequence information in its coverage area.After the UE (hereinafter referred to as the first UE) for opening radio frequency system in its coverage area receives the sequence information of high frequency base station transmission, the mark of the sequence information and the first UE is sent to high frequency base station by the first UE, i.e. high frequency base station scans to the first UE, the first UE be opened in high frequency base station range radio frequency system UE (including send business demand information UE and without transmission business demand UE).

Further, after high frequency base station has determined a UE, high frequency base station compares the UE Mark and its first UE scanned mark.Wherein, the mark of the UE carries in the business demand information of the UE.If high frequency base station determines that the mark of the UE is identical with the mark of some the first UE, high frequency base station is determined to provide service for the UE.To which after high frequency base station receives the high frequency traffic handing capacity of the UE, suitable high frequency resources are distributed according to the business demand information of the UE and the high frequency traffic handing capacity of the UE, for the UE in high frequency base station.

Wherein, the mark of the UE can be the IMSI International Mobile Subscriber Identity (English: International mobile subscriber identity of the UE, abbreviation: IMSI), or the unique temporary identifications (English: Globally Unique Temporary Identity in the whole world of the UE, abbreviation: GUTI) etc. any other one kind can uniquely indicate the mark of the UE identity, the present invention is with no restriction.

The mark of above-mentioned first UE can be the IMSI of the first UE, or any other one kind such as GUTI of the first UE can uniquely indicate the mark of the first UE identity, and the present invention is with no restriction.

It is understood that the mark of the UE and the same class that is identified as of the first UE identify.That is when the IMSI for being identified as the UE of the UE, the IMSI for being identified as the first UE of the first UE；When the GUTI for being identified as the UE of the UE, the GUTI for being identified as the first UE of the first UE.

S306, high frequency base station send the information of the high frequency resources to the UE.

Specifically, the information of the high frequency resources can be sent to the UE by high frequency base station, and the business of the UE is transmitted to indicate UE on the high frequency resources after it is that the UE distributes suitable high frequency resources that high frequency base station is according to the high frequency traffic handing capacity of the UE.

S307, UE transmit the business of the UE on the high frequency resources.

Specifically, UE transmits the business of the UE by the radio frequency system of the UE on the high frequency resources after UE receives the information of high frequency resources.

Further, in conjunction with Fig. 4, as shown in figure 5, above-mentioned S305 is specifically included:

S305a, high frequency base station judge whether the high frequency traffic handing capacity of the UE meets minimum service configuration information, and the minimum service configuration information is for characterizing requirement of the base station in high frequency mode to the high frequency traffic handing capacity of the UE.

Wherein, base station can be understood as the high frequency of work under high frequency mode in high frequency mode Base station.Further, the minimum service configuration information is for characterizing requirement of the base station in high frequency mode to the high frequency traffic handing capacity of the UE, it can is interpreted as the minimum service configuration information for characterizing requirement of the high frequency base station to the high frequency traffic handing capacity of the UE.

If the high frequency traffic handing capacity of S305b, the UE meet the minimum service configuration information, high frequency resources are distributed according to the business demand information of the UE and the high frequency traffic handing capacity of the UE, for the UE in high frequency base station.

Specifically, in embodiments of the present invention, a minimum service configuration information, such as the minimum transmission rate that high frequency base station allows, the least resource block size that high frequency base station allows, the minimum MCS etc. that high frequency base station allows can be arranged in high frequency base station.

Illustratively, assuming that the high frequency traffic handing capacity of UE includes the peak transfer rate that the maximum resource block size that the UE is supported and the UE are supported, the minimum service configuration information being arranged in high frequency base station includes the least resource block size that high frequency base station allows and the minimum transmission rate that high frequency base station allows.

After high frequency base station receives the high frequency traffic handing capacity of UE, the least resource block size and high frequency base station that the maximum resource block size of UE support is compared in high frequency base station and high frequency base station allows compare the peak transfer rate that the UE is supported and the minimum transmission rate that high frequency base station allows.

If high frequency base station determines that the maximum resource block size that the UE is supported is more than or equal to the least resource block size that high frequency base station allows, and the peak transfer rate that the UE is supported is more than or equal to the minimum transmission rate that high frequency base station allows, i.e. high frequency base station determines that the high frequency traffic handing capacity of the UE meets the minimum service configuration information, then suitable high frequency resources are distributed according to the business demand information of the UE and the high frequency traffic handing capacity of the UE for the UE in high frequency base station.

If high frequency base station determines that the maximum resource block size that the UE is supported is less than the least resource block size that high frequency base station allows, or the peak transfer rate that the UE is supported is less than the minimum transmission rate that high frequency base station allows, i.e. high frequency base station determines that the high frequency traffic handing capacity of the UE is unsatisfactory for the minimum service configuration information, then the high frequency traffic handing capacity of the high frequency base station notice low frequency base station UE is unsatisfactory for the minimum service configuration information, and indicate that low-frequency resources are distributed according to the business demand information of the UE for the UE in low frequency base station, so that the UE transmits the business of the UE in the low-frequency resources.

Further, if high frequency base station is the business for transmitting UE in a point-to-point fashion, i.e. the high frequency base station business of once transmitting a UE, then:

When the quantity of UE is one, suitable high frequency resources are distributed after the high frequency traffic handing capacity of the business demand information and the UE that receive the UE, for the UE in high frequency base station.

When the quantity of UE is multiple, in conjunction with Fig. 4, as shown in fig. 6, above-mentioned S305 can specifically include:

S305c, high frequency base station determine the dispatching priority of multiple UE according to the high frequency traffic handing capacity of the business demand information of multiple UE or the business demand information of multiple UE and multiple UE.

According to the dispatching priority of multiple UE, the high frequency traffic handing capacity of the business demand information of multiple UE and multiple UE, respectively multiple UE distribute high frequency resources for S305d, high frequency base station.

Specifically, high frequency base station, after the high frequency traffic handing capacity of the business demand information and multiple UE that receive multiple UE, high frequency base station can determine the dispatching priority of multiple UE according to the business demand information of UE each in multiple UE.Specifically, the sequence that the i.e. UE is dispatched by high frequency base station is more forward for example, the dispatching priority of the UE is higher if the delay requirement of the business of some UE in multiple UE is higher.

If the delay requirement of the business of certain UE request transmission in multiple UE is identical, high frequency base station can determine the dispatching priority of these UE further according to the high frequency traffic handing capacity of these UE.For example, the transmission rate that some UE in these UE can be supported is faster, then the dispatching priority of the UE is higher, i.e. the sequence that the UE is dispatched in these UE by high frequency base station is more forward.

Further, suitable high frequency resources are distributed according to the dispatching priority of multiple UE, the high frequency traffic handing capacity of the business demand information of multiple UE and multiple UE, respectively multiple UE in high frequency base station.

If high frequency base station is the business for transmitting UE in a manner of point-to-multipoint, that is the business of the multiple UE of high frequency base station simultaneous transmission, then when the quantity of the UE of transmission services is multiple, after the high frequency traffic handing capacity of the business demand information and multiple UE that receive multiple UE, high frequency base station can business demand information according to multiple UE and multiple UE for high frequency base station High frequency traffic handing capacity, distribute suitable high frequency resources respectively for multiple UE.

The embodiment of the present invention provides a kind of resource regulating method, specifically include the high frequency traffic handing capacity that high frequency base station receives the UE that UE is sent, and according to the high frequency traffic handing capacity of the UE, high frequency resources are distributed for the UE, and the information of the high frequency resources is sent to the UE, wherein, the high frequency traffic handing capacity of UE characterizes traffic handing capacity of the UE in high frequency mode, and the information of the high frequency resources is used to indicate the business that the UE transmits the UE on the high frequency resources.Pass through this method, high frequency base station receives the high frequency traffic handing capacity of the UE of UE transmission, pass through the high frequency traffic handing capacity according to the UE, suitable high frequency resources are distributed for the UE, so that UE transmits the business of the UE on the high frequency resources, so as to avoid there is the phenomenon that loss of data in prior art business transmission process, and then improve the reliability of business transmission.

Further, in second of possible implementation in the first possible application scenarios, UE is interacted by the low frequency system of the UE with low frequency base station, and is interacted by low frequency base station and high frequency base station.

Specifically, in second of possible implementation in the first possible application scenarios, as shown in fig. 7, this method may include:

S401, UE send the business demand information of the UE to low frequency base station.

It should be noted that the radio frequency system of the UE is likely to be at open state, it is also possible to be in close state when UE sends the business demand information of the UE to low frequency base station by the low frequency system of the UE.

Wherein, the content that the business demand information of UE includes is identical as the content that the business demand information of the UE in embodiment as shown in Figure 4 includes, and for details, reference can be made to the associated descriptions in embodiment as shown in Figure 4, and details are not described herein again.

S402, low frequency base station judge whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the UE.

In embodiments of the present invention, high-frequency transmission requires to judge whether to request high frequency base station for low frequency base station to be that UE dispatches high frequency resources, i.e. low frequency base station requires to judge whether to request high frequency base to be that the UE distributes high frequency resources according to the high-frequency transmission.Wherein, it is burst service that high-frequency transmission requirement, which may include: the business of UE,.

In embodiments of the present invention, high-frequency transmission requirement can be preset in low frequency base station, after low frequency base station receives the business demand information of UE, low frequency base station can judge whether the business of UE meets high-frequency transmission requirement according to the business demand information of UE, to judge whether that requesting high frequency base station is that UE distributes high frequency resources.

