CN103517423A - Resource configuration method, device and system - Google Patents

Abstract

The invention discloses a resource configuration method, a device and a system. The method comprises the following steps: a network side determines that a terminal supports using special subframe ratio; and the network side configures the terminal to use the special subframe ratio. According to the invention, the problem of the network side and terminal cooperation in using the special subframe configuration can be solved.

Description

Resource allocation method, Apparatus and system

Technical field

The present invention relates to the communications field, in particular to a kind of resource allocation method, Apparatus and system.

Background technology

At present, a TD SDMA access (Time Division-Synchronous Code Division Multiple Access, referred to as TD-SCDMA) length of frame is 10ms, is divided into two 5ms subframes, the structure of 2 subframes in every 10ms frame length is identical.

Fig. 1 is according to the schematic diagram of the TD-SCDMA subframe structure of correlation technique, and as shown in Figure 1, each 5ms subframe comprises: time slot #n(n from 0 to 6) represent n business time-slot, wherein each business time-slot comprises 864 chip durations; DwPTS represents descending pilot frequency time slot, and wherein each descending pilot frequency time slot comprises 96 chip durations; UpPTS represents uplink pilot time slot, and wherein each uplink pilot time slot comprises 160 chip durations, and GP represents the main protection interval of TDD, and wherein the main protection interval of each TDD comprises 96 chip durations.

In Fig. 1, uplink and downlink business time-slot adds up to 7, and the length of each business time-slot is the duration of 864 chips.In 7 business time-slots, time slot 0 is always distributed to down link, and time slot 1 is always distributed to up link.Between the time slot of up link and the time slot of down link, by a transfer point, separated.Between descending time slot and ascending time slot, special interval is as the transfer point of uplink and downlink.In the subframe of each 5ms, there are two transfer points (downstream-to-upstream and be up to descending).

Use above-mentioned frame structure, can work in by the number of allocation of downlink and ascending time slot symmetry and dissymmetric mode.It is descending that any configuration at least will have a time slot (time slot 0) to distribute to, and at least one time slot (time slot 1) must be distributed to up.

Fig. 2 is the schematic diagram of time-division Long Term Evolution (Time Division-Long Term Evolution, referred to as TD-LTE) the system wireless frame structure according to correlation technique, as shown in Figure 2, and the field that the radio frames of each 10ms comprises two 5ms.Each field comprises time slot and 3 special area: DwPTS, GP and the UpPTS that 8 length are 0.5ms.The length of DwPTS and UpPTS is configurable, and the total time length of DwPTS, GP and UpPTS is 1ms.The frame structure of TD-LTE is supported the switching point cycle of 5ms and 10ms simultaneously.In subframe 1, comprise DwPTS, GP and UpPTS.At 5ms switching point, during the cycle, subframe 6 comprises DwPTS, GP and UpPTS.At 10ms switching point, during the cycle, 6 of subframes comprise DwPTS.Other all subframe all comprises two isometric time slots.

For TDD, GP retains the switching to downstream-to-upstream.Other subframe/time slot is for uplink or downlink transfer.Uplink is separated in time domain with downlink transfer.

Up-descending allocation table of table 1

The configuration of the existing special subframe of table 2 (lengths of DwPTS/GP/UpPTS)

Be all TDD system, when TD-SCDMA and TD-LTE adjacent frequency coexistence, need strict time slot alignment, or be called slot synchronization, uplink and downlink timeslot transfer point need to be at point at the same time, otherwise will cause severe jamming.Particularly, in China, TD-SCDMA disposes in a large number, in the future long-term and TD-LTE coexistence of systems.

Fig. 3 realizes the schematic diagram of slot synchronization according to the TD-SCDMA system of correlation technique and TD-LTE system, TD-SCDMA system business time slot 2:4 proportioning is a conventional allocation ratio as shown in Figure 3, and it is that 1:3 realizes slot synchronization that TD-LTE system business subframe ratio can be set.But now the special subframe of TD-LTE system only can adopt 3:9:2 or two kinds of configurations of 3:10:1, and DwPTS all only takies 3 symbols, cannot use as Traffic Channel, and therefore, the DwPTS relative capacity under this kind of configuration is very little, and efficiency is very low.

