CN101291513B - Distributing method of dynamic resource distribution - Google Patents

Abstract

The invention discloses a method for distributing resources dynamically, comprising the following: step S202, a plurality of different resource unit combinations are set according to the number of the resource unit indicating bit, the incidence relation between each resource unit and the resource unit indicating bit under the resource unit combination is set; step S204, one incidence relation between each resource unit and the resource unit indicating bit is selected and is configured to a wireless emitter and a terminal for distributing the dynamic distributing resource to the terminal; step S206, according to the resource unit combination configured to the terminal, the dynamic distributing resource is distributed to the terminal; according to the incidence relation between each resource unit and the resource unit indicating bit, a value of the resource unit indicating bit on a resource distribution and control channel is set and is configured to the terminal; step S208, the terminal obtains the value of the resource unit indicating bit from the resource distribution and control channel; according to the value, the configured resource unit combination and the incidence relation of indicating bits between resource units, the distributing information is obtained.

Description

The distribution method of dynamic assignment resource

Technical field

The present invention relates to the communications field, relate in particular to a kind of distribution method of dynamic assignment resource.

Background technology

3GPP (third generation collaboration items tissue) has introduced high speed downlink packet access (HSDPA in the version Releases5 of 3G (3G (Third Generation) Moblie technology) standard; Highspeed downlink Packet Access) characteristic; Its purpose is to provide the downlink grouping traffic of higher rate, increases downlink capacity.Based on UMTS (UMTS) R4 framework; HSDPA is through introducing adaptive coding and modulating (AMC; AdaptiveModulation and coding), mixing automatic repeat requests technology such as (HARQ, HybridAutomatic Retransmission Request) achieves the above object.

A series of physical channels relevant, transmission channel and processing procedure have been defined among the UTRAN (UMTS grounding wireless access network) with HSDPA.Downstream data packet is with the mode------high speed descending sharing channel (HS-DSCH that is multiplexed into descending transmission channel of burst; High Speed Downlink Shared Channel); Transmission channel HS-DSCH is mapped to high-speed physical downlink shared channel (HS-PDSCH) (HS-PDSCH again; High Speed PhysicalDownlink Shared Channel), this physical channel is that a plurality of users share with the mode that time-division or sign indicating number divide in the sub-district.HS-PDSCH Transmission Time Interval (TTI, TransmissionTime Interval) is 5ms.HS-PDSCH carries user's data information; And the phase related control information that is used for the HS-PDSCH reception transmits through the High-Speed Shared Control Channel of following (HS-SCCH); Article one, HS-SCCH is used for the transmission of uplink feedback information corresponding to a high-speed shared information channel (HS-SICH).These three kinds of physical channels all are that unit handles and transmits with 5msTTI, and are multiple users share.In addition, for the transmission of RRC signaling, 3GPP has also defined the accompanied by physical channel of up-downgoing in R5, is used to carry the relevant RRC signaling with HSDPA.

In 3GPP LCR TDD (low spreading rate TDD) standard, each physics subframe duration is 5ms, and each subframe is made up of 7 conventional time slots and 3 special time slots, and is as shown in Figure 1.In 7 conventional time slots, time slot TS0 always distributes to down link, and TS1 always distributes to up link, and other conventional time slots then can be configured to the upstream or downstream link neatly, but ascending time slot needs configuration continuously.On the HS-SCCH channel, use 5 bit information positions to come (User Equipment at present to UE; Subscriber equipment; Also become user terminal) the indication distributing slot resources, support 5 time slots to be used for descending HS-PDSCH channel, these 5 bits have fixedly been represented TS2, TS3, TS4, TS5, TS6.But; In the TD-SCDMA system, not only TS2, TS3, TS4, TS5, TS6 can be used for downlink transfer, and TS0 also can be used for downlink transfer; Especially in the multi-carrier HSDPA system; TS0 on the auxilliary carrier wave also can be used for carrying out the transmission of HS-DSCH channel, yet, can't satisfy this demand by the design of existing HS-SCCH signaling.