Specifically, low frequency base station judges whether the business of the UE meets the mode of high-frequency transmission requirement according to the business demand information of the UE, with embodiment medium-high frequency base station as shown in Figure 4 according to the business demand information of the UE judge the UE business whether meet high-frequency transmission requirement mode it is identical, for details, reference can be made to the associated descriptions in embodiment as shown in Figure 4, and details are not described herein again.

If the business of S403, UE meet high-frequency transmission requirement, low frequency base station sends high frequency to UE and indicates information.

If low frequency base station judges that the business of the UE meets high-frequency transmission requirement according to the business demand information of the UE, illustrate low frequency base station to request high frequency base station to be that the UE distributes high frequency resources, then low frequency base station can send high frequency to the UE and indicate information, to indicate that the UE sends the high frequency traffic handing capacity of the UE, thus after low frequency base station receives the high frequency traffic handing capacity of the UE of UE transmission, the high frequency traffic handing capacity of the UE is sent to high frequency base station by low frequency base station, so that high frequency base station can according to the high frequency traffic handing capacity of the UE be the UE distribute high frequency resources.

Further, if low frequency base station judges that the business of the UE is unsatisfactory for high-frequency transmission requirement according to the business demand information of the UE, then low frequency base station is that the UE dispatches low-frequency resources, i.e. when low frequency base station according to the business demand information of the UE judge the UE business be unsatisfactory for high-frequency transmission require when, low frequency base station is that the UE distributes low-frequency resources according to the business demand information of the UE, so that the UE transmits the business of the UE in the low-frequency resources.

Specifically, low frequency base station is according to the mode that the business demand information of the UE is that the UE distributes low-frequency resources, it is that the UE distribution mode of running time-frequency resource is identical with the base station in traditional low-frequency LTE network, it is the mode that UE distributes running time-frequency resource for details, reference can be made to the base station in traditional low-frequency LTE network, details are not described herein again.

After S404, UE receive the high frequency instruction information of low frequency base station transmission, information is indicated according to the high frequency, the high frequency traffic handing capacity of the UE is sent to low frequency base station.

It should be noted that carrying the information for the running time-frequency resource that low frequency base station is UE distribution in high frequency instruction information, which sends the high frequency traffic handing capacity of the UE for UE to low frequency base station.Specifically, UE indicates information according to the high frequency, sends the high frequency traffic handing capacity of the UE to low frequency base station on the running time-frequency resource after UE receives high frequency instruction information.

Further, when UE receives high frequency instruction information, if the radio frequency system of UE is in close state, UE need to open the radio frequency system of the UE, to guarantee that in high frequency base station be after the UE distributes high frequency resources, which can transmit the business of the UE on the high frequency resources.

Wherein, the radio frequency system of UE enables UE to work under high frequency mode, and interacts between high frequency base station, and the low frequency system of UE enables UE to work under low frequency mode, and interacts between low frequency base station.

After S405, low frequency base station receive the high frequency traffic handing capacity of the UE, the high frequency traffic handing capacity of the UE and the business demand information of the UE are sent to high frequency base station.

In embodiments of the present invention, when low frequency base station judges that the business of the UE meets high-frequency transmission requirement according to the business demand information of UE, and after receiving the high frequency traffic handing capacity of the UE of UE transmission, the high frequency traffic handing capacity of the business demand information of the UE and the UE will be sent to high frequency base station by low frequency base station, and indicate that high frequency base station is that the UE distributes high frequency resources.

Specifically, low frequency base station can send the business demand information of the UE by the wireless interface between low frequency base station and high frequency base station to high frequency base station, the business demand information of the UE can also be sent to high frequency base station by the antenna between low frequency base station and high frequency base station.

After S406, high frequency base station receive the high frequency traffic handing capacity of the UE, according to the high frequency traffic handing capacity of the business demand information of the UE and the UE, high frequency resources are distributed for the UE.

Specifically, after high frequency base station receives the business demand information and the high frequency traffic handing capacity of the UE of the UE of low frequency base station transmission, suitable high frequency resources are distributed according to the business demand information of the UE and the high frequency traffic handing capacity of the UE, for the UE in high frequency base station.

For example, when the high frequency traffic handing capacity of the UE includes the maximum that the UE can be supported Transmission rate, it include the data volume of business, the type of the business of the delay requirement of the business of the UE and the UE of the UE in the business demand information of the UE, the peak transfer rate that high frequency base station can be supported according to the UE, and the type of the business of the delay requirement and UE of the data volume of the business of the UE, the business of the UE, suitable high frequency resources are distributed for the UE.

It should be noted that, since high frequency base station can provide service to open the UE of radio frequency system in its coverage area, therefore, when the high frequency traffic handing capacity of the business demand information of the UE and the UE is sent to high frequency base station by low frequency base station, and indicate that high frequency base station is after the UE distributes high frequency resources, high frequency base station also needs to determine whether the UE is the UE for opening radio frequency system in the high frequency base station range, i.e., high frequency base station need to further determine whether that service can be provided for the UE.

Specifically, high frequency base station can periodically send sequence information in its coverage area, sequence information can also be sent in its coverage area when low frequency base station indicates that the high frequency base station is that the UE distributes high frequency resources.After the UE (hereinafter referred to as the first UE) for opening radio frequency system in its coverage area receives the sequence information of high frequency base station transmission, the mark of the sequence information and the first UE is sent to high frequency base station by the first UE, i.e. high frequency base station scans to the first UE, the first UE be opened in high frequency base station range radio frequency system UE (including send business demand information UE and without transmission business demand UE).

Further, after high frequency base station has determined a UE, high frequency base station compares the mark for the UE that low frequency base station is sent and the mark of its first UE scanned, wherein the mark of the UE carries in the business demand information of the UE.If high frequency base station determines that the mark of the UE is identical with the mark of some the first UE, illustrate that high frequency base station can provide service for the UE, then suitable high frequency resources are distributed according to the business demand information of the UE and the high frequency traffic handing capacity of the UE for the UE in high frequency base station.

It should be noted that the mark of the UE can be the IMSI of the UE, or any other one kind such as GUTI of the UE can uniquely indicate the mark of the UE identity, and the present invention is with no restriction.

The mark of above-mentioned first UE can be the IMSI of the first UE, or any other one kind such as GUTI of the first UE can uniquely indicate the mark of the 2nd UE identity, the present invention With no restriction.

It is understood that the mark of the UE and the same class that is identified as of the first UE identify.That is when the IMSI for being identified as the UE of the UE, the IMSI for being identified as the first UE of the first UE；When the GUTI for being identified as the UE of the UE, the GUTI for being identified as the first UE of the first UE.

S407, high frequency base station send the information of the high frequency resources to low frequency base station.

Specifically, after it is that the UE distributes suitable high frequency resources that high frequency base station is according to the high frequency traffic handing capacity of the UE, the information of the high frequency resources can be sent tremendously low frequency base station by high frequency base station, to which the information of the high frequency resources is sent to the UE by low frequency base station, the business of the UE is transmitted to indicate UE on the high frequency resources.

After S408, low frequency base station receive the information of the high frequency resources, the information of the high frequency resources is sent to the UE.

S409, UE transmit the business of UE on the high frequency resources.

Specifically, UE transmits the business of UE by the radio frequency system of the UE on the high frequency resources after UE receives the information of high frequency resources.

Further, in second of possible implementation in the first possible application scenarios, above-mentioned S406 can also be realized using the implementation of S305 in embodiment as shown in Figure 5, can also be realized using the implementation of S305 in implementation as shown in FIG. 6.For details, reference can be made to the implementations of S305 in embodiment as shown in Figure 5, or referring to the implementation of S305 in implementation as shown in FIG. 6, details are not described herein again.

The embodiment of the present invention provides a kind of resource regulating method, after the high frequency traffic handing capacity for specifically including the UE that low frequency base station receives UE transmission, the high frequency traffic handing capacity for receiving the UE is sent to high frequency base station, so that high frequency traffic handing capacity of the high frequency base station according to the UE, high frequency resources are distributed for the UE, the information of the high frequency resources is sent tremendously low frequency base station by high frequency base station, the information of the high frequency resources is sent from low frequency base station to the UE, wherein, the high frequency traffic handing capacity of UE characterizes traffic handing capacity of the UE in high frequency mode, the information of the high frequency resources is used to indicate the business that the UE transmits the UE on the high frequency resources.Pass through this method, high frequency base station can receive the high frequency traffic handing capacity of UE, and by the high frequency traffic handing capacity according to the UE, distribute suitable high frequency resources for the UE, so that UE transmits the business of the UE on the high frequency resources, so as to avoid prior art business biography There is the phenomenon that loss of data during defeated, and then improves the reliability of business transmission.

Further, in second of possible application scenarios, there are two types of possible implementations for tool.

Specifically, in the first possible implementation in second of possible application scenarios, when UE request high frequency base station is that the UE dispatches high frequency resources, UE is directly interacted with high frequency base station by the radio frequency system of the UE, as shown in figure 8, this method may include:

S501, UE judge whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the UE.

In embodiments of the present invention, a high-frequency transmission requirement can be preset in UE.When the UE requests transmission services, after which obtains the business demand information of the UE from network side, which judges whether the business of the UE meets pre-set high-frequency transmission requirement in the UE according to the business demand information of the UE.

