CN101778419A - Configuration and sending method of PUCCH (Physical Uplink Control Channel) resources as well as device thereof - Google Patents

Abstract

The invention relates to a configuration method of PUCCH (Physical Uplink Control Channel) resources. The method comprises the following steps of: arranging the same PUCCH format channel starting point for a plurality of downlink component carriers, and arranging different dynamic Acknowledgement/Negative-Acknowledgement (ACK/NACK) resource mapping start offsets, wherein the PUCCH resources of the downlink component carriers correspond to the same uplink component carrier. In the invention, the flexible PUCCH resource sharing is realized by arranging the same PUCCH format channel starting point for the downlink component carriers, and the overhead compaction of dynamic ACK/NACK mapping resources is realized by arranging different dynamic ACK/NACK resource mapping start offsets.

Description

The configuration of PUCCH resource, sending method and device thereof

Technical field

The embodiment of the invention relates to moving communicating field, especially a kind of configuration, sending method and device thereof of physical layer ascending control channel PUCCH resource.

Background technology

In wireless communication system, for communicating by letter between assistant base station and subscriber equipment, subscriber equipment need be to the base station feedback ascending control information.Ascending control information comprises: confirm to reply/to deny and reply that (Acknowledgement/Negative-Acknowledgement ACK/NACK), is used for subscriber equipment and whether correctly receives to the base station designation data; Order indication (Rank Indicator, RI), channel quality indication (Channel Quality Indicator, CQI) and pre-coding matrix indication (PrecodingMatrix Indicator PMI), is used for the down channel quality condition of subscriber equipment to the base station indication measurement; (Scheduling Request Indicator SRI), is used for subscriber equipment to base station requests upstream data resource, the control information relevant with the transmitting uplink data form with other etc. in the dispatch request indication.

At 3GPP (3rd Generation Partnership Project, third generation partner program) E-UTRA (Evolved Universal Terrestrial Radio Access, the terrestrial wireless access of the evolution whole world) in the system, subscriber equipment need be to the above-mentioned ACK/NACK of base station transmits, RI/CQI/PMI and three kinds of ascending control informations of SRI, in order to transmit, the base station is that subscriber equipment has distributed special physical layer ascending control channel (Physical Uplink Control Channel, PUCCH) resource respectively.As shown in Figure 1, schematic diagram for PUCCH resource block to physical resource block mapping in the subframe of prior art, in PUCCH, reserve 4 PUCCH Resource Block, be respectively m=0,1,2,3, one of them PUCCH Resource Block two time slots of a subframe take respectively system on lower sideband.The PUCCH channel by code division multiplexing together, passes through frequency division multiplexing together between different PUCCH Resource Block in a PUCCH Resource Block.

In further evolution (the Further Advancements for E-UTRA) system of 3GPP E-UTRA, support 2 above member carriers (Component Carrier) to condense together and carry out the transmission of bigger bandwidth, wherein each member carrier can be configured to the subscriber equipment of compatible E-UTRA.The E-UTRA subscriber equipment is called for short the LTE subscriber equipment, and the subscriber equipment of the further evolution system of E-UTRA abbreviates the LTE-A subscriber equipment as.From LTE-A subscriber equipment angle, system can dispose unequal downlink member carrier number and uplink member carrier number, and the downlink member carrier number is greater than the uplink member carrier number usually; From the communication system angle, also the downlink member carrier number of possible system is greater than the uplink member carrier number.At this moment, for better compatible LTE subscriber equipment, need in a uplink member carrier, reserve a plurality of downlink member carriers can compatible LTE subscriber equipment the PUCCH resource.

For be implemented in the uplink member carrier reserve a plurality of downlink member carriers can compatible LTE subscriber equipment the PUCCH resource, a kind of implementation is by the initial biasing of different dynamic ack/NACK resource mapping is set in the downlink broadcast information of each member carrier, and the PUCCH resource between the different downlink member carrier is not overlapping mutually.