The multi-carrier HSDPA system allows the packet of a user's HSDPA on a plurality of carrier waves, to transmit simultaneously, and Node B (Node B) can send on a plurality of carrier waves simultaneously, and UE can receive the data of HSDPA on a plurality of carrier waves.In present correlation technique standard " People's Republic of China's communication standard " was discussed, multicarrier HSDP system served as that realize on the basis with N frequency TD-SCDMA system.In N frequency TD-SCDMA system; A N frequency point cell comprises a plurality of carrier waves, and a carrier wave in a plurality of carrier waves is a main carrier, and other carrier wave is auxilliary carrier wave; And only on main carrier, set up and the use common signal channel, comprising subdistrict beaconing channel Primary Common Control Physical Channel (P-CCPCH).Present technology thinks that the TS0 time slot of auxilliary carrier wave is obsolete, still; Along with increasing of auxilliary carrier number, the TS0 time slot does not use and can cause a large amount of wastings of resources, and; Because the characteristic of the dynamic dispatching Resources allocation of HSDPA makes the TS0 time interval resource can be used for the HSDPA technology.Therefore, be necessary to provide the time slot allocation indicating means in a kind of new multi-carrier HSDPA system, make TS0 can be used as the HSDPA time interval resource,, improve the capacity of multi-carrier HSDPA system to improve spectrum efficiency.This method need break through the restriction of the time slot indication bit information bit on the above-mentioned HS-SCCH channel, and can not simply on the HS-SCCH channel, 5bit information be expanded to 6bit, because can cause the backwards compatibility problem of agreement like this.

Summary of the invention

To the problem that exists in the prior art; The object of the present invention is to provide a kind of distribution method of dynamic assignment resource; Its time interval resource and other resources in the similar system that can solve in the TD-SCDMA multi-carrier HSDPA system need to expand, but indication information has the problem of agreement backwards compatibility in limited time.

For realizing above-mentioned purpose; The distribution method of a kind of dynamic assignment resource of the present invention may further comprise the steps: step S202; Set the combination of multiple different resources unit according to the number of resource units indicating bit, and be set in the incidence relation of following each resource units of resource units combination and resource units indicating bit; Step S204 when distributing the dynamic assignment resource for terminal initial, selects the incidence relation of a kind of resource units combination and resource units and resource units indicating bit and disposes to give to be the wireless launcher and the terminal of terminal distribution dynamic assignment resource; Step S206; When wireless launcher is given the terminal distribution resource; Make up to terminal distribution dynamic assignment resource for the resource units at terminal according to configuration, the incidence relation of each resource units and resource units indicating bit is provided with the value of the resource units indicating bit on the resource allocation control channel and sends it to the terminal under making up according to resource units; And step S208; The terminal obtains the value of resource units indicating bit from resource allocation control channel, and obtains the assignment information of dynamic assignment resource according to the incidence relation of this value, the combination of resources configured unit of institute and each resource units and resource units indicating bit.

Wherein, the dynamic assignment resource can be a time interval resource.

In step S202, the incidence relation between all time interval resource combinations and each time slot and the time slot indicating bit can be used as system performance, and is fixing and not configurable; Perhaps high-level signaling disposes.

In step S204, can be on a plurality of carrier waves resource allocation, and each carrier wave is set different time interval resource combinations and the incidence relation between each time slot and the time slot indicating bit; Also identical time interval resource combination and the incidence relation between each time slot and the time slot indicating bit can set on all carrier waves.

In step S204, can be the incidence relation of the complete time interval resource combined information of wireless launcher and terminal configuration and each time slot and time slot indicating bit; Also can be wireless launcher and terminal configuration time interval resource combination variety information.Wherein, the incidence relation of known all the time interval resource combination variety in wireless launcher and terminal and each time slot and time slot indicating bit.