In order to improve the capacity of Traffic Channel, the GP of two TDD systems alignment while meeting adjacent frequency coexistence again, can in existing TD-LTE system special subframe configuration, increase the symbolic number that new configuration item increases DWPTS, in short CP situation, increase new special subframe proportioning 6: 6: 2(symbolic number ratio, DwPTS: GP: UpPTS); Under long CP, in situation, increase new special subframe proportioning 5: 5: 2.In Table 3, be equivalent to has increased configure9 in normal CP situation, in expansion CP situation, has increased by two kinds of configurations of congfigue7.

The configuration of the existing special subframe of table 3 (lengths of DwPTS/GP/UpPTS)

Foregoing description the configuration of newly-increased special subframe, but Yet-have does not have related mechanism to guarantee that network side and terminal are used in conjunction with this configuration at present, thereby may bring compatibility issue.

Summary of the invention

The embodiment of the present invention provides a kind of resource allocation method, Apparatus and system, thereby does not have related mechanism to guarantee that network side and terminal are used in conjunction with the compatibility issue that this configuration brings with the configuration Yet-have at least solving in correlation technique for the special subframe of newly-increased use special subframe proportioning.

The invention provides a kind of resource allocation method, comprising: network side is determined terminal support use special subframe proportioning; Network side configurating terminal is used special subframe proportioning.

Further, network side determines that terminal support use special subframe proportioning comprises: network side is determined terminal support use special subframe proportioning according to the dedicated signaling that carrys out self terminal, and wherein dedicated signaling carries and is used to indicate the ability information whether terminal supports to use special subframe proportioning.

Further, ability information be in the terminal different system capability list UE-CapabilityRAT-ContainerList in the terminal ability information UECapabilityInformation of terminal for an indication or an enumeration type newly-increased in TD-SCDMA ability, or the existing cell redefining, or the combination of existing a plurality of cells.

Further, ability information is terminal to a newly-increased indication in the radio resource control RRC connection setup complete message of network side feedback.

Further, network side determines that terminal support use special subframe proportioning comprises: network side is determined terminal support use special subframe proportioning according to predefined default relationship.

Further, predefined default relationship is that special subframe proportioning is used in acquiescence time-division Long Term Evolution TD-LTE system and the support of TD SDMA access TD-SCDMA system dual-mode terminal.

Further, network side configurating terminal is used special subframe proportioning to comprise: network side dispatch terminal is used special subframe proportioning.

Further, before network side dispatch terminal is used special subframe proportioning, also comprise: network side will be used the configuration information of special subframe proportioning to send to terminal by RRC message.

Further, special subframe proportioning comprises one of following: the in the situation that of short CP, the symbolic number of DwPTS, GP and UpPTS ratio is 6:6:2; Under long CP, in situation, the symbolic number of DwPTS, GP and UpPTS ratio is 5:5:2.

The present invention also provides a kind of resource allocation method, comprising: terminal reports and self supports to use special subframe proportioning to network side; Terminal response, from the configuration information of network side, is used special subframe proportioning.

Further, before reporting to network side in terminal and self support using special subframe proportioning, also comprise: terminal determines that according to predefined default relationship network side support used special subframe proportioning.

Further, predefined default relationship comprises one of following: acquiescence is used special subframe proportioning in the time-division Long Term Evolution TD-LTE system support of Chinese scope operation; Acquiescence is used special subframe proportioning with the TD-LTE system support of TD SDMA access TD-SCDMA coexistence of systems.

Further, terminal reports and self supports to use special subframe proportioning to comprise to network side: terminal sends dedicated signaling to network side, and wherein dedicated signaling carries and is used to indicate the ability information whether terminal supports to use special subframe proportioning.

Further, ability information be in the terminal different system capability list UE-CapabilityRAT-ContainerList in the terminal ability information UECapabilityInformation of terminal for an indication or an enumeration type in TD-SCDMA ability, or the existing cell redefining, or the combination of existing a plurality of cells.。

Further, ability information is terminal to an indication in the radio resource control RRC connection setup complete message of network side feedback.

Further, special subframe proportioning comprises one of following: the in the situation that of short CP, the symbolic number of DwPTS, GP and UpPTS ratio is 6:6:2; Under long CP, in situation, the symbolic number of DwPTS, GP and UpPTS ratio is 5:5:2.

The invention provides a kind of device for allocating resources, be applied to network side, comprising: determination module, for determining terminal support use special subframe proportioning; Configuration module, is used special subframe proportioning for configurating terminal.