Wherein, the content that pre-set high-frequency transmission requires in the UE is identical as the content that high-frequency transmission preset in embodiment medium-high frequency base station as shown in Figure 4 requires, and for details, reference can be made to the associated descriptions in embodiment as shown in Figure 4, and details are not described herein again.

Specifically, UE judges whether the business of the UE meets the method for high-frequency transmission requirement according to the business demand information of the UE, with embodiment medium-high frequency base station as shown in Figure 4 according to the business demand information of the UE judge the UE business whether meet high-frequency transmission requirement mode it is identical, for details, reference can be made to the associated descriptions in embodiment as shown in Figure 4, and details are not described herein again.

If the business of S502, the UE meet high-frequency transmission requirement, which sends the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request to high frequency base station.

Specifically, the UE generates high frequency request when the business of the UE meets high-frequency transmission requirement, high frequency request is UE distribution high frequency resources for requesting high frequency base station.The business demand information of the UE and the high frequency traffic handing capacity of the UE distribute high frequency resources for high frequency base station for the UE.

After S503, high frequency base station receive the business demand letter, the high frequency traffic handing capacity of the UE and high frequency request of the UE of UE transmission, is requested according to the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency, distribute high frequency resources for the UE.

It should be noted that since high frequency base station can be to open high frequency in its coverage area The UE of system provides service, therefore, when high frequency base station receives the high frequency request of UE transmission, after determining the UE request scheduling high frequency resources, high frequency base station need to further determine that whether the UE is the UE that radio frequency system is opened in the high frequency base station range, i.e. high frequency base station need to further determine whether that service can be provided for the UE.After high frequency base station is determined to provide service for the UE, high frequency base station is requested according to the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency, distributes high frequency resources for the UE.

Specifically, in the first possible implementation in second of possible application scenarios, if high frequency base station can receive the business demand information of the UE, the high frequency traffic handing capacity of the UE and the high frequency request of UE transmission, high frequency base station can be determined to provide service for the UE.

S504, high frequency base station send the information of the high frequency resources to UE.

Specifically, the information of the high frequency resources can be sent to the UE by high frequency base station, and the business of the UE is transmitted to indicate UE on the high frequency resources after it is that the UE distributes suitable high frequency resources that high frequency base station is according to the high frequency traffic handing capacity of the UE.

S505, UE transmit the business of the UE on the high frequency resources.

Specifically, UE transmits the business of the UE by the radio frequency system of the UE on the high frequency resources after UE receives the information of high frequency resources.

Optionally, in conjunction with Fig. 8, as shown in figure 9, before above-mentioned S501, resource regulating method provided in an embodiment of the present invention further include:

S506, UE receive the minimum service configuration information of high frequency base station broadcast, and the minimum service configuration information is for characterizing requirement of the base station in high frequency mode to the high frequency traffic handing capacity of UE.

Wherein, the high frequency base station that base station works under high frequency mode in high frequency mode, the minimum service configuration information is for characterizing requirement of the base station in high frequency mode to the high frequency traffic handing capacity of UE, it can is interpreted as the minimum service configuration information for characterizing requirement of the high frequency base station to the high frequency traffic handing capacity of UE.

Further, as shown in figure 9, above-mentioned S502 is specifically included:

If the business of S502a, the UE meet high-frequency transmission requirement, which judges whether the high frequency traffic handing capacity of the UE meets the minimum service configuration information.

If the high frequency traffic handing capacity of S502b, the UE meet the minimum service configuration information, which sends the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request to high frequency base station.

Specifically, when UE according to the business demand information of the UE determine the UE business meet high-frequency transmission require after, which can further judge whether the high frequency traffic handing capacity of the UE meets the minimum service configuration information.

Illustratively, it is assumed that the received minimum service configuration information of the UE is the minimum transmission rate that high frequency base station allows, and the high frequency traffic handing capacity of the UE is the peak transfer rate that the UE is supported.The minimum transmission rate that the UE compares the peak transfer rate of UE support and high frequency base station allows.

If UE judges that the peak transfer rate that the UE is supported is more than or equal to the minimum transmission rate that high frequency base station allows, that is the UE judges that the high frequency traffic handing capacity of the UE meets the minimum service configuration information, then the UE generates high frequency request, and the business demand information of the UE is sent to high frequency base station by the radio frequency system of the UE, the high frequency traffic handing capacity and the high frequency of the UE is requested, so that high frequency base station can be according to the business demand information of the UE, the high frequency traffic handing capacity and the high frequency of the UE is requested, suitable high frequency resources are distributed for the UE, so that the UE can transmit the business of the UE on the high frequency resources.

If the UE judges that the peak transfer rate that the UE is supported is less than the minimum transmission rate that high frequency base station allows, that is the UE judges that the high frequency traffic handing capacity of the UE is unsatisfactory for the minimum service configuration information, then the UE sends the business demand information of the UE by the low frequency system of the UE to low frequency base station, so that business demand information of the low frequency base station according to the UE, low-frequency resources are distributed for the UE, so that the UE can transmit the business of the UE in the low-frequency resources.

Resource regulating method provided in an embodiment of the present invention, the minimum service configuration information that UE passes through reception high frequency base station broadcast, so that UE further judges whether the high frequency traffic handing capacity of the UE meets the minimum service configuration information after the business for judging the UE meets high-frequency transmission requirement.If the high frequency traffic handing capacity of the UE meets the minimum service configuration information, then the UE generates high frequency request, and the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency are sent to high frequency base station by the radio frequency system of the UE and requested, to request height Frequency base station, needing the high frequency traffic handing capacity of information and the UE according to the business of the UE is that the UE distributes suitable high frequency resources.If the high frequency traffic handing capacity of the UE is unsatisfactory for the minimum service configuration information, then the UE sends the business demand information of the UE by the low frequency system of the UE to low frequency base station, to request low frequency base station to distribute suitable low-frequency resources according to the business demand information of the UE for the UE.In this way, making the UE before the high frequency traffic handing capacity for the business demand information, the UE for sending the UE to high frequency base station and high frequency request, judge whether the high frequency traffic handing capacity of the UE meets the minimum service configuration information.When the UE judges that the high frequency traffic handing capacity of the UE meets the minimum service configuration information, the UE can determine that the high frequency sent to high frequency base station request can be by high frequency base station in response, at this time, the UE just generates high frequency request, and the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request are sent to high frequency base station, to improve the probability that the high frequency of high frequency base station in response UE transmission is requested, avoid high frequency base station be not responding to the UE transmission high frequency request when, the UE generate the high frequency request bring energy loss the problem of.

Further, in the first possible implementation in second of possible application scenarios, above-mentioned S503 can also be realized using the implementation of S305 in embodiment as shown in Figure 5, can also be realized using the implementation of S305 in implementation as shown in FIG. 6.Specifically, the difference of above-mentioned S503 and S305 in embodiment as shown in Figure 5, and the difference from S305 in embodiment as shown in FIG. 6 is, in the first possible implementation in second of possible application scenarios, when high frequency base station is that UE distributes high frequency resources, also need to be requested according to high frequency to be that the UE distributes high frequency resources.

The embodiment of the present invention provides a kind of resource regulating method, specifically include the business demand information that high frequency base station receives the UE that UE is sent, the high frequency traffic handing capacity and the high frequency of the UE is requested, and according to the business demand information of the UE, the high frequency traffic handing capacity and the high frequency of the UE is requested, high frequency resources are distributed for the UE, and the information of the high frequency resources is sent to the UE, wherein, the high frequency traffic handing capacity of the UE characterizes traffic handing capacity of the UE in high frequency mode, the information of the high frequency resources is used to indicate the business that the UE transmits the UE on the high frequency resources.In this way, base station can receive the business demand information of the UE, the high frequency traffic handing capacity of the UE and the high frequency request of UE transmission, and according to this The business demand information of UE, the high frequency traffic handing capacity of the UE and high frequency request, suitable high frequency resources are distributed for the UE, so that UE transmits the business of the UE on the high frequency resources, so as to avoid there is the phenomenon that loss of data in prior art business transmission process, and then improve the reliability of business transmission.

Further, in second of possible implementation in second of possible application scenarios, UE is interacted by the low frequency system of the UE with low frequency base station, and is interacted by low frequency base station and high frequency base station.

Specifically, as shown in Figure 10, this method may include: in second of possible implementation in second of possible application scenarios

S601, UE judge whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the UE.

Specifically, the implementation of above-mentioned S601 is identical as the implementation of above-mentioned S501, for details, reference can be made to the associated descriptions in above-mentioned S501, and details are not described herein again.

If the business of S602, the UE meet high-frequency transmission requirement, which sends the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request to low frequency base station.

Specifically, the UE generates high frequency request when the business of the UE meets high-frequency transmission requirement, height request is UE distribution high frequency resources for requesting high frequency base station.

It should be noted that, when the business of the UE, which meets high-frequency transmission, to be required, if the radio frequency system of the UE is in close state, UE need to open the radio frequency system of the UE, to guarantee that the UE can transmit the business of the UE on the high frequency resources after high frequency base station is that the UE distributes high frequency resources.

S603, low frequency base station send the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request to high frequency base station.