In step S204, in configuration messages, can increase an optional configuration information, be used to dispose the time interval resource combination different and the incidence relation of each time slot and time slot indicating bit with existing time interval resource combination.

In step S204,, can select the incidence relation of a kind of time interval resource combination and each time slot and time slot indicating bit by RNC, and send to Node B at network side; Perhaps select the incidence relation of a kind of time interval resource combination and each time slot and time slot indicating bit, and send to RNC by Node B.

In step S204, can be the UE Resources allocation on a plurality of carrier waves, and each carrier wave dispose different time interval resource combinations and the incidence relation between each time slot and the time slot indicating bit; Also identical time interval resource combination and the incidence relation between each time slot and the time slot indicating bit can disposed on all carrier waves.

In step S206 and S208, can be the UE Resources allocation on a plurality of carrier waves, and each carrier wave respectively or unified carry out distributing slot resources, carries out the transmission and the reception of distributing slot resources indication information.

In the present invention, set the combination of different resources unit, and set the incidence relation of following each resource units of each resource units combination and resource units indicating bit, thereby be each terminal distribution dynamic assignment resource according to the allocation indication bit number.The present invention not only can use the dynamic assignment resource by expanding system, and, owing to need not increase the resource units indicating bit on the resource allocation control channel, thus but the backwards compatibility of guarantee agreement.

Description of drawings

The accompanying drawing of explanation is used to provide further understanding of the present invention here, constitutes the application's a part, and illustrative examples of the present invention and explanation thereof are used to explain the present invention, do not constitute to improper qualification of the present invention, in the accompanying drawings:

Fig. 1 is the carrier wave and the structure of time slot sketch map of multi-carrier HSDPA system;

Fig. 2 is the flow chart of the distribution method of Dynamic Resource Allocation for Multimedia of the present invention;

Fig. 3 is according to the time slot allocation indicating bit sketch map on the HS-SCCH channel of the present invention; And

Fig. 4 is the flow chart according to the distribution method of the dynamic assignment resource of in TD-SCDMA multi-carrier HSDPA system, using of the embodiment of the invention.

Embodiment

Describe in detail below in conjunction with accompanying drawing and specific embodiment distribution method dynamic assignment resource of the present invention.

Shown in Figure 2 is the flow chart of the distribution indicating means of dynamic assignment resource of the present invention.As shown in Figure 2, this method comprises:

Step S202 sets the combination of multiple different resources unit according to the allocation indication bit number, and sets the incidence relation of following each resource units of each resource units combination and resource units indicating bit.

Step S204 when distributing the dynamic assignment resource for terminal initial, select the incidence relation of a kind of above-mentioned resource units combination and each resource units and resource units indicating bit, and configuration is to being the wireless launcher and the terminal of terminal distribution dynamic assignment resource.

Step S206; When wireless launcher is given terminal distribution dynamic assignment resource; Distribute the dynamic assignment resource for the resource units combined information at this terminal according to above-mentioned configuration, the incidence relation of each resource units and resource units indicating bit is provided with the value of the resource units indicating bit on the resource allocation control channel and sends to the terminal under making up by this resource units.

Step S208; The terminal receives resource allocation control channel, and obtains the distribution condition of dynamic assignment resource according to the value of the incidence relation of the combination of above-mentioned resources configured unit and each resource units and resource units indicating bit and the resource units indicating bit on the resource allocation control channel.

Wherein, the dynamic assignment resource can be a time interval resource.

In step S202, the incidence relation between all time interval resource combinations and each time slot and the time slot indicating bit can be used as system performance, and is fixing and not configurable; Perhaps high-level signaling disposes.

In step S204, can on a plurality of carrier waves, dispose time interval resource, and each carrier wave is set different time interval resource combinations and the incidence relation between each time slot and the time slot indicating bit; Also identical time interval resource combination and the incidence relation between each time slot and the time slot indicating bit can set on all carrier waves.