The present invention also provides a kind of device for allocating resources, is applied to terminal, comprising: reporting module, for reporting to network side, self support to use special subframe proportioning; Use module, for responding the configuration information from network side, use special subframe proportioning.

The invention provides a kind of resource configuration system, comprise network side and terminal, wherein, terminal comprises: reporting module, for reporting to network side, self support to use special subframe proportioning; Network side comprises: determination module, for determining terminal support use special subframe proportioning; Configuration module, is used special subframe proportioning for configurating terminal; Terminal also comprises: use module, for responding the configuration information from network side, use special subframe proportioning.

The embodiment of the present invention provides a kind of and has guaranteed that network side and terminal are used in conjunction with the configuration mechanism of this configuration, thereby can avoid above-mentioned compatibility issue.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, forms the application's a part, and schematic description and description of the present invention is used for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is according to the schematic diagram of the TD-SCDMA subframe structure of correlation technique;

Fig. 2 is according to the schematic diagram of the TD-LTE system wireless frame structure of correlation technique;

Fig. 3 realizes the schematic diagram of slot synchronization according to the TD-SCDMA system of correlation technique and TD-LTE system;

Fig. 4 is the flow chart one according to the resource allocation method of the embodiment of the present invention;

Fig. 5 is according to the flowchart 2 of the resource allocation method of the embodiment of the present invention;

Fig. 6 is according to the schematic diagram one of the network of the embodiment of the present invention and terminal capability relation;

Fig. 7 is according to the schematic diagram two of the network of the embodiment of the present invention and terminal capability relation;

Fig. 8 is the structured flowchart one according to the device for allocating resources of the embodiment of the present invention;

Fig. 9 is the structured flowchart two according to the device for allocating resources of the embodiment of the present invention;

Figure 10 is according to the structured flowchart of the resource configuration system of the embodiment of the present invention.

Embodiment

Describe below with reference to the accompanying drawings and in conjunction with the embodiments the present invention in detail.It should be noted that, in the situation that not conflicting, embodiment and the feature in embodiment in the application can combine mutually.

Repeating data processing method in following examples can be applied on server, and this server can be exclusively used in the processing of carrying out repeating data, can certainly be applied on one group of server.Or the module also can be used as in server is public with the server of carrying out other functions.

The invention provides a kind of resource allocation method.Fig. 4 is the flow chart one according to the resource allocation method of the embodiment of the present invention, as described in Figure 4, comprises that following step S402 is to step S404.

Step S402, network side is determined terminal support use special subframe proportioning.

Step S404, network side configurating terminal is used special subframe proportioning.

In correlation technique, for the configuration of the special subframe of newly-increased use special subframe proportioning, Yet-have does not have related mechanism to guarantee that network side and terminal are used in conjunction with this configuration, thereby may bring compatibility issue.In the embodiment of the present invention, provide a kind of and guaranteed that network side and terminal are used in conjunction with the configuration mechanism of this configuration, thereby can avoid above-mentioned compatibility issue.

Resource allocation method provided by the invention has solved the in the situation that in TD-LTE system, newly-increased special subframe configuring, and how to make terminal and network cooperating, has realized the backward compatibility of adding this configuration and the system of assurance in the system of different 3GPP versions.This resource allocation method neither affects the operation of existing network and existing terminal, again can be for network and the newly-increased special subframe configuration of terminal applies of supporting newly-increased special subframe configuration.This resource allocation method can be applied to the signal intelligence of various complexity, for example the version of the network of different regions operation is not exclusively the same situation, terminal versions has the situation of newly haveing been friends in the past, and can guarantee that terminal roaming is to different regions heterogeneous networks, improves resource utilization.

Further, network side determines that terminal support use special subframe proportioning comprises: network side is determined terminal support use special subframe proportioning according to the dedicated signaling that carrys out self terminal, and wherein dedicated signaling carries and is used to indicate the ability information whether terminal supports to use special subframe proportioning.It should be noted that, this ability information can be in the terminal different system capability list UE-CapabilityRAT-ContainerList in the terminal ability information UECapabilityInformation of terminal for an indication or an enumeration type newly-increased in TD-SCDMA ability, or the existing cell redefining, or the combination of existing a plurality of cells, can be also terminal to a newly-increased indication in the radio resource control RRC connection setup complete message of network side feedback.