Specifically, after low frequency base station receives the high frequency request of UE transmission, it is requested to determine the UE request scheduling high frequency resources according to high frequency in low frequency base station, to which low frequency base station is requested according to the high frequency, the request of the business demand information of the UE, the high frequency traffic handing capacity of the UE and the high frequency is sent to high frequency base station, to indicate that high frequency base station is that the UE distributes high frequency resources.

It should be noted that in the network architecture of low-and high-frequency networking, high frequency base station and the work of low frequency base station collaboration, high frequency base station be served only for be when the business of UE meets high-frequency transmission and requires The UE dispatches high frequency resources, since the power consumption of high frequency base station is bigger, the power consumption of low frequency base station is smaller, therefore, in order to save power consumption, high frequency base station can in working condition, (i.e. high frequency can receive the data of UE transmission with certain period, and handle the state of the data) and dormant state (i.e. high frequency base station can receive low frequency base station transmission data, and handle the data, but the state of the data of UE transmission cannot be received) between switch, and low frequency base station is then constantly in working condition.

When high frequency base station is in running order, high frequency base station being capable of normal sending and receiving data；When high frequency base station in a dormant state when, high frequency base station can not normal sending and receiving data, but low frequency base station being capable of normal sending and receiving data.

Therefore, when high frequency base station in a dormant state when, UE can request the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency to send tremendously low frequency base station by the low frequency system of the UE, low frequency base station is requested according to the high frequency, and the request of the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency is sent to high frequency base station.

Or, in embodiments of the present invention, in order to ensure high frequency base station can receive the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request, no matter high frequency base station is in working condition in a dormant state, the UE can send the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency to low frequency base station by the low frequency system of the UE and request, so that low frequency base station requests the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request being sent to high frequency base station according to the high frequency.

S604, high frequency base station are requested according to the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency, distribute high frequency resources for the UE.

Specifically, after the business demand information of the UE, the high frequency traffic handing capacity of the UE and the high frequency that high frequency base station receives the transmission of low frequency base station are requested, request determination that need to distribute high frequency resources for the UE according to the high frequency, and then high frequency base station is that the UE distributes high frequency resources according to the business demand information of the UE and the high frequency traffic handing capacity of the UE.

It should be noted that, since high frequency base station can provide service to open the UE of radio frequency system in its coverage area, therefore, when high frequency base station receives the business demand information of the UE, the high frequency traffic handing capacity of the UE and the high frequency request of low frequency base station transmission, after determining the UE request scheduling high frequency resources, need to further determine that whether the UE is the high frequency base station The UE of radio frequency system is opened in coverage area, i.e. high frequency base station need to further determine whether that service can be provided for the UE.After high frequency base station is determined to provide service for the UE, high frequency base station is requested according to the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency, distributes high frequency resources for the UE.

Specifically, high frequency base station can periodically send sequence information in its coverage area, sequence information can also be sent in its coverage area when the high frequency traffic handing capacity and the high frequency of the UE are requested in the business demand information for the UE for receiving the transmission of low frequency base station.After the UE (hereinafter referred to as the first UE) for opening radio frequency system in high frequency base station range receives the sequence information of high frequency base station transmission, the mark of the sequence information and the first UE is sent to high frequency base station by the first UE, i.e. high frequency base station scans to the first UE, the first UE be opened in high frequency base station range radio frequency system UE (including send business demand information UE and without transmission business demand UE).

Further, after high frequency base station has determined a UE, high frequency base station compares the mark for the UE that low frequency base station is sent and the mark of its first UE scanned, wherein the mark of the UE carries in the business demand information of the UE.If high frequency base station determines that the mark of the UE is identical with the mark of some the first UE, high frequency base station is determined to provide service for the UE, to which high frequency base station is requested according to the business demand information of the UE, the high frequency traffic handing capacity of the UE and the high frequency, distributes suitable high frequency resources for the UE.

It should be noted that the mark of the UE can be the IMSI of the UE, or any other one kind such as GUTI of the UE can uniquely indicate the mark of the UE identity, and the present invention is with no restriction.

The mark of above-mentioned first UE can be the IMSI of the first UE, or any other one kind such as GUTI of the first UE can uniquely indicate the mark of the 2nd UE identity, and the present invention is with no restriction.

It is understood that the mark of the UE and the same class that is identified as of the first UE identify.That is when the IMSI for being identified as the UE of the UE, the IMSI for being identified as the first UE of the first UE；When the GUTI for being identified as the UE of the UE, the GUTI for being identified as the first UE of the first UE.

Further, above-mentioned S604 medium-high frequency base station is requested according to the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency, and the side of high frequency resources is distributed for the UE Formula and above-mentioned S503 medium-high frequency base station are requested according to the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency, and the mode for distributing high frequency resources for the UE is identical, and for details, reference can be made to the associated descriptions in above-mentioned S503, and details are not described herein again.

S605, high frequency base station send the information of the high frequency resources to low frequency base station.

Specifically, after it is that the UE distributes suitable high frequency resources that high frequency base station is according to the high frequency traffic handing capacity of the UE, the information of the high frequency resources can be sent tremendously low frequency base station by high frequency base station, to which the information of the high frequency resources is sent to the UE by low frequency base station, the business of the UE is transmitted to indicate UE on the high frequency resources.

After S606, low frequency base station receive the information of the high frequency resources, the information of the high frequency resources is sent to the UE.

S607, UE transmit the business of the UE on the high frequency resources.

Specifically, UE transmits the business of UE by the radio frequency system of the UE on the high frequency resources after UE receives the information of high frequency resources.

Optionally, in conjunction with Figure 10, as shown in figure 11, before above-mentioned S601, resource regulating method provided in an embodiment of the present invention further include:

S608, UE receive the minimum service configuration information of high frequency base station broadcast, and the minimum service configuration information is for characterizing requirement of the base station in high frequency mode to the high frequency traffic handing capacity of UE.

Specifically, the implementation of above-mentioned S608 is identical as the implementation of S506 in embodiment as shown in Figure 9, for details, reference can be made to the associated descriptions in embodiment as shown in Figure 9, and details are not described herein again.

It should be noted that the radio frequency system of UE is in the open state in above-mentioned S608, so that UE can receive the minimum service configuration information of high frequency base station broadcast.

Further, as shown in figure 11, above-mentioned S602 is specifically included:

If the business of S602a, the UE meet high-frequency transmission requirement, which judges whether the high frequency traffic handing capacity of the UE meets the minimum service configuration information.

If the high frequency traffic handing capacity of S602b, the UE meet the minimum service configuration information, which sends the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request to high frequency base station.

Specifically, the implementation of above-mentioned S602a is identical with the implementation of S502a in embodiment as shown in Figure 9, the implementation of above-mentioned S602b is identical with the implementation of S502b in embodiment as shown in Figure 9, and for details, reference can be made to the associated descriptions in embodiment as shown in Figure 9, and details are not described herein again.

The embodiment of the present invention provides a kind of resource regulating method, it specifically includes base station and receives the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request that UE is sent, and it is requested according to the business demand information of the UE, the high frequency traffic handing capacity of the UE and the high frequency, high frequency resources are distributed for the UE, and the information of the high frequency resources is sent to the UE, wherein, the high frequency traffic handing capacity of the UE characterizes traffic handing capacity of the UE in high frequency mode, and the information of the high frequency resources is used to indicate the business that the UE transmits the UE on the high frequency resources.Pass through this method, base station can receive the business demand information of the UE, the high frequency traffic handing capacity of the UE and the high frequency request of UE transmission, and it is requested according to the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency, suitable high frequency resources are distributed for the UE, so that UE transmits the business of the UE on the high frequency resources, so as to avoid there is the phenomenon that loss of data in prior art business transmission process, and then improve the reliability of business transmission.

Embodiment three

As shown in figure 12, the embodiment of the present invention provides a kind of UE, and when UE operation, the UE can execute any set method flow as described in Fig. 2 or Fig. 4 to Figure 11, specifically, the UE may include:

Transmission unit 10, for sending the high frequency traffic handing capacity of the UE to base station, the high frequency traffic handing capacity of the UE is that the UE distributes high frequency resources for the base station, and the high frequency traffic handing capacity of the UE characterizes traffic handing capacity of the UE in high frequency mode.

Receiving unit 11, for receiving the information for the high frequency resources that the base station is sent, the information of the high frequency resources transmits the business of the UE for the UE on the high frequency resources.

Optionally, the high frequency traffic handing capacity for the UE that the transmission unit 11 is sent includes: the maximum processing band that maximum resource block size, the UE of the UE support are supported At least one of in the maximum modulation coding mode that the peak transfer rate and the UE that wide, the described UE is supported are supported.

Optionally, the transmission unit 10, is also used to send the business demand information of the UE to the base station, and the business demand information of the UE judges whether the business of the UE meets high-frequency transmission requirement for the base station.

The receiving unit 11 is also used to receive the high frequency instruction information that the base station is sent when the base station judges that the business of the UE meets the high-frequency transmission and requires.

Optionally, the received high frequency instruction information of the receiving unit 11 is used to indicate the high frequency traffic handing capacity that the transmission unit 10 sends the UE to the base station.

Optionally, running time-frequency resource information is carried in the received high frequency instruction information of the receiving unit 11, the transmission unit 10 sends the high frequency traffic handing capacity of the UE on the running time-frequency resource that the running time-frequency resource information indicates to the base station.