But the dynamic ack/NACK that shares and compress a plurality of downlink member carriers that can not realize the PUCCH resource of a plurality of downlink member carriers shines upon resource overhead, thereby can't utilize the PUCCH resource of reserving with imitating.

Summary of the invention

The embodiment of the invention provides a kind of collocation method of physical layer uplink control channel resource, to realize that physical layer uplink control channel resource expense shared and dynamic ack/NACK mapping resource is compressed flexibly.

For achieving the above object, the embodiment of the invention provides a kind of collocation method of physical layer ascending control channel PUCCH resource, comprise: a kind of collocation method of physical layer ascending control channel PUCCH resource, it is characterized in that comprising:, reply/deny with different dynamic affirmations and reply resource and shine upon initial biasing for a plurality of downlink member carriers are provided with identical PUCCH form channel starting point; The corresponding same uplink member carrier of the PUCCH resource of wherein said a plurality of downlink member carriers.

For achieving the above object, the embodiment of the invention provides the collocation method of a kind of physical layer uplink control channel resource PUCCH, comprise:, and different dynamic affirmations is set for the downlink member carrier in described a plurality of downlink member carriers replys/deny and reply resource and shine upon initial biasing at least one downlink member carrier in a plurality of downlink member carriers is provided with different PUCCH form channel starting points; The corresponding same uplink member carrier of the PUCCH resource of wherein said a plurality of downlink member carriers.

For achieving the above object, the embodiment of the invention provides a kind of sending method of physical layer uplink control channel resource, comprise: for a plurality of downlink member carriers are provided with identical physical layer ascending control channel form channel starting point, reply/deny with different dynamic affirmations and reply resource and shine upon initial biasing, with described identical physical layer ascending control channel form channel starting point, reply/deny with different dynamic affirmations and reply resource and shine upon initial biasing and send to subscriber equipment; The corresponding same uplink member carrier of the physical layer uplink control channel resource of wherein said a plurality of downlink member carriers.

For achieving the above object, the embodiment of the invention provides a kind of inking device of physical layer ascending control channel PUCCH resource, comprise: first dispensing unit, be used to a plurality of downlink member carriers that identical PUCCH form channel starting point is set, second dispensing unit is used to the different dynamic affirmation of a plurality of downlink member carriers configuration to reply/deny to reply resource and shines upon initial biasing; The corresponding same uplink member carrier of the PUCCH resource of wherein said a plurality of downlink member carriers.

For achieving the above object, the embodiment of the invention provides a kind of dispensing device of physical layer uplink control channel resource, comprising: first dispensing unit is used to a plurality of downlink member carriers that identical physical layer ascending control channel form channel starting point is set; Second dispensing unit, being used to a plurality of downlink member carriers that different dynamic affirmations is set replys/denies and reply resource and shine upon initial biasing, first transmitting element, be used for described identical physical layer ascending control channel form channel starting point, reply/deny with different dynamic affirmations and reply resource and shine upon initial biasing and send to subscriber equipment; The corresponding same uplink member carrier of the physical layer uplink control channel resource of wherein said a plurality of downlink member carriers.

For achieving the above object, the embodiment of the invention provides the inking device of a kind of physical layer uplink control channel resource PUCCH, comprise: first dispensing unit is used at least one downlink member carrier in a plurality of downlink member carriers that different PUCCH form channel starting points is set; Second dispensing unit is used to downlink member carrier in described a plurality of downlink member carrier that different dynamic affirmations is set and replys/deny and reply resource and shine upon initial biasing; The corresponding same uplink member carrier of the PUCCH resource of wherein said a plurality of downlink member carriers.

Collocation method, sending method and the device thereof of embodiment of the invention physical layer uplink control channel resource, by identical or different PUCCH form channel starting point being set for a plurality of downlink member carriers, realized PUCCH resource-sharing flexibly, shine upon initial biasing by different dynamic acks/NACK resource is set, realized the expense compression of dynamic ack/NACK mapping resource.