Further, network side determines that terminal support use special subframe proportioning comprises: network side is determined terminal support use special subframe proportioning according to predefined default relationship.Wherein, this predefined default relationship is that special subframe proportioning is used in acquiescence time-division Long Term Evolution TD-LTE system and the support of TD SDMA access TD-SCDMA system dual-mode terminal.

In addition, network side configurating terminal is used special subframe proportioning to comprise: network side dispatch terminal is used special subframe proportioning.More preferably, before network side dispatch terminal is used special subframe proportioning, network side also will be used the configuration information of special subframe proportioning to send to terminal by RRC message.

Further, special subframe proportioning comprises one of following: the in the situation that of short CP, the symbolic number of DwPTS, GP and UpPTS ratio is 6:6:2; Under long CP, in situation, the symbolic number of DwPTS, GP and UpPTS ratio is 5:5:2.

The present invention also provides a kind of resource allocation method, and Fig. 5 is according to the flowchart 2 of the resource allocation method of the embodiment of the present invention, as described in Figure 5, comprises that following step S502 is to step S504.

Step S502, terminal reports and self supports to use special subframe proportioning to network side.

Step S504, terminal response, from the configuration information of network side, is used special subframe proportioning.

Preferably, before reporting to network side in terminal and self support using special subframe proportioning, also comprise: terminal determines that according to predefined default relationship network side support used special subframe proportioning, wherein this predefined default relationship comprises one of following: acquiescence is used special subframe proportioning in the time-division Long Term Evolution TD-LTE system support of Chinese scope operation; Acquiescence is used special subframe proportioning with the TD-LTE system support of TD SDMA access TD-SCDMA coexistence of systems.

Further, terminal reports and self supports to use special subframe proportioning to comprise to network side: terminal sends dedicated signaling to network side, wherein dedicated signaling carries and is used to indicate the ability information whether terminal supports to use special subframe proportioning, it should be noted that, this ability information can be in the terminal different system capability list UE-CapabilityRAT-ContainerList in the terminal ability information UECapabilityInformation of terminal for an indication or an enumeration type newly-increased in TD-SCDMA ability, or the existing cell redefining, or the combination of existing a plurality of cells, also can be terminal to a newly-increased indication in the radio resource control RRC connection setup complete message of network side feedback.

Further, special subframe proportioning comprises one of following: the in the situation that of short CP, the symbolic number of DwPTS, GP and UpPTS ratio is 6:6:2; Under long CP, in situation, the symbolic number of DwPTS, GP and UpPTS ratio is 5:5:2.

Below in conjunction with example, the implementation procedure of the embodiment of the present invention is described in detail.

Preferred embodiment one

Fig. 6 is according to the schematic diagram one of the network of the embodiment of the present invention and terminal capability relation, as shown in Figure 6, new network 1 is a network of supporting newly-increased special subframe allocative abilities, and this network 1 can and support the new terminal 2 of newly-increased special subframe allocative abilities that service is provided for existing terminal 1.

Existing terminal 1 is carried out according to normal flow, reads it and is configured to a certain in 0-8, and carry out work according to this kind of configuration according to the configuration mode of the existing special subframe of upper table 2.

Step 1:

When the terminal 2 of a newly-increased special subframe allocative abilities of support accesses a network, terminal 2 need to be informed network, and it also supports newly-increased special subframe allocative abilities.Wherein, newly-increased special subframe proportioning comprises one of following: the in the situation that of short CP, the symbolic number of DwPTS, GP and UpPTS ratio is 6:6:2; Under long CP, in situation, the symbolic number of DwPTS, GP and UpPTS ratio is 5:5:2.

The mode of this ability of terminal to report has:

Mode one

In existing terminal ability information, add an indication or add an option; Concrete, in the ability for TD-SCDMA in can the UE-CapabilityRAT-ContainerList in existing LTE signaling UECapabilityInformation, increase an indication or add an enumeration type, or the existing cell redefining, or the combination of existing a plurality of cells, this need to add or redefine in the INTER RAT HANDOVER INFO in TD-SCDMA rower standard 25.331.

Mode two

Terminal is added an indication in existing RRC connection setup complete message; Concrete, in the RRC connection setup complete message that carries out having fed back when RRC connection has been set up in terminal, add an indication, tell its support of network newly-increased special subframe allocative abilities.May there is compatibility issue in this modification, such as a new terminal has entered external network, the indication of its interpolation can not be by external Network Recognition, further, if in 3GPP agreement, same position has been added other indications in the future, external network also may be obscured this two indications.Therefore this mode is a suboptimum mode.