Optionally, in conjunction with Figure 12, as shown in figure 13, the UE further includes judging unit 12.

The judging unit 12 before the high frequency traffic handing capacity for sending the UE to base station for the transmission unit 10, judges whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the UE.

The transmission unit 10, when specifically for judging that the business of the UE meets high-frequency transmission requirement when the judging unit 12, the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request are sent to the base station, the high frequency request is that the UE distributes high frequency resources for requesting the base station, and the business demand information of the UE is that the UE distributes the high frequency resources for the base station.

Optionally, the receiving unit 11, be also used to the judging unit 12 according to the business demand information of the UE judge the UE business whether meet high-frequency transmission require before, the minimum service configuration information of the base station broadcast is received, the minimum service configuration information is for characterizing requirement of the base station in the high frequency mode to the high frequency traffic handing capacity of the UE.

Optionally, the judging unit 12 judges whether the high frequency traffic handing capacity of the UE meets the minimum service configuration information if the business for being also used to the UE meets the high-frequency transmission requirement.

The transmission unit 10, if judging that the high frequency traffic handing capacity of the UE meets the minimum service configuration information specifically for the judging unit 12, the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request are sent to the base station.

It should be noted that in embodiments of the present invention, base station may include high frequency base station and low frequency base station.Specifically, for the specific interactive process between UE and base station (including high frequency base station and low frequency base station), may refer to such as the associated description in embodiment one and embodiment two, details are not described herein again.

The embodiment of the present invention provides a kind of UE, the UE can send the high frequency traffic handing capacity of UE to base station, and receive the information of the high frequency resources of base station transmission, wherein, the high frequency traffic handing capacity of UE is that UE distributes high frequency resources for base station, traffic handing capacity of the high frequency traffic handing capacity characterization UE of UE in high frequency mode, the information of high frequency resources are used to indicate the business that UE transmits the UE on the high frequency resources.The embodiment of the present invention provides a kind of UE, the high frequency traffic handing capacity of UE can be sent to base station, base station is enabled to distribute suitable high frequency resources according to the high frequency traffic handing capacity of UE for UE, so that UE transmits the business of the UE on the high frequency resources, so as to avoid there is the phenomenon that loss of data in prior art business transmission process, and then improve the reliability of business transmission.

As shown in figure 14, the embodiment of the present invention provides a kind of base station, and when base station operation, the base station can execute any set method flow as described in Fig. 3 to Figure 11, specifically, the base station includes:

Receiving unit 20, the high frequency traffic handing capacity of the UE for receiving user equipment (UE) transmission, the high frequency traffic handing capacity of the UE characterize traffic handing capacity of the UE in high frequency mode.

Allocation unit 21 distributes high frequency resources for the high frequency traffic handing capacity according to the received UE of the receiving unit 20 for the UE, the high frequency resources are used for transmission the business of the UE.

Transmission unit 22, for sending the information for the high frequency resources that the allocation unit 21 is distributed to the UE, the information of the high frequency resources transmits the business of the UE for the UE on high frequency resources.

Optionally, the high frequency traffic handing capacity of the received UE of the receiving unit 20 It include: at least one in the maximum modulation coding mode of maximum resource block size, the maximum processing bandwidth of UE support, the peak transfer rate of UE support and UE support that the UE is supported.

Optionally, in conjunction with Figure 14, as shown in figure 15, the base station further includes judging unit 23,

The receiving unit 20 is also used to receive the business demand information that the UE is sent.

The judging unit 23, for judging whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the received UE of the receiving unit 20.

The transmission unit 22, if being also used to the judging unit 23 judges that the business of the UE meets the high-frequency transmission requirement, high frequency then, which is sent, to the UE indicates that information, the high frequency instruction information are used to indicate the high frequency traffic handing capacity that the UE sends the UE to the base station.

Optionally, in conjunction with Figure 15, as shown in figure 16, the allocation unit 21 specifically includes judgment module 210 and distribution module 211,

The judgment module 210, for judging whether the high frequency traffic handing capacity of the UE meets minimum service configuration information, the minimum service configuration information is for characterizing requirement of the base station in the high frequency mode to the high frequency traffic handing capacity of the UE.

The distribution module 211, according to the high frequency traffic handing capacity of the UE, distributes the high frequency resources if judging that the high frequency traffic handing capacity of the UE meets the minimum service configuration information for the judgment module 210 for the UE.

Optionally, running time-frequency resource information is carried in the high frequency instruction information that the transmission unit 22 is sent, the UE sends the high frequency traffic handing capacity of the UE on the running time-frequency resource that the running time-frequency resource information indicates to base station.

Optionally, the allocation unit 21, specifically for distributing the high frequency resources for the UE according to the business demand information of the received UE of the receiving unit 20 and the high frequency traffic handing capacity of the UE.

Optionally, in conjunction with Figure 16, as shown in figure 17, the quantity of the UE be it is multiple, the allocation unit 21 further includes determining module 212.

The determining module 212, for the business demand information according to multiple UE, Huo Zhesuo The business demand information of multiple UE and the high frequency traffic handing capacity of the multiple UE are stated, determines the dispatching priority of the multiple UE.

The distribution module 211, dispatching priority specifically for the multiple UE determined according to the business demand information of the multiple UE, the high frequency traffic handing capacity of the multiple UE and the determining module 212, respectively the multiple UE distribute the high frequency resources.

Optionally, the business demand information of the received UE of the receiving unit 20 includes at least: the delay requirement of the data volume of the business of the UE and the business of the UE.

It should be noted that in embodiments of the present invention, base station may include high frequency base station and low frequency base station.Specifically, for the specific interactive process between UE and base station (including high frequency base station and low frequency base station), may refer to such as the associated description in embodiment one and embodiment two, details are not described herein again.

The embodiment of the present invention provides a kind of base station, the base station can receive the high frequency traffic handing capacity of the UE of UE transmission, and according to the high frequency traffic handing capacity of the UE, high frequency resources are distributed for the UE, and the source information that the high frequency provides is sent to the UE, wherein, the high frequency traffic handing capacity of UE characterizes traffic handing capacity of the UE in high frequency mode, and the information of the high frequency resources is used to indicate the business that the UE transmits the UE on high frequency resources.A kind of base station is provided through the embodiment of the present invention, the high frequency traffic handing capacity of the UE of UE transmission can be received, and according to the high frequency traffic handing capacity of the UE, suitable high frequency resources are distributed for the UE, so that UE transmits the business of the UE on the high frequency resources, so as to avoid there is the phenomenon that loss of data in prior art business transmission process, and then improve the reliability of business transmission.

Example IV

As shown in figure 18, the embodiment of the present invention provides a kind of UE, and the UE may include: processor 30, transmitter 31, receiver 32, memory 33 and system bus 34.It is connected between the processor 30, transmitter 31, receiver 32 and memory 33 by the system bus 34 and completes mutual communication.

The processor 30 can be a central processing unit (English: central processing unit, abbreviation: CPU), either specific integrated circuit (English: application specific integrated circuit, abbreviation: ASIC), or It is arranged to implement one or more integrated circuits of the embodiment of the present invention.

The memory 33 may include volatile memory (English: volatile memory), such as random access memory (English: random-access memory, abbreviation: RAM)；The memory 33 also may include nonvolatile memory (English: non-volatile memory), such as read-only memory (English: read-only memory, abbreviation: ROM), flash memory (English: flash memory), hard disk (English: hard disk drive, abbreviation: HDD) or solid state hard disk (English: solid-state drive, abbreviation: SSD)；The memory 33 can also include the combination of the memory of mentioned kind.

When UE operation, processor 30, transmitter 31, receiver 32 and memory 33 can execute Fig. 2 or Fig. 4 to any set method flow described in Figure 11, specifically include:

The transmitter 31, for sending the high frequency traffic handing capacity of the UE to base station, the high frequency traffic handing capacity of the UE is that the UE distributes high frequency resources for the base station, and the high frequency traffic handing capacity of the UE characterizes traffic handing capacity of the UE in high frequency mode；The receiver 32, for receiving the information for the high frequency resources that the base station is sent, the information of the high frequency resources transmits the business of the UE for the UE on the high frequency resources；The memory 33, for storing the code of the code of the high frequency traffic handing capacity of the UE, the information of the high frequency resources, and the control processor 30 completes the software program of the above process, to which the processor 30 is by the code of the code of high frequency traffic handing capacity for executing the software program and calling the UE and the information of the high frequency resources, the above process is completed.

It should be noted that the operation that operation and above-mentioned transmitter 31 that above-mentioned receiver 32 executes execute, is completed under the control of processor 30.

Optionally, the high frequency traffic handing capacity of the UE of the transmission of transmitter 31 includes: at least one in the maximum modulation coding mode of maximum resource block size, the maximum processing bandwidth of UE support, the peak transfer rate of UE support and UE support that the UE is supported.

Optionally, the transmitter 31, is also used to send the business demand information of the UE to the base station, and the business demand information of the UE judges the UE's for the base station Whether business meets high-frequency transmission requirement.

The receiver 32 is also used to receive the high frequency instruction information that the base station is sent when the base station judges that the business of the UE meets the high-frequency transmission and requires.

Optionally, the received high frequency instruction information of the receiver 32 is used to indicate the high frequency traffic handing capacity that the transmitter sends the UE to the base station.