Description of drawings

Fig. 1 is the schematic diagram of PUCCH resource block to physical resource block mapping in the subframe of prior art;

Fig. 2 is the schematic diagram that concerns of first parameter in the collocation method of embodiment of the invention PUCCH resource, second parameter, the 3rd parameter and the 4th parameter and PUCCH Resource Block;

Fig. 3 is the schematic flow sheet of the collocation method of embodiment of the invention PUCCH resource;

Fig. 4 is one of schematic diagram of up-link carrier and descending carrier in the collocation method of embodiment of the invention PUCCH resource;

Fig. 5 is the schematic diagram of first parameter in the collocation method of the embodiment of the invention one PUCCH resource, second parameter, the 3rd parameter and the 4th parameter;

Fig. 6 be up-link carrier and descending carrier in the collocation method of embodiment of the invention PUCCH resource schematic diagram two;

Fig. 7 is one of schematic diagram of first parameter in the collocation method of embodiment of the invention PUCCH resource, second parameter, the 3rd parameter, the 4th parameter and the 6th parameter;

Fig. 8 be first parameter in the collocation method of embodiment of the invention PUCCH resource, second parameter, the 3rd parameter, the 4th parameter and the 6th parameter schematic diagram two;

Fig. 9 is the schematic diagram of first parameter in the collocation method of embodiment of the invention PUCCH resource, second parameter, the 3rd parameter, the 4th parameter and the 7th parameter;

Figure 10 is the schematic diagram of first parameter in the collocation method of the embodiment of the invention two PUCCH resources, second parameter, the 3rd parameter and the 4th parameter;

Figure 11 is the structural representation of the inking device of the embodiment of the invention three PUCCH resources;

Figure 12 is the structural representation of the dispensing device of the embodiment of the invention four PUCCH resources;

Figure 13 is the structural representation of the inking device of the embodiment of the invention five PUCCH resources.

Embodiment

Below by drawings and Examples, the technical scheme of the embodiment of the invention is described in further detail.

In 3GPP E-UTRA system, two class PUCCH channel architectures are arranged, first kind is called PUCCH form 1/1a/1b channel, and second kind is called PUCCH form 2/2a/2b channel.The effect of PUCCH form 1/1a/1b channel is that subscriber equipment is to base station feedback SRI or ACK/NACK information; The effect of PUCCH form 2/2a/2b channel is that subscriber equipment is to base station feedback RI/CQI/PMI information, perhaps simultaneously to base station feedback RI/CQI/PMI and ACK/NACK information.PUCCH form 1/1a/1b channel by the permanent width of cloth zero autocorrelation sequence cyclic shift and quadrature piece frequency expansion sequence code division multiplexing on a PUCCH Resource Block, the cyclic shift code division multiplexing of PUCCH form 2/2a/2b channel by the permanent width of cloth zero autocorrelation sequence is on a PUCCH Resource Block, and the cyclic shift code division multiplexing that PUCCH form 1/1a/1b channel and PUCCH form 2/2a/2b channel also can be by the zero autocorrelation sequences of the permanent width of cloth is on a PUCCH Resource Block.The PUCCH Resource Block of simultaneously multiplexing PUCCH form 1/1a/1b channel and PUCCH form 2/2a/2b channel is called as PUCCH mixing Resource Block.

And in 3GPP E-UTRA system, for the PUCCH reserved resource is by first parameter

Second parameter

The 3rd parameter

With the 4th parameter

Dispose, wherein first parameter

Start offset, the while of expression physical layer Uplink Shared Channel when doing Frequency Hopping also is the maximum resource piece number that can be used for the PUCCH Channel Transmission in the time slot, second parameter

Expression only is used to transmit the maximum resource piece number of PUCCH form 2/2a/2b channel, the 3rd parameter

Be illustrated in the cyclic shift number of banner zero autocorrelation sequence of distributing to PUCCH form 1/1a/1b channel on the PUCCH mixing Resource Block, the 4th parameter