In step S204, can be the incidence relation of the complete time interval resource combined information of wireless launcher and terminal configuration and each time slot and time slot indicating bit; Also can be wireless launcher and terminal configuration time interval resource combination variety information.Wherein, the incidence relation of known all the time interval resource combination variety in wireless launcher and terminal and each time slot and time slot indicating bit.

In step S204, in configuration messages, can increase an optional configuration information, be used to dispose the time interval resource combination different and the incidence relation of each time slot and time slot indicating bit with existing time interval resource combination.This distribution method can be used for TD-SCDMA multicarrier system.

In step S204,, can select the incidence relation of a kind of time interval resource combination and each time slot and time slot indicating bit by RNC, and send to Node B at network side; Perhaps select the incidence relation of a kind of time interval resource combination and each time slot and time slot indicating bit, and send to RNC by Node B.

In step S204, can be the UE Resources allocation on a plurality of carrier waves, and each carrier wave dispose different time interval resource combinations and the incidence relation between each time slot and the time slot indicating bit; Also identical time interval resource combination and the incidence relation between each time slot and the time slot indicating bit can disposed on all carrier waves.

In step S206 and S208, can be the UE Resources allocation on a plurality of carrier waves, and each carrier wave carry out distributing slot resources respectively, transmission of distributing slot resources indication information and reception.

Be example with TD-SCDMA multi-carrier HSDPA system below, technical scheme of the present invention elaborated in conjunction with Fig. 4.

In the HSDPA of TD-SCDMA system, time slot is one of dynamic assignment resource, and its resource units is exactly a time slot.In existing 3GPP standard, time interval resource only comprises a time interval resource on the carrier wave, comprises time slot TS2, TS3, TS4, TS5, TS6.And in the multi-carrier HSDPA system; Time interval resource can comprise the time interval resource on a plurality of carrier waves; And with TS0 as behind the HSDPA time interval resource, HSDPA can with time interval resource be increased to 6 from original 5, i.e. time slot TS0, TS2, TS3, TS4, TS5, TS6.The distribution method that specifies dynamic assignment resource of the present invention below should in TD-SCDMA multi-carrier HSDPA system.In this uses, the time slot allocation indicating bit number M=5 on the resource allocation control channel HS-SCCH channel, and be designated b1 respectively, and b2, b3, b4, b5, as shown in Figure 3.When an indicating bit, when promptly bit is corresponding to certain time slot, be 1 like its value, represent that this time slot is occupied, be 0 like value, it is occupied to represent that this time slot does not have.

Fig. 4 is the flow chart according to the distribution method of the dynamic assignment resource of in TD-SCDMA multi-carrier HSDPA system, using of the embodiment of the invention.As shown in Figure 4, this method comprises the steps:

Step S402 sets multiple different time interval resources combination according to time slot allocation indicating bit number, and sets the incidence relation of following each time slot of each time interval resource combination and time slot indicating bit.

In order to make full use of existing resource; Guaranteeing does not simultaneously influence the time interval resource number that a UE is assigned with simultaneously, and time slot allocation indicating bit fixed number is M=5, simultaneously; Consider the characteristics of the resource dynamic scheduling in the HSDPA technology; For simplicity, only set two kinds of different resources combinations, i.e. (as shown in table 1):

Time interval resource combination 1:TS0, TS3, TS4, TS5, TS6;

Time interval resource combination 2:TS2, TS3, TS4, TS5, TS6.

Table 1: the time slot under every kind of time interval resource makes up and the incidence relation of time slot indicating bit

	b1	b2	b3	b4	b5
						Time interval resource combination 1	TS0	TS3	TS4	TS5	TS6
Time interval resource combination 2	TS2	TS3	TS4	TS5	TS6

Wherein, the allocation indication bit number can be set as required.And when M=5, the kind of combination of resources is more than above-mentioned two kinds of situation.

These time interval resource combinations and incidence relation thereof can dispose through following collocation method:

One, as system performance, can not configuration information, network side and/or UE can be used as known system information and preserve.