Optionally, running time-frequency resource information is carried in the received high frequency instruction information of the receiver 32, the transmitter 31 sends the high frequency traffic handing capacity of the UE on the running time-frequency resource that the running time-frequency resource information indicates to the base station.

Optionally, the processor 30 is also used to before the high frequency traffic handing capacity that the transmitter 31 sends the UE to base station, judges whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the UE.

The transmitter 31, when specifically for judging that the business of the UE meets high-frequency transmission requirement when the processor 30, the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request are sent to the base station, the high frequency request is that the UE distributes high frequency resources for requesting the base station, and the business demand information of the UE is that the UE distributes the high frequency resources for the base station.

Optionally, the receiver 32, be also used to the processor 30 according to the business demand information of the UE judge the UE business whether meet high-frequency transmission require before, the minimum service configuration information of the base station broadcast is received, the minimum service configuration information is for characterizing requirement of the base station in the high frequency mode to the high frequency traffic handing capacity of the UE.

Optionally, the processor 30 judges whether the high frequency traffic handing capacity of the UE meets the minimum service configuration information if being also used to meet for the business of the UE high-frequency transmission requirement.

The transmitter 31, if judging that the high frequency traffic handing capacity of the UE meets the minimum service configuration information specifically for the processor 30, the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request are sent to the base station.

It should be noted that in embodiments of the present invention, base station may include high frequency base station and low frequency base station.Specifically, for UE and base station (including high frequency base station and low frequency base station) it Between specific interactive process, may refer to such as the associated description in embodiment one and embodiment two, details are not described herein again.

The embodiment of the present invention provides a kind of UE, the UE can send the high frequency traffic handing capacity of UE to base station, and receive the information of the high frequency resources of base station transmission, wherein, the high frequency traffic handing capacity of UE is that UE distributes high frequency resources for base station, traffic handing capacity of the high frequency traffic handing capacity characterization UE of UE in high frequency mode, the information of high frequency resources are used to indicate the business that UE transmits the UE on the high frequency resources.The embodiment of the present invention provides a kind of UE, the high frequency traffic handing capacity of UE can be sent to base station, base station is enabled to distribute suitable high frequency resources according to the high frequency traffic handing capacity of UE for UE, so that UE transmits the business of the UE on the high frequency resources, so as to avoid there is the phenomenon that loss of data in prior art business transmission process, and then improve the reliability of business transmission.

Such as Figure 19, the embodiment of the present invention provides a kind of base station, which may include: processor 40, transmitter 41, receiver 42, memory 43 and system bus 44.It is connected between the processor 40, transmitter 41, receiver 42 and memory 43 by the system bus 44 and completes mutual communication.

The processor 40 can be a CPU or ASIC, or be arranged to implement one or more integrated circuits of the embodiment of the present invention.

The memory 43 may include volatile memory, such as RAM；The memory 43 also may include nonvolatile memory, such as ROM, flash memory, HDD or SSD；The memory 43 can also include the combination of the memory of mentioned kind.

When base station operation, processor 40, transmitter 41, receiver 42 and memory 43 can execute any set method flow described in Fig. 3 to Figure 11, specifically include:

The receiver 42, the high frequency traffic handing capacity of the UE for receiving user equipment (UE) transmission, the high frequency traffic handing capacity of the UE characterize traffic handing capacity of the UE in high frequency mode；The processor 40 distributes high frequency resources for the high frequency traffic handing capacity according to the received UE of the receiver 42 for the UE, the high frequency resources are used for transmission the business of the UE；The transmitter 41, for sending the information for the high frequency resources that the processor 40 distributes to the UE, the information of the high frequency resources transmits the business of the UE for the UE on the high frequency resources；The memory 43, For storing the code of the information of the code of the high frequency traffic handing capacity of the UE, the code of the high frequency resources, the high frequency resources, and the control processor 40 completes the software program of the above process, to which the processor 40 is by the code of the information of the code of high frequency traffic handing capacity, the code of the high frequency resources and the high frequency resources that execute the software program and call the UE, the above process is completed.

Optionally, the high frequency traffic handing capacity of the received UE of receiver 42 includes: at least one in the maximum modulation coding mode of maximum resource block size, the maximum processing bandwidth of UE support, the peak transfer rate of UE support and UE support that the UE is supported.

Optionally, the receiver 42 is also used to receive the business demand information that the UE is sent.

The processor 40, is also used to judge according to the business demand information of the received UE of the receiver 42 whether the business of the UE meets high-frequency transmission requirement.

The transmitter 41, if being also used to the processor 40 judges that the business of the UE meets the high-frequency transmission requirement, high frequency then, which is sent, to the UE indicates that information, the high frequency instruction information are used to indicate the high frequency traffic handing capacity that the UE sends the UE to the base station.

Optionally, the processor 40, specifically for judging whether the high frequency traffic handing capacity of the UE meets minimum service configuration information, the minimum service configuration information is for characterizing requirement of the base station in the high frequency mode to the high frequency traffic handing capacity of the UE.

The processor 40, according to the high frequency traffic handing capacity of the UE, distributes the high frequency resources if the high frequency traffic handing capacity specifically for the UE meets the minimum service configuration information for the UE.

Optionally, running time-frequency resource information is carried in the high frequency instruction information that the transmitter 41 is sent, the UE sends the high frequency traffic handing capacity of the UE on the running time-frequency resource that the running time-frequency resource information indicates to base station.

Optionally, the processor 40, specifically for being the UE according to the business demand information of the received UE of the receiver 42 and the high frequency traffic handing capacity of the UE Distribute the high frequency resources.

Optionally, the quantity of the UE is multiple, the processor 40, is also used to the high frequency traffic handing capacity according to the business demand information of multiple UE or the business demand information of the multiple UE and the multiple UE, determines the dispatching priority of the multiple UE.

The processor 40, specifically for the dispatching priority according to the business demand information of the multiple UE, the high frequency traffic handing capacity of the multiple UE and the multiple UE, respectively the multiple UE distributes the high frequency resources.

Optionally, the business demand information of the received UE of the receiver 42 includes at least: the delay requirement of the data volume of the business of the UE and the business of the UE.

It should be noted that in embodiments of the present invention, base station may include high frequency base station and low frequency base station.Specifically, for the specific interactive process between UE and base station (including high frequency base station and low frequency base station), reference can be made to details are not described herein again such as the associated description in embodiment one and embodiment two.

The embodiment of the present invention provides a kind of base station, the base station can receive the high frequency traffic handing capacity of the UE of UE transmission, and according to the high frequency traffic handing capacity of the UE, high frequency resources are distributed for the UE, and the source information that the high frequency provides is sent to the UE, wherein, the high frequency traffic handing capacity of UE characterizes traffic handing capacity of the UE in high frequency mode, and the information of the high frequency resources is used to indicate the business that the UE transmits the UE on high frequency resources.A kind of base station is provided through the embodiment of the present invention, the high frequency traffic handing capacity of the UE of UE transmission can be received, and according to the high frequency traffic handing capacity of the UE, suitable high frequency resources are distributed for the UE, so that UE transmits the business of the UE on the high frequency resources, so as to avoid there is the phenomenon that loss of data in prior art business transmission process, and then improve the reliability of business transmission.

Embodiment five

It as shown in figure 20, is a kind of communication system provided in an embodiment of the present invention, which may include base station described in UE described in above-described embodiment three and above-described embodiment three；Alternatively, the communication system may include base station described in UE described in above-described embodiment four and above-described embodiment four.

In communication system provided in an embodiment of the present invention, UE can send UE's to base station High frequency traffic handing capacity, and receive the information of the high frequency resources of base station transmission；Base station can receive the high frequency traffic handing capacity of the UE of UE transmission, and according to the high frequency traffic handing capacity of the UE, distribute high frequency resources for the UE, and the information of the high frequency resources is sent to the UE.Wherein, the high frequency traffic handing capacity of UE characterizes traffic handing capacity of the UE in high frequency mode, and the information of the high frequency resources is used to indicate the business that the UE transmits the UE on the high frequency resources.

It should be noted that base station may include high frequency base station and low frequency base station in communication system provided in an embodiment of the present invention.Specifically, for the specific interactive process between UE and base station (including high frequency base station and low frequency base station), reference can be made to details are not described herein again such as the associated description in embodiment one and embodiment two.

A kind of communication system provided in an embodiment of the present invention, UE can pass through the high frequency traffic handing capacity to base station transmission UE, so that base station receive UE transmission the UE high frequency traffic handing capacity after, it can be that UE distributes suitable high frequency resources according to the high frequency traffic handing capacity of UE, and the information of the high frequency resources is sent to UE, so that after UE receives the information of the high frequency resources, the UE can transmit the business of the UE on the high frequency resources, so as to avoid there is the phenomenon that loss of data in prior art business transmission process, and then improve the reliability of business transmission.

It is apparent to those skilled in the art that, for convenience and simplicity of description, only the example of the division of the above functional modules, in practical application, it can according to need and be completed by different functional modules above-mentioned function distribution, the internal structure of device is divided into different functional modules, to complete all or part of the functions described above.The specific work process of the system, apparatus, and unit of foregoing description, can refer to corresponding processes in the foregoing method embodiment, and details are not described herein.