The initial biasing that expression dynamic ack/NACK resource is shone upon in all PUCCH form 1/1a/1b channels.Dynamic ack/NACK resource is meant the ACK/NACK resource corresponding with the control channel element numerals implicit expression of physical layer descending control channel.As shown in Figure 2, be first parameter in the collocation method of embodiment of the invention PUCCH resource

Second parameter

The 3rd parameter With the 4th parameter

The schematic diagram that concerns with the PUCCH Resource Block.Among the figure, m represents PUCCH Resource Block label.Before

It is individual that (label is that m=0 arrives

) the PUCCH Resource Block can be used for transmitting PUCCH form 2/2a/2b channel, label is The PUCCH Resource Block be to mix the PUCCH Resource Block, wherein have The cyclic shift of individual banner zero autocorrelation sequence is used to transmit PUCCH form 1/1a/1b channel, and the PUCCH Resource Block of all the other labels can be used for transmitting PUCCH form 1/1a/1b channel.Can see that the starting point of PUCCH form 2/2a/2b channel is exactly the starting point of PUCCH Resource Block, not need notice; The starting point of PUCCH form 1/1a/1b channel then determines that by second parameter and the 3rd parameter notice second parameter provides starting point and is positioned at which PUCCH Resource Block, and the 3rd parameter further is given in the starting point in the PUCCH Resource Block.

The embodiment of the invention is utilized the PUCCH resource distribution parameter of 3GPP E-UTRA system, in a uplink member carrier be a plurality of downlink member carriers reserve can compatible LTE subscriber equipment the PUCCH resource, realize the expense compression method of PUCCH resource-sharing and dynamic ack/NACK mapping resource.

Embodiment one

As shown in Figure 3, the collocation method of the embodiment of the invention one PUCCH resource is for for a plurality of downlink member carriers identical PUCCH form channel starting point being set, and replys/denies with different dynamic affirmations and reply resource and shine upon initial biasing; The corresponding same uplink member carrier of the PUCCH resource of wherein said a plurality of downlink member carriers.Wherein this is provided with identical PUCCH form channel starting point and is specially identical second parameter and the 3rd parameter are set, and wherein second parametric representation is used to transmit the maximum resource piece number of PUCCH form 2/2a/2b channel; The 3rd parameter is the cyclic shift number that is illustrated in banner zero autocorrelation sequence of distributing to PUCCH form 1/1a/1b channel on the PUCCH mixing Resource Block.Wherein this is provided with different dynamic affirmations and replys/deny and reply resource and shine upon initial biasing and be specially different the 4th parameters are set, and wherein the 4th parametric representation is dynamically confirmed to reply/deny reply the initial biasing that resource is shone upon in all PUCCH form 1/1a/1b channels.Wherein when maximum control channel number of unit that the 4th parameter difference of the 4th parameter of second member carrier and first member carrier is not less than that this first member carrier takies, the dynamic affirmation that this first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and do not have and overlap each other; Or when maximum control channel number of unit that the 4th parameter difference of the 4th parameter of second member carrier and first member carrier takies less than this first member carrier, the dynamic affirmation that this first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and overlap each other; Wherein second member carrier is the next member carrier of first carrier.Wherein in the further evolution system of 3GPP E-UTRA,, in the downlink member carrier of compatible LTE subscriber equipment, still need broadcast announcement first parameter, second parameter, the 3rd parameter and the 4th parameter for compatible LTE subscriber equipment better.These parameters are that LTE subscriber equipment and LTE-A subscriber equipment can both receive.

Angle from communication system, when the downlink member carrier number is greater than the uplink member carrier number in the system, have all subscriber equipmenies of dispatching in a plurality of downlink member carriers and all will arrive and obtain the PUCCH resource in the identical uplink member carrier, the base station obtains identical second parameter of broadcast announcement in a plurality of downlink member carriers of PUCCH resource in the identical uplink member carrier at these

With the 3rd parameter

Identical PUCCH form 1/1a/1b channel starting point is set, different the 4th parameters of notice

Different dynamic acks/NACK resource is set shines upon initial biasing.