New terminal 2, before reporting the newly-increased special subframe allocative abilities of its support, can first judge whether network 1 is a network of supporting newly-increased special subframe allocative abilities, and new terminal 2 can judge in the following manner.

Mode one

TD-LTE system in China's operation all need to realize according to rower, also just in meaning, all supports newly-increased special subframe allocative abilities; Terminal can, according to operator's sign or area identification, as the value of PLMN, judge that whether certain TD-LTE system is in Chinese scope.If judge that it is in Chinese scope, this terminal just can determine that this network is to support newly-increased special subframe allocative abilities.

Mode two

Because problem solved by the invention only there will be the situation at TD-SCDMA system and TD-LTE coexistence of systems, therefore can be by judging whether that TD-SCDMA system and current TD-LTE coexistence of systems judge whether current TD-LTE system supports to increase newly special subframe allocative abilities; As being all in the future the dual-mode terminal of supporting TD-SCDMA the TD-LTE terminal in Chinese scope, whether this Terminal Type is easy to judge TD-SCDMA system and current TD-LTE coexistence of systems, and then just can determine that current TD-LTE network is to support newly-increased special subframe allocative abilities.

New terminal 2 is before reporting the newly-increased special subframe allocative abilities of its support, also can not need to judge whether network 1 is a network of supporting newly-increased special subframe allocative abilities, but directly report, when network is not supported newly-increased special subframe allocative abilities, the newly-increased special subframe allocative abilities indication that it can not identification terminal 2 reports, can not do other processing yet.

Or network also can determine whether certain terminal supports newly-increased special subframe allocative abilities by the mode of acquiescence, and does not rely on the capability reporting process of terminal.

Such as giving tacit consent to TD-LTE and TD-SCDMA dual-mode terminal, must support newly-increased special subframe allocative abilities, when network is received the UECapabilityInformation of certain terminal to report, find that Inter-Rat capacity scheme wherein has TD-SCDMA, network can determine that this terminal support increases special subframe allocative abilities newly.

After above-mentioned steps, it is to support newly-increased special subframe allocative abilities that network 1 is judged terminal 2, so network 1 can be that terminal 2 is carried out new special subframe configuration, and uses new DwPTS resource.

Further, network 1 can be connected and be reshuffled signaling by RRC, and new special subframe configuration parameter is sent to terminal 2, and terminal 2 is based on this parameter configuration resource, and new special subframe resource is used in Network Based 1 scheduling when transfer of data.

Further, network 1 also can directly adopt special subframe to configure dispatch terminal, as the control domain in DwPTS subframe, by PDCCH, distribute the DwPTS resource more than 3 symbols, terminal be appreciated that this be network side for its special processing, network is the DwPTS resource that it distributes 6 symbols, terminal 2 is carried out work according to the distribution of network, and can not be configured to 0-8 because of the special subframe of broadcasting in system broadcast message, and judgement system call is made mistakes.

This preferred embodiment one is that the special subframe that increases the DwPTS resource of 6 symbols newly is configured to example and describes, and its method is also applicable to other newly-increased special subframe configuration.

Preferred embodiment two

What this preferred embodiment two was described is that the terminal 4 that a support increases special subframe allocative abilities newly enters an existing network 2 of not supporting newly-increased special subframe allocative abilities.

Fig. 7 is according to the schematic diagram two of the network of the embodiment of the present invention and terminal capability relation, and as shown in Figure 7, terminal 4 can first judge whether current network is a network of supporting newly-increased special subframe allocative abilities.Wherein, newly-increased special subframe proportioning comprises one of following: the in the situation that of short CP, the symbolic number of DwPTS, GP and UpPTS ratio is 6:6:2; Under long CP, in situation, the symbolic number of DwPTS, GP and UpPTS ratio is 5:5:2.

The mode one of acquiescence in one according to the preferred embodiment, terminal 4 judges whether the operator of current TD-LTE system is Domestic Carriers, such as the sign by basic PLMN judges.If external operator, terminal 4 can determine that current TD-LTE system do not support newly-increased special subframe allocative abilities.