In several embodiments provided herein, it should be understood that disclosed system, device and method may be implemented in other ways.Such as, the apparatus embodiments described above are merely exemplary, such as, the division of the module or unit, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, shown or discussed mutual coupling or direct coupling It closes or communication connection can be through some interfaces, the indirect coupling or communication connection of device or unit, can be electrical property, mechanical or other forms.

The unit as illustrated by the separation member may or may not be physically separated, and component shown as a unit may or may not be physical unit, it can and it is in one place, or may be distributed over multiple network units.It can some or all of the units may be selected to achieve the purpose of the solution of this embodiment according to the actual needs.

In addition, the functional units in various embodiments of the present invention may be integrated into one processing unit, it is also possible to each unit and physically exists alone, can also be integrated in one unit with two or more units.Above-mentioned integrated unit both can take the form of hardware realization, can also realize in the form of software functional units.

If the integrated unit is realized in the form of SFU software functional unit and when sold or used as an independent product, can store in a computer readable storage medium.Based on this understanding, substantially all or part of the part that contributes to existing technology or the technical solution can be embodied in the form of software products technical solution of the present invention in other words, the computer software product is stored in a storage medium, it uses including some instructions so that a computer equipment (can be personal computer, server or the network equipment etc.) or processor perform all or part of the steps of the method described in the various embodiments of the present invention.And storage medium above-mentioned includes: the various media that can store program code such as USB flash disk, mobile hard disk, ROM, RAM, magnetic or disk.

It is described above; only a specific embodiment of the invention, but scope of protection of the present invention is not limited thereto, and anyone skilled in the art is in the technical scope disclosed by the present invention; it can easily think of the change or the replacement, should be covered by the protection scope of the present invention.Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (49)

1. A kind of resource regulating method characterized by comprising

   User equipment (UE) sends the high frequency traffic handing capacity of the UE to base station, in order to which the base station is that the UE distributes high frequency resources according to the high frequency traffic handing capacity of the UE；And

   The UE receives the information for the high frequency resources that the base station is sent, and the information of the high frequency resources is used to indicate the business that the UE transmits the UE on the high frequency resources.
2. The method according to claim 1, wherein

   The high frequency traffic handing capacity of the UE includes:

   At least one of in the maximum modulation coding mode of maximum resource block size, the maximum processing bandwidth that the UE is supported, the peak transfer rate of UE support and UE support that the UE is supported.
3. Method according to claim 1 or 2, which is characterized in that the method also includes:

   The UE sends the business demand information of the UE to the base station, and the business demand information of the UE judges whether the business of the UE meets high-frequency transmission requirement for the base station；

   When the base station judges that the business of the UE meets the high-frequency transmission and requires, the UE receives the high frequency instruction information that the base station is sent.
4. According to the method described in claim 3, it is characterized in that, high frequency instruction information is used to indicate the high frequency traffic handing capacity that the UE sends the UE to the base station.
5. According to the method described in claim 4, it is characterized in that,

   Running time-frequency resource information is carried in the high frequency instruction information, the UE sends the high frequency traffic handing capacity of the UE on the running time-frequency resource that the running time-frequency resource information indicates to the base station.
6. Method according to claim 1 or 2, which is characterized in that before the UE sends the high frequency traffic handing capacity of the UE to base station, the method also includes:

   The UE judges whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the UE；

   The UE sends the high frequency traffic handing capacity of the UE to base station, comprising:

   When the business of the UE, which meets the high-frequency transmission, to be required, the UE sends the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request to the base station, the high frequency request is that the UE distributes high frequency resources for requesting the base station, and the business demand information of the UE is that the UE distributes the high frequency resources for the base station.
7. According to the method described in claim 6, it is characterized in that, the UE according to the business demand information of the UE judge the UE business whether meet high-frequency transmission require before, the method also includes:

   The UE receives the minimum service configuration information of the base station broadcast, and the minimum service configuration information is for characterizing requirement of the base station in the high frequency mode to the high frequency traffic handing capacity of the UE.
8. The method according to the description of claim 7 is characterized in that the UE sends the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request to the base station if the business of the UE meets the high-frequency transmission requirement, comprising:

   If the business of the UE meets the high-frequency transmission requirement, the UE judges whether the high frequency traffic handing capacity of the UE meets the minimum service configuration information；

   If the high frequency traffic handing capacity of the UE meets the minimum service configuration information, the UE sends the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request to the base station.
9. A kind of resource regulating method characterized by comprising

   Base station receives the high frequency traffic handing capacity for the UE that user equipment (UE) is sent；

   High frequency resources are distributed according to the high frequency traffic handing capacity of the UE for the UE, the high frequency resources are used for transmission the business of the UE in the base station；

   The base station sends the information of the high frequency resources to the UE, and the information of the high frequency resources transmits the business of the UE for the UE on the high frequency resources.
10. According to the method described in claim 9, it is characterized in that,

    The high frequency traffic handing capacity of the UE includes:

    At least one of in the maximum modulation coding mode of maximum resource block size, the maximum processing bandwidth that the UE is supported, the peak transfer rate of UE support and UE support that the UE is supported.
11. Method according to claim 9 or 10, which is characterized in that the method also includes:

    The base station receives the business demand information that the UE is sent；

    The base station judges whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the UE；

    If the business of the UE meets the high-frequency transmission requirement, the base station sends high frequency to the UE and indicates that information, the high frequency instruction information are used to indicate the high frequency traffic handing capacity that the UE sends the UE to the base station.
12. According to the method for claim 11, which is characterized in that high frequency resources are distributed according to the high frequency traffic handing capacity of the UE for the UE in the base station, comprising:

    The base station judges whether the high frequency traffic handing capacity of the UE meets minimum service configuration information, and the minimum service configuration information is for characterizing requirement of the base station in the high frequency mode to the high frequency traffic handing capacity of the UE；

    If the high frequency traffic handing capacity of the UE meets the minimum service configuration information, the high frequency resources are distributed according to the high frequency traffic handing capacity of the UE for the UE in the base station.
13. Method according to claim 11 or 12, which is characterized in that

    Running time-frequency resource information is carried in the high frequency instruction information, the UE sends the high frequency traffic handing capacity of the UE on the running time-frequency resource that the running time-frequency resource information indicates to base station.
14. According to the described in any item methods of right 11-13, which is characterized in that high frequency resources are distributed according to the high frequency traffic handing capacity of the UE for the UE in the base station, comprising:

    The high frequency resources are distributed according to the business demand information of the UE and the high frequency traffic handing capacity of the UE, for the UE in the base station.
15. According to the method for claim 14, which is characterized in that the quantity of the UE be it is multiple,

    The high frequency resources are distributed according to the business demand information of the UE and the high frequency traffic handing capacity of the UE, for the UE in the base station, comprising:

    The base station determines the tune of the multiple UE according to the high frequency traffic handing capacity of the business demand information of multiple UE or the business demand information of the multiple UE and the multiple UE Spend priority；

    The base station is according to the dispatching priority of the business demand information of the multiple UE, the high frequency traffic handing capacity of the multiple UE and the multiple UE, the respectively the multiple UE distribution high frequency resources.
16. The described in any item methods of 1-15 according to claim 1, which is characterized in that

    The business demand information of the UE includes at least: the delay requirement of the data volume of the business of the UE and the business of the UE.
17. A kind of user equipment (UE) characterized by comprising

    Transmission unit, for sending the high frequency traffic handing capacity of the UE to base station, in order to which the base station is that the UE distributes high frequency resources according to the high frequency traffic handing capacity of the UE；And

    Receiving unit, for receiving the information for the high frequency resources that the base station is sent, the information of the high frequency resources transmits the business of the UE for the UE on the high frequency resources.
18. UE according to claim 17, which is characterized in that

    The high frequency traffic handing capacity for the UE that the transmission unit is sent includes:

    At least one of in the maximum modulation coding mode of maximum resource block size, the maximum processing bandwidth that the UE is supported, the peak transfer rate of UE support and UE support that the UE is supported.
19. UE described in 7 or 18 according to claim 1, which is characterized in that

    The transmission unit, is also used to send the business demand information of the UE to the base station, and the business demand information of the UE judges whether the business of the UE meets high-frequency transmission requirement for the base station；

    The receiving unit is also used to receive the high frequency instruction information that the base station is sent when the base station judges that the business of the UE meets the high-frequency transmission and requires.
20. UE according to claim 19, which is characterized in that the received high frequency instruction information of receiving unit is used to indicate the high frequency traffic handing capacity that the transmission unit sends the UE to the base station.
21. UE according to claim 20, which is characterized in that

    Running time-frequency resource information, institute are carried in the received high frequency instruction information of receiving unit State the high frequency traffic handing capacity that transmission unit sends the UE on the running time-frequency resource that the running time-frequency resource information indicates to the base station.
22. UE described in 7 or 18 according to claim 1, which is characterized in that the UE further includes judging unit,

    The judging unit before the high frequency traffic handing capacity for sending the UE to base station for the transmission unit, judges whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the UE；

    The transmission unit, when specifically for judging that the business of the UE meets high-frequency transmission requirement when the judging unit, the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request are sent to the base station, the high frequency request is that the UE distributes high frequency resources for requesting the base station, and the business demand information of the UE is that the UE distributes the high frequency resources for the base station.
23. UE according to claim 22, which is characterized in that