As shown in Figure 4, be one of the schematic diagram of up-link carrier and descending carrier in the collocation method of embodiment of the invention PUCCH resource, among the figure, descending carrier has 4 downlink member carriers, be respectively downlink member carrier 1, downlink member carrier 2, downlink member carrier 3 and downlink member carrier 4, up-link carrier has 3 uplink member carrier, be respectively uplink member carrier 1, uplink member carrier 2 and uplink member carrier 3, arrow is the uplink member carrier indication at the PUCCH place of downlink member carrier correspondence, all users of downlink member carrier 3 and downlink member carrier 4 scheduling will obtain the PUCCH resource in uplink member carrier 3, by in downlink member carrier 3 second parameter identical with broadcast announcement in the downlink member carrier 4

With the 3rd parameter

The 4th different parameters

Just can in uplink member carrier 3 be downlink member carrier 3 and downlink member carrier 4 reserve can compatible LTE subscriber equipment the PUCCH resource, second parameter of these broadcast announcements

With the 3rd parameter

The 4th different parameters

Can be received by LTE subscriber equipment and LTE-A subscriber equipment.

In this case, each downlink member carrier all only needs by broadcast to notification of user equipment one cover PUCCH resource distribution parameter, i.e. first parameter

Second parameter

The 3rd parameter

With the 4th parameter

The base station is by sending identical PUCCH resource distribution second parameter in a plurality of downlink member carriers like this The 3rd parameter With different PUCCH resource distribution the 4th parameters

Be implemented in the uplink member carrier for these a plurality of downlink member carriers reserve can compatible LTE subscriber equipment the PUCCH resource.

As shown in Figure 5, be first parameter in the collocation method of the embodiment of the invention one PUCCH resource

Second parameter

The 3rd parameter

With the 4th parameter

Schematic diagram, wherein

The 4th parameter of representing i downlink member carrier

As we can see from the figure, be i and be provided with the 4th different parameters respectively with i+1 downlink member carrier With

Further, no matter whether the downlink member carrier number equals the uplink member carrier number in the system, a LTE subscriber equipment can only identify a downlink member carrier and a uplink member carrier, simultaneously a LTE-A subscriber equipment can identify n1 downlink member carrier and n2 uplink member carrier, and wherein n1 descending carrier and n2 uplink member carrier are that the base station is that LTE-A user device configuration, n1 〉=1, n2 〉=1 and n1 and n2 can be unequal.Can identify a downlink member carrier and a uplink member carrier is called a pair of paired member carrier by a LTE subscriber equipment, otherwise be called member carrier in pairs.

As shown in Figure 6, be two of the schematic diagram of up-link carrier and descending carrier in the collocation method of embodiment of the invention PUCCH resource, descending carrier in the system has 4 downlink member carriers, be respectively downlink member carrier 1, downlink member carrier 2, downlink member carrier 3 and downlink member carrier 4, up-link carrier in the system has 4 uplink member carrier, be respectively uplink member carrier 1, uplink member carrier 2, uplink member carrier 3 and uplink member carrier 4 have been formed 4 and have been formed member carrier (downlink member carrier 1 and uplink member carrier 1, downlink member carrier 2 and uplink member carrier 2, downlink member carrier 3 and uplink member carrier 3, downlink member carrier 4 and uplink member carrier 4).Figure hollow core arrow is represented the uplink member carrier indication at PUCCH place of the downlink member carrier correspondence of LTE subscriber equipment, and filled arrows is represented the uplink member carrier indication at PUCCH place of the downlink member carrier correspondence of LTE-A subscriber equipment.The base station has been certain LTE-A user device configuration also 3 downlink member carriers, promptly downlink member carrier 2, downlink member carrier 3 and downlink member carrier 4 and 1 uplink member carrier are uplink member carrier 3.When the base station has disposed a plurality of downlink member carriers and a plurality of uplink member carrier simultaneously for certain LTE-A subscriber equipment, the PUCCH resource of a plurality of downlink member carriers of this subscriber equipment can be distributed in a plurality of uplink member carrier to be obtained, and also can focus on a uplink member carrier, be called in the up main member carrier of this LTE-A subscriber equipment and obtain.