The mode two of acquiescence in one according to the preferred embodiment, whether terminal 4 search have TD-SCDMA system with overlay area, if do not had, terminal 4 can determine that current TD-LTE system do not support newly-increased special subframe allocative abilities.

When terminal 4, judge current TD-LTE system and do not support newly-increased special subframe allocative abilities, terminal 4 is worked according to existing mode, does not need to report it to support newly-increased special subframe allocative abilities.

Or, terminal 4 is directly supported the ability of newly-increased special subframe configuration directly to report network by increase the mode of indication or option in existing signaling, now network 2 is not supported newly-increased special subframe allocative abilities, the newly-increased special subframe allocative abilities indication that it can not identification terminal 4 reports, can not do other processing yet.

It should be noted that, in the step shown in the flow chart of accompanying drawing, can in the computer system such as one group of computer executable instructions, carry out, and, although there is shown logical order in flow process, but in some cases, can carry out shown or described step with the order being different from herein.

The embodiment of the present invention also provides a kind of device for allocating resources, and this device for allocating resources can be applied to network side, and for realizing above-mentioned resource allocation method.Fig. 8 is the structured flowchart one according to the device for allocating resources of the embodiment of the present invention, as shown in Figure 8, comprises determination module 82 and configuration module 84, below its structure is described in detail.

Determination module 82, for determining terminal support use special subframe proportioning; Configuration module 84, is connected to determination module 82, for configurating terminal, uses special subframe proportioning.

The embodiment of the present invention also provides a kind of device for allocating resources, and this device for allocating resources can be applied to terminal, and for realizing above-mentioned resource allocation method.Fig. 9 is the structured flowchart two according to the device for allocating resources of the embodiment of the present invention, as shown in Figure 9, comprises reporting module 92 and uses module 94, below its structure is described in detail.

Reporting module 92, self supports to use special subframe proportioning for reporting to network side; Use module 94, for responding the configuration information from network side, use special subframe proportioning.

The embodiment of the present invention also provides a kind of resource configuration system.Figure 10 is according to the structured flowchart of the resource configuration system of the embodiment of the present invention, as shown in figure 10, this resource configuration system comprises network side 102 and terminal 104, wherein, network side 102 comprises determination module 1022 and configuration module 1024, terminal 104 comprises reporting module 1042 and uses module 1044, below its structure is described in detail.

Reporting module 1042, self supports to use special subframe proportioning for reporting to network side; Determination module 1022, is connected to reporting module 1042, for determining terminal support use special subframe proportioning; Configuration module 1024, is connected to determination module 1022, for configurating terminal, uses special subframe proportioning; Use module 1044, be connected to configuration module 1024, for responding the configuration information from network side, use special subframe proportioning.

It should be noted that, the device for allocating resources of describing in device embodiment and resource configuration system are corresponding to above-mentioned embodiment of the method, and its concrete implementation procedure had been carried out detailed description in embodiment of the method, did not repeat them here.

In sum, according to the abovementioned embodiments of the present invention, a kind of resource allocation method, Apparatus and system are provided.The present invention guarantees that by providing a kind of network side and terminal are used in conjunction with the configuration mechanism of this configuration, thereby can solve the configuration for the special subframe of newly-increased use special subframe proportioning, thereby owing to not having related mechanism to guarantee that network side and terminal are used in conjunction with the compatibility issue that this configuration brings.

Obviously, those skilled in the art should be understood that, above-mentioned each module of the present invention or each step can realize with general calculation element, they can concentrate on single calculation element, or be distributed on the network that a plurality of calculation elements form, alternatively, they can be realized with the executable program code of calculation element, thereby, they can be stored in storage device and be carried out by calculation element, or they are made into respectively to each integrated circuit modules, or a plurality of modules in them or step are made into single integrated circuit module to be realized.Like this, the present invention is not restricted to any specific hardware and software combination.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (19)

1. a resource allocation method, is characterized in that comprising:

Network side is determined terminal support use special subframe proportioning;

Network side configures described terminal and uses described special subframe proportioning.

2. method according to claim 1, is characterized in that, network side determines that terminal support use special subframe proportioning comprises:

Described network side is according to determining that from the dedicated signaling of described terminal described terminal support used described special subframe proportioning, and wherein said dedicated signaling carries and is used to indicate the ability information whether described terminal supports to use described special subframe proportioning.