    The receiving unit, be also used to the judging unit according to the business demand information of the UE judge the UE business whether meet high-frequency transmission require before, the minimum service configuration information of the base station broadcast is received, the minimum service configuration information is for characterizing requirement of the base station in the high frequency mode to the high frequency traffic handing capacity of the UE.
24. UE according to claim 23, which is characterized in that

    The judging unit judges whether the high frequency traffic handing capacity of the UE meets the minimum service configuration information if the business for being also used to the UE meets the high-frequency transmission requirement；

    The transmission unit, if judging that the high frequency traffic handing capacity of the UE meets the minimum service configuration information specifically for the judging unit, the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request are sent to the base station.
25. A kind of base station characterized by comprising

    Receiving unit, the high frequency traffic handing capacity of the UE for receiving user equipment (UE) transmission；

    Allocation unit distributes high frequency resources for the high frequency traffic handing capacity according to the received UE of the receiving unit for the UE, the high frequency resources are used for transmission the UE's Business；

    Transmission unit, for sending the information for the high frequency resources that the allocation unit is distributed to the UE, the information of the high frequency resources transmits the business of the UE for the UE on the high frequency resources.
26. Base station according to claim 25, which is characterized in that

    The high frequency traffic handing capacity of the received UE of receiving unit includes:

    At least one of in the maximum modulation coding mode of maximum resource block size, the maximum processing bandwidth that the UE is supported, the peak transfer rate of UE support and UE support that the UE is supported.
27. The base station according to claim 25 or 26, which is characterized in that the base station further includes judging unit,

    The receiving unit is also used to receive the business demand information that the UE is sent；

    The judging unit, for judging whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the received UE of the receiving unit；

    The transmission unit, if being also used to the judging unit judges that the business of the UE meets the high-frequency transmission requirement, high frequency then, which is sent, to the UE indicates that information, the high frequency instruction information are used to indicate the high frequency traffic handing capacity that the UE sends the UE to the base station.
28. Base station according to claim 27, which is characterized in that the allocation unit specifically includes judgment module and distribution module,

    The judgment module, for judging whether the high frequency traffic handing capacity of the UE meets minimum service configuration information, the minimum service configuration information is for characterizing requirement of the base station in the high frequency mode to the high frequency traffic handing capacity of the UE；

    The distribution module, according to the high frequency traffic handing capacity of the UE, distributes the high frequency resources if judging that the high frequency traffic handing capacity of the UE meets the minimum service configuration information for the judgment module for the UE.
29. The base station according to claim 27 or 28, which is characterized in that

    Running time-frequency resource information, the high frequency traffic handing capacity for sending the UE to base station on the running time-frequency resource of running time-frequency resource information instruction are carried in the high frequency instruction information that the transmission unit is sent.
30. According to the described in any item base stations right 27-29, which is characterized in that

    The allocation unit, specifically for distributing the high frequency resources for the UE according to the business demand information of the received UE of the receiving unit and the high frequency traffic handing capacity of the UE.
31. Base station according to claim 30, which is characterized in that the quantity of the UE be it is multiple, the allocation unit further includes determining module,

    The determining module determines the dispatching priority of the multiple UE for the high frequency traffic handing capacity according to the business demand information of multiple UE or the business demand information of the multiple UE and the multiple UE；

    The distribution module, specifically for the dispatching priority of the multiple UE determined according to the business demand information of the multiple UE, the high frequency traffic handing capacity of the multiple UE and the determining module, respectively the multiple UE distributes the high frequency resources.
32. According to the described in any item base stations claim 27-31, which is characterized in that

    The business demand information of the received UE of receiving unit includes at least: the delay requirement of the data volume of the business of the UE and the business of the UE.
33. A kind of user equipment (UE) characterized by comprising

    Transmitter, for sending the high frequency traffic handing capacity of the UE to base station, in order to which the base station is that the UE distributes high frequency resources according to the high frequency traffic handing capacity of the UE；And

    Receiver, for receiving the information for the high frequency resources that the base station is sent, the information of the high frequency resources transmits the business of the UE for the UE on the high frequency resources.
34. UE according to claim 33, which is characterized in that

    The high frequency traffic handing capacity for the UE that the transmitter is sent includes:

    At least one of in the maximum modulation coding mode of maximum resource block size, the maximum processing bandwidth that the UE is supported, the peak transfer rate of UE support and UE support that the UE is supported.
35. The UE according to claim 33 or 34, which is characterized in that

    The transmitter, is also used to send the business demand information of the UE to the base station, and the business demand information of the UE judges whether the business of the UE meets height for the base station Frequency transmission requirement；

    The receiver is also used to receive the high frequency instruction information that the base station is sent when the base station judges that the business of the UE meets the high-frequency transmission and requires.
36. UE according to claim 35, which is characterized in that the received high frequency instruction information of receiver is used to indicate the high frequency traffic handing capacity that the transmitter sends the UE to the base station.
37. UE according to claim 36, which is characterized in that

    Running time-frequency resource information is carried in the received high frequency instruction information of receiver, the transmitter sends the high frequency traffic handing capacity of the UE on the running time-frequency resource that the running time-frequency resource information indicates to the base station.
38. The UE according to claim 33 or 34, which is characterized in that the UE further includes processor,

    The processor before the high frequency traffic handing capacity for sending the UE to base station for the transmitter, judges whether the business of the UE meets high-frequency transmission requirement according to the business demand information of the UE；

    The transmitter, when specifically for judging that the business of the UE meets high-frequency transmission requirement when the processor, the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request are sent to the base station, the high frequency request is that the UE distributes high frequency resources for requesting the base station, and the business demand information of the UE is that the UE distributes the high frequency resources for the base station.
39. The UE according to claim 38, which is characterized in that

    The receiver, be also used to the processor according to the business demand information of the UE judge the UE business whether meet high-frequency transmission require before, the minimum service configuration information of the base station broadcast is received, the minimum service configuration information is for characterizing requirement of the base station in the high frequency mode to the high frequency traffic handing capacity of the UE.
40. UE according to claim 39, which is characterized in that

    The processor judges whether the high frequency traffic handing capacity of the UE meets the minimum service configuration information if the business for being also used to the UE meets the high-frequency transmission requirement；

    The transmitter sends the business demand information of the UE, the high frequency traffic handing capacity of the UE and high frequency request to the base station if judging that the high frequency traffic handing capacity of the UE meets the minimum service configuration information specifically for the processor.
41. A kind of base station characterized by comprising

    Receiver, the high frequency traffic handing capacity of the UE for receiving user equipment (UE) transmission；

    Processor distributes high frequency resources for the high frequency traffic handing capacity according to the received UE of the receiver for the UE, the high frequency resources are used for transmission the business of the UE；

    Transmitter, for sending the information for the high frequency resources that the processor distributes to the UE, the information of the high frequency resources transmits the business of the UE for the UE on the high frequency resources.
42. Base station according to claim 41, which is characterized in that

    The high frequency traffic handing capacity of the received UE of receiver includes:

    At least one of in the maximum modulation coding mode of maximum resource block size, the maximum processing bandwidth that the UE is supported, the peak transfer rate of UE support and UE support that the UE is supported.
43. The base station according to claim 41 or 42, which is characterized in that

    The receiver is also used to receive the business demand information that the UE is sent；

    The processor, is also used to judge according to the business demand information of the received UE of the receiver whether the business of the UE meets high-frequency transmission requirement；

    The transmitter, if being also used to the processor judges that the business of the UE meets the high-frequency transmission requirement, high frequency then, which is sent, to the UE indicates that information, the high frequency instruction information are used to indicate the high frequency traffic handing capacity that the UE sends the UE to the base station.
44. Base station according to claim 43, which is characterized in that

    The processor, specifically for judging whether the high frequency traffic handing capacity of the UE meets minimum service configuration information, the minimum service configuration information is for characterizing requirement of the base station in the high frequency mode to the high frequency traffic handing capacity of the UE；

    The processor, according to the high frequency traffic handing capacity of the UE, is the UE if the high frequency traffic handing capacity specifically for the UE meets the minimum service configuration information Distribute the high frequency resources.
45. The base station according to claim 43 or 44, which is characterized in that

    Running time-frequency resource information is carried in the high frequency instruction information that the transmitter is sent, the UE sends the high frequency traffic handing capacity of the UE on the running time-frequency resource that the running time-frequency resource information indicates to base station.
46. According to the described in any item base stations right 43-45, which is characterized in that

    The processor, specifically for distributing the high frequency resources for the UE according to the business demand information of the received UE of the receiver and the high frequency traffic handing capacity of the UE.
47. Base station according to claim 46, which is characterized in that the quantity of the UE is more Jie,

    The processor is also used to the high frequency traffic handing capacity according to the business demand information of multiple UE or the business demand information of the multiple UE and the multiple UE, determines the dispatching priority of the multiple UE；

    The processor, specifically for the dispatching priority according to the business demand information of the multiple UE, the high frequency traffic handing capacity of the multiple UE and the multiple UE, respectively the multiple UE distributes the high frequency resources.
48. According to the described in any item base stations claim 43-47, which is characterized in that

    The business demand information of the received UE of receiver includes at least: the delay requirement of the data volume of the business of the UE and the business of the UE.
49. A kind of communication system characterized by comprising

    Such as the described in any item user equipment (UE)s of claim 17-24, and such as described in any item base stations claim 25-32；Alternatively,

    Such as the described in any item user equipment (UE)s of claim 33-40, and such as described in any item base stations claim 41-48.