To the LTE-A subscriber equipment, the base station can dispose a plurality of downlink member carriers to support the transfer of data of higher rate for it, and the ACK/NACK bit number of feedback is more than the LTE subscriber equipment.The ACK/NACK feedback of LTE-A subscriber equipment can adopt PUCCH form 1/1a/1b channel, also can adopt PUCCH form 2/2a/2b channel.These two kinds of channel formats all are that the LTE subscriber equipment is supported, the ACK/NACK feedback of LTE-A subscriber equipment adopts these two kinds of channel formats can allow LTE subscriber equipment and LTE-A subscriber equipment coexist better in system.The physical layer descending control channel of LTE-A subscriber equipment and LTE subscriber equipment may be identical to the timing relationship of uplink ACK/NACK feedback, also may be different.

Definition LTE-A subscriber equipment carrier wave is as follows: when LTE subscriber equipment and LTE-A subscriber equipment have different physical layer descending control channels when the ACK/NACK feedback of the timing relationship of uplink ACK/NACK feedback and LTE-A subscriber equipment adopts PUCCH form 1/1a/1b channel, assignment put to the LTE-A subscriber equipment in pairs and paired downlink member carrier; When LTE subscriber equipment and LTE-A subscriber equipment have identical physical layer descending control channel when the ACK/NACK feedback of the timing relationship of uplink ACK/NACK feedback and LTE-A subscriber equipment adopts PUCCH form 1/1a/1b channel, the downlink member carrier in pairs to the LTE-A subscriber equipment is put in assignment; When the ACK/NACK of LTE-A subscriber equipment feedback adopted PUCCH form 2/2a/2b channel, assignment was put to the paired of LTE-A subscriber equipment and paired downlink member carrier.

The base station also will notify the dynamic ack/NACK resource of LTE-A subscriber equipment carrier wave to shine upon initial biasing except first parameter, second parameter, the 3rd parameter and the 4th parameter of the paired uplink member carrier of each downlink member carrier broadcast announcement.Identical PUCCH form 1/1a/1b channel starting point is set this moment is meant that the LTE-A subscriber equipment carrier wave for obtain the PUCCH resource in a uplink member carrier is provided with identical PUCCH form 1/1a/1b channel starting point with paired downlink member carrier.Because first parameter of broadcast announcement, second parameter, the 3rd parameter and the 4th parameter are that LTE subscriber equipment and LTE-A subscriber equipment can receive in descending paired member carrier, second parameter by broadcast announcement just can be provided with identical PUCCH form 1/1a/1b channel starting point for LTE-A subscriber equipment carrier wave and the paired downlink member carrier that obtains the PUCCH resource in a uplink member carrier with the 3rd parameter.The concrete mode that the dynamic ack/NACK resource of notice LTE-A subscriber equipment carrier wave is shone upon initial biasing can be that the base station is passed through the proprietary high-level signaling of LTE-A subscriber equipment and shone upon initial biasing for the dynamic ack/NACK resource of each its carrier wave of LTE-A notification of user equipment separately; Perhaps dynamic ack/NACK the resource of base station broadcast notice LTE-A subscriber equipment carrier wave is shone upon initial biasing, further, with the paired downlink member carrier of uplink member carrier in the dynamic ack/NACK resource of broadcast announcement LTE-A subscriber equipment carrier wave shine upon initial biasing.