Two, time interval resource combination and incidence relation thereof also can be realized through the high-level signaling configuration.Be that RNC (Radio network controller, radio network controller) disposes to Node B (through Physical Shared Channel reconfiguration course configuration Node B) and UE (disposing to UE through system information broadcast) through high-level signaling, preserve by Node B and UE.

In the multi-carrier HSDPA system, can on a plurality of carrier waves, dispose the HSDPA resource.Therefore, can set the different time interval resource combinations and the incidence relation of each time slot and time slot indicating bit thereof respectively, also can set the identical time interval resource combination and the incidence relation of each time slot and time slot indicating bit thereof for all carrier waves for each carrier wave.

Step S404 when being UE original allocation HSDPA resource, select the incidence relation of a kind of above-mentioned time interval resource combination and each time slot and time slot indicating bit, and Node B and UE is given in configuration.

When network side when being UE original allocation HSDPA resource, promptly set up/when reshuffling, select the incidence relation of a kind of above-mentioned time interval resource combination and each time slot and time slot indicating bit, and configuration is to Node B and UE at the relevant Radio Link of HSDPA resource.

Information configured can be the incidence relation information of complete time interval resource combined information and each time slot and time slot indicating bit; Also can be time interval resource combination variety information.Wherein, the latter needs the incidence relation of Node B and known all the time interval resource combination variety of UE and each time slot and time slot indicating bit, and collocation method can be referring to step S402.

Particularly, at network side, can select the incidence relation of a kind of time interval resource combination and each time slot and time slot indicating bit by RNC, and Node B is given in configuration.RNC sets up (Radio Link Setup) process at the initiation Radio Link, synchronised radio link reconfigure prepares (Synchronised Radio Link Reconfiguration Preparation) process or asynchronous wireless links is reshuffled (Unsynchronised Radio LinkReconfiguration) process when network side is UE distribution HSDPA resource; Select the incidence relation of a kind of time interval resource combination and each time slot and time slot indicating bit and pass through corresponding " RADIO LINK SETUP REQUEST ", " RADIO LINKRECONFIGURATION PREPARE " or " RADIO LINKRECONFIGURATION REQUEST " message sends to Node B.

At network side, also can select the incidence relation of a kind of time interval resource combination and each time slot and time slot indicating bit, and feed back to RNC by Node B.Set up in process, synchronised radio link reconfigure set-up procedure or the asynchronous wireless links reconfiguration course at Radio Link, Node B selects the incidence relation of a kind of time interval resource combination and each time slot and time slot indicating bit and sends to RNC through corresponding " RADIO LINK SETUP RESPONSE " " RADIOLINK RECONFIGURATION READY " " RADIO LINKRECONFIGURATION RESPONSE " message.

In the UE side; No matter be the incidence relation that RNC or Node B select time interval resource combination and each time slot and time slot indicating bit; RNC connect to set up (RRC connection establishment) process, radio bearer at RRC (Radio Resource control) and sets up (radiobearer establishment) process, radio bearer and reshuffle (radio bearerreconfiguration) process, radio bearer and discharge that (the radio bearer release) process, transmission channel are reshuffled (transport channel reconfiguration) process, physical channel is reshuffled in (physical channel reconfiguration) process, cell update (cellupdate) process, through corresponding " RRC CONNECTION SETUP ", " RADIOBEARER SETUP ", " RADIO BEARER RECONFIGURATION ", " RADIO BEARER RELEASE ", " TRANSPORT CHANNELRECONFIGURATION ", " PHYSICAL CHANNELRECONFIGURATION ", " CELL UPDATE CONFIRM " message the time interval resource combination of selecting and the incidence relation of each time slot and time slot indicating bit thereof is sent to UE.