3. method according to claim 2, it is characterized in that, described ability information be in the terminal different system capability list UE-CapabilityRAT-ContainerList in the terminal ability information UECapabilityInformation of described terminal for an indication or an enumeration type newly-increased in TD-SCDMA ability, or the existing cell redefining, or the combination of existing a plurality of cells.

4. method according to claim 2, is characterized in that, described ability information is described terminal to a newly-increased indication in the radio resource control RRC connection setup complete message of described network side feedback.

5. method according to claim 1, is characterized in that, network side determines that terminal support used special subframe proportioning to comprise: described network side determines that according to predefined default relationship described terminal support used described special subframe proportioning.

6. method according to claim 5, is characterized in that, described predefined default relationship is that described special subframe proportioning is used in acquiescence time-division Long Term Evolution TD-LTE system and the support of TD SDMA access TD-SCDMA system dual-mode terminal.

7. according to the method described in any one in claim 1 to 6, it is characterized in that, network side configures described terminal and uses described special subframe proportioning to comprise: described network side is dispatched described terminal and used described special subframe proportioning.

8. method according to claim 7, it is characterized in that, at described network side, dispatch before described terminal used described special subframe proportioning, also comprise: described network side will be used the configuration information of described special subframe proportioning to send to described terminal by RRC message.

9. according to the method described in any one in claim 1 to 6, it is characterized in that, it is one of following that described special subframe proportioning comprises:

The in the situation that of short CP, the symbolic number of DwPTS, GP and UpPTS ratio is 6:6:2;

Under long CP, in situation, the symbolic number of DwPTS, GP and UpPTS ratio is 5:5:2.

10. a resource allocation method, is characterized in that comprising:

Terminal reports and self supports to use special subframe proportioning to network side;

Described terminal response, from the configuration information of described network side, is used described special subframe proportioning.

11. methods according to claim 10, it is characterized in that, before reporting to network side in terminal and self support using special subframe proportioning, also comprise: described terminal determines that according to predefined default relationship described network side support used described special subframe proportioning.

12. methods according to claim 11, is characterized in that, it is one of following that described predefined default relationship comprises:

Acquiescence is used described special subframe proportioning in the time-division Long Term Evolution TD-LTE system support of Chinese scope operation;

Acquiescence is used described special subframe proportioning with the TD-LTE system support of TD SDMA access TD-SCDMA coexistence of systems.

13. according to claim 10 to the method described in any one in 12, it is characterized in that, terminal reports and self supports to use special subframe proportioning to comprise to network side: described terminal sends dedicated signaling to described network side, and wherein said dedicated signaling carries and is used to indicate the ability information whether described terminal supports to use described special subframe proportioning.

14. methods according to claim 13, it is characterized in that, described ability information be in the terminal different system capability list UE-CapabilityRAT-ContainerList in the terminal ability information UECapabilityInformation of described terminal for an indication or an enumeration type newly-increased in TD-SCDMA ability, or the existing cell redefining, or the combination of existing a plurality of cells.

15. methods according to claim 13, is characterized in that, described ability information is described terminal to an indication in the radio resource control RRC connection setup complete message of described network side feedback.

16. according to claim 10 to the method described in any one in 12, it is characterized in that, it is one of following that described special subframe proportioning comprises:

The in the situation that of short CP, the symbolic number of DwPTS, GP and UpPTS ratio is 6:6:2;

Under long CP, in situation, the symbolic number of DwPTS, GP and UpPTS ratio is 5:5:2.

17. 1 kinds of device for allocating resources, are applied to network side, it is characterized in that comprising:

Determination module, for determining terminal support use special subframe proportioning;

Configuration module, is used described special subframe proportioning for configuring described terminal.

18. 1 kinds of device for allocating resources, are applied to terminal, it is characterized in that comprising:

Reporting module, self supports to use described special subframe proportioning for reporting to described network side;

Use module, for responding the configuration information from described network side, use described special subframe proportioning.

19. 1 kinds of resource configuration systems, is characterized in that comprising network side and terminal, wherein,

Described terminal comprises:

Reporting module, self supports to use described special subframe proportioning for reporting to described network side;

Described network side comprises:

Determination module, for determining described terminal support use special subframe proportioning;

Configuration module, is used described special subframe proportioning for configuring described terminal;

Described terminal also comprises:

Use module, for responding the configuration information from described network side, use described special subframe proportioning.

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