When the ACK/NACK of LTE-A subscriber equipment feedback adopted PUCCH form 1/1a/1b channel, it can be to reinform one the 6th parameter for each the LTE-A subscriber equipment carrier wave that corresponds to this uplink member carrier that the dynamic ack of above-mentioned LTE-A subscriber equipment carrier wave/NACK resource is shone upon initial biasing

Wherein

The initial biasing that the dynamic ack/NACK resource of expression LTE-A subscriber equipment carrier wave is shone upon in all PUCCH form 1/1a/1b channels.As shown in Figure 7, be first parameter in the collocation method of embodiment of the invention PUCCH resource

Second parameter

The 3rd parameter

The 4th parameter

With the 6th parameter

One of the schematic diagram of (being that each LTE-A subscriber equipment carrier wave increases notice), among the figure, the 4th parameter Dynamic ack/NACK the resource that is expressed as downlink member carrier is shone upon initial biasing, the 6th parameter With

Dynamic ack/NACK resource of representing i and i+1 LTE-A subscriber equipment carrier wave is respectively shone upon initial biasing.Dynamic ack/NACK resource the implicit mapping mode of the similar 3GPP E-UTRA FDD of employing system in each downlink member carrier.

When the ACK/NACK of LTE-A subscriber equipment feedback adopted PUCCH form 1/1a/1b channel and LTE-A subscriber equipment also to know the system bandwidth of all the LTE-A subscriber equipment carrier waves corresponding with this uplink member carrier, it can be to reinform the 6th a common parameter for all LTE-A subscriber equipment carrier waves that correspond to this uplink member carrier that the dynamic ack of above-mentioned LTE-A subscriber equipment carrier wave/NACK resource is shone upon initial biasing

As shown in Figure 8, be first parameter in the collocation method of embodiment of the invention PUCCH resource

Second parameter

The 3rd parameter The 4th parameter

With the 6th parameter

Schematic diagram two, among the figure, the 4th parameter

Dynamic ack/NACK the resource that is expressed as downlink member carrier is shone upon initial biasing, the 6th parameter

Dynamic ack/NACK resource of representing all LTE-A subscriber equipment carrier waves is shone upon initial biasing.Dynamic ack/NACK resource the implicit mapping mode of the similar 3GPP E-UTRA FDD of employing system in the paired downlink member carrier, the many subframes dynamic ack/NACK resource implicit mapping mode of the similar 3GPP E-UTRA TDD of employing system between the LTE-A subscriber equipment carrier wave.

When the ACK/NACK of LTE-A subscriber equipment feedback adopted PUCCH form 2/2a/2b channel, it can be to reinform one the 7th parameter for the LTE-A subscriber equipment that corresponds to this uplink member carrier that the dynamic ack of above-mentioned LTE-A subscriber equipment carrier wave/NACK resource is shone upon initial biasing

The 7th parameter wherein The initial biasing that dynamic ack/the NACK resource is shone upon in all PUCCH form 2/2a/2b channels of expression LTE-A subscriber equipment.As shown in Figure 9, be first parameter in the configuration side of embodiment of the invention PUCCH resource

Second parameter

The 3rd parameter The 4th parameter

With the 7th parameter

Schematic diagram, adopt in pairs the dynamic ack/NACK resource implicit mapping mode of similar 3GPP E-UTRA FDD system among the figure in the downlink member carrier, LTE-A subscriber equipment carrier wave also can adopt the implicit mapping mode of the physical layer descending control channel of similar 3GPPE-UTRA system to dynamic ack/NACK resource.

The 4th parameter can be passed through in the base station

Whether being controlled at identical uplink member carrier, to obtain dynamic ack between a plurality of downlink member carriers of PUCCH resource/NACK mapping resource overlapped, configuration is not overlapping mutually when not doing the compression of dynamic ack/NACK mapping resource, and configuration overlaps each other when doing dynamic ack/NACK resource compression.All downlink member carriers that obtain the PUCCH resource in identical uplink member carrier have the starting point of identical PUCCH form 1/1a/1b channel Mapping, and for i member carrier, its dynamic ack/NACK mapping resource is with the 4th parameter For starting point continuously

Individual PUCCH form 1/1a/1b channel, wherein

Represent maximum CCE (Control Channel Element, the control channel unit) number that the PDCCH of i member carrier takies; PUCCH resource except that dynamic ack/NACK mapping resource then is shared fully between these downlink member carriers.