More simply; If in the incidence relation of multiple time interval resource combination and each time slot and time slot indicating bit; Identical in wherein a kind of and the existing standard; Be 5bit time slot indicating bit corresponding TS2, TS3, TS4, TS5, TS6 respectively, as setting among the step S402, can in configuration messages, increase an optional configuration information so and dispose the time interval resource combination of other kinds and the incidence relation of each time slot and time slot indicating bit thereof.If do not comprise this optional configuration information in the configuration messages, then use time interval resource combination and the incidence relation of each time slot and time slot indicating bit thereof in the existing standard; Otherwise, use the time interval resource combination of other kinds that dispose and the incidence relation of each time slot and time slot indicating bit thereof.Such method can be more prone to realize the backward compatibility of related protocol.

In the multi-carrier HSDPA system, the HSDPA resource of a UE can be distributed on the different carrier waves.Therefore; When being UE original allocation HSDPA resource; Can select and dispose the incidence relation of the combination of a kind of time interval resource and each time slot and time slot indicating bit for each carrier wave respectively, can and dispose also that a kind of time interval resource makes up and the incidence relation of each time slot and time slot indicating bit for all carrier selecting.

Step S406; When Node B dynamic dispatching distributes high-speed physical downlink shared channel (HS-PDSCH) to UE; Time interval resource combined information according to this UE of above-mentioned configuration distributes time interval resource, by this time interval resource combination down the incidence relation of each time slot and time slot indicating bit the value of the time slot indicating bit on the HS-SCCH channel is set and sends to UE.

When Node B dynamic dispatching is UE distribution high-speed physical downlink shared channel (HS-PDSCH) (HS-PDSCH) resource, be combined as this UE distribution time interval resource according to the time interval resource for this UE configuration among the step S404.As setting among the step S402, if this UE configuration is time interval resource combination 1, then Node B distributes time interval resource for this UE at TS0 in TS3, TS4, TS5, these 5 time slots of TS6; If this UE configuration is time interval resource combination 2, then Node B distributes time interval resource for this UE at TS2 in TS3, TS4, TS5, these 5 time slots of TS6.After confirming to distribute time interval resource; Node B is by the incidence relation of each time slot and time slot indicating bit under this time interval resource combination; Distribute time slot time slot corresponding indicating bit to be set to 1; Identifying has the HS-PDSCH physical channel resources to distribute to this UE in this time slot, and sends to UE through resource allocation control channel HS-SCCH.

In the multi-carrier HSDPA system; The HSDPA resource of a UE can be distributed on the different carrier waves; And Node B is when distributing the HS-PDSCH physical channel resources for the UE dynamic dispatching, and each carrier wave is independently to distribute through different HS-SCCH channels respectively.Therefore; To each carrier wave; Node B need distribute time interval resource for the time interval resource combined configuration information of this carrier wave of this UE according to configuration, and by the incidence relation of each time slot and time slot indicating bit under this time interval resource combination the value of the time slot indicating bit on the control channel is set.

Step S408, UE receive the HS-SCCH channel, and obtain the distribution condition of time interval resource according to the value of the incidence relation of the time interval resource combination of above-mentioned configuration and each time slot and time slot indicating bit and the time slot indicating bit on the HS-SCCH channel.

Described in prior art and/or standard; UE receives resource allocation control channel HS-SCCH; Then according to the time interval resource combination of configuration and the incidence relation of each time slot and time slot indicating bit thereof; Resolve the value of the time slot indicating bit on the HS-SCCH channel, thereby obtain the distributed time slot resource, and further receive the high-speed physical downlink shared channel (HS-PDSCH) resource under each assigned slot.

In the multi-carrier HSDPA system; The HSDPA resource of a UE can be distributed on the different carrier waves; UE receives each year of corresponding HS-SCCH channel respectively; And to each carrier wave, obtain the distributing slot resources situation of this carrier wave respectively according to the incidence relation of the time interval resource combination of this carrier wave of configuration and each time slot and time slot indicating bit.

Those skilled in the art will readily understand other advantage of the present invention and modification.Therefore, above-mentioned to embodiment be described as the concrete application implementation of the present invention example, the present invention aspect widely is not limited to shown in this paper and specific detail and the exemplary embodiments described.Therefore, can under the condition that does not break away from claim and the spirit or scope of the present invention that equivalent limited thereof, make various modifications.

Claims (11)

1. the distribution method of a dynamic assignment resource is characterized in that, may further comprise the steps:

Step S202 sets the combination of multiple different resources unit according to the number of resource units indicating bit, and is set in the incidence relation of following each resource units of said resource units combination and resource units indicating bit;

Step S204; When distributing said dynamic assignment resource for terminal initial, incidence relation and the configuration of selecting a kind of said resource units combination and said resource units and resource units indicating bit are to being the wireless launcher and the terminal of terminal distribution dynamic assignment resource;

Step S206; When said wireless launcher is given the terminal distribution resource; Make up to said terminal distribution dynamic assignment resource for the resource units at said terminal according to configuration, the incidence relation of each resource units and resource units indicating bit is provided with the value of the resource units indicating bit on the resource allocation control channel and sends it to said terminal under making up according to said resource units; And

Step S208; Said terminal obtains the value of said resource units indicating bit from said resource allocation control channel, and obtains the assignment information of dynamic assignment resource according to the incidence relation of said value, the combination of resources configured unit of institute and each resource units and resource units indicating bit.

2. the distribution method of dynamic assignment resource according to claim 1 is characterized in that, said dynamic assignment resource is a time interval resource.

3. the distribution method of dynamic assignment resource according to claim 2 is characterized in that, in said step S202, the incidence relation between the combination of all time interval resources and each time slot and the time slot indicating bit is system performance or disposes through high-level signaling.

4. the distribution method of dynamic assignment resource according to claim 2; It is characterized in that; In said step S204, resource allocation on a plurality of carrier waves, each carrier wave are set different time interval resource combinations and the incidence relation between each time slot and the time slot indicating bit.

5. the distribution method of dynamic assignment resource according to claim 2 is characterized in that, in said step S204, is setting identical time interval resource combination and the incidence relation between each time slot and the time slot indicating bit on all carrier waves.

6. according to the distribution method of each described dynamic assignment resource in the claim 2 to 5; It is characterized in that; In said step S204, be the complete time interval resource combined information of said wireless launcher and said terminal configuration and the incidence relation of each time slot and time slot indicating bit.

7. according to the distribution method of each described dynamic assignment resource in the claim 2 to 5; It is characterized in that; In said step S204; Be said wireless launcher and said terminal configuration time interval resource combination variety information, wherein, the incidence relation of known all the time interval resource combination variety in said wireless launcher and said terminal and each time slot and time slot indicating bit.

8. according to the distribution method of each described dynamic assignment resource in the claim 2 to 5; It is characterized in that; In said step S204; In configuration messages, increase an optional configuration information, be used to dispose the time interval resource combination different and the incidence relation of each time slot and time slot indicating bit with existing time interval resource combination.

9. according to the distribution method of each described dynamic assignment resource in the claim 2 to 5, it is characterized in that, select one of in the following manner the incidence relation of said time interval resource combination and each time slot and time slot indicating bit:

Select the incidence relation of said time interval resource combination and each time slot and time slot indicating bit by radio network controller, and send to Node B; And

Select the incidence relation of said time interval resource combination and each time slot and time slot indicating bit by said Node B, and send to said radio network controller.

10. according to the distribution method of each described dynamic assignment resource in the claim 2 to 5; It is characterized in that; In said step S206 and step S208, be that user equipment allocation resource and each carrier wave carry out distributing slot resources and transmission and receiving slot resource allocation indication information respectively or uniformly on a plurality of carrier waves.

11. the distribution method according to each described dynamic assignment resource in the claim 2 to 5 is characterized in that said distribution method is used for TD-SCDMA multicarrier system.

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