When the PUCCH resource except that dynamic ack/NACK mapping resource when a plurality of downlink member carriers are shared fully, the 4th parameter of next member carrier of a member carrier is set The 4th parameter with this descending member carrier

Difference is not less than the maximum control channel number of unit that this member carrier takies

The time, the dynamic ack of this descending member carrier and next downlink member carrier/NACK mapping resource does not have and overlaps each other.When the PUCCH resource except that dynamic ack/NACK mapping resource when a plurality of downlink member carriers are shared fully, the 4th parameter of next member carrier of a member carrier is set

The 4th parameter with this descending member carrier

The maximum control channel number of unit that difference takies less than this descending member carrier

The time, the dynamic ack of this descending member carrier and next downlink member carrier/NACK mapping resource overlaps each other.

Promptly work as

The time, the dynamic ack of i downlink member carrier and i+1 downlink member carrier/NACK mapping resource non-overlapping copies; When

The time, the dynamic ack of i downlink member carrier and i+1 downlink member carrier/NACK mapping resource has the part that overlaps each other.Thereby the base station can be passed through the 4th parameter at an easy rate

It is overlapping to control that the dynamic ack of i downlink member carrier and i+1 downlink member carrier/whether NACK mapping resource has, thereby whether control does dynamic ack/NACK mapping resource compression.

Idle dynamic ack/NACK Resource Block can discharge to the up shared data channel of physical layer and use, and a kind of preferred mode is for the initial bias of the maximum dynamic ack of the member carrier configuration of system bandwidth maximum/NACK mapping, promptly disposes the 4th parameter

The value maximum.

Again as shown in Figure 6, having only dynamic ack/NACK mapping resource is that each member carrier is mutually different, and all the other PUCCH channel resources all are to share between all member carriers.Consider in 3GPP E-UTRA system and shine upon the acquisition except dynamic ack/NACK channel comes implicit expression by PDCCH, all to be the base station by high-level signaling show remaining PUCCH channel resource distributes to subscriber equipment, thus this part channel resource to share between all member carriers be favourable.

For example the load of i member carrier is lighter, makes that (Orthogonal Frequency Division Multiplexing, OFDM) symbolic number does not reach the OFDM number of symbols that maximum can take to the OFDM that PDCCH takies in each subframe.Suppose that the maximum OFDM symbolic number that PDCCH takies is N, in 3GPP E-UTRA system, according to system bandwidth, the value of N can be 3 or 4.According to the loading condition of member carrier, the base station can predict that the OFDM symbolic number that PDCCH takies in a period of time next is no more than n, 0＜n≤N.When reserving dynamic ack/NACK mapping resource for this member carrier, configurable

Wherein

CCE number when the PDCCH that represents i member carrier takies n OFDM symbol.In system, if each member carrier is not done load balancing, so above-mentioned configuration can be carried out respectively each member carrier, and promptly each member carrier can have different n values; If each member carrier is done load balancing, so above-mentioned configuration can be all identical to all member carriers, and promptly all member carriers are got identical n value.

For example limiting the initial CCE that PDCCH takies can only be the multiple label of M, and the 4th parameter of the adjacent member carrier of M equal bandwidth can be set

Between only differ a constant, for example 1, biasing; Perhaps the member carrier with the big bandwidth of m1 matches with the member carrier that m2 organizes little bandwidth, and m1+m2≤M wherein disposes the 4th parameter between the initial member carrier of different matched groups

Between only differ a constant, for example 1, biasing, the 4th parameter in the configuration matched group between the adjacent little bandwidth member carrier Make

Perhaps

In 3GPP E-UTRA system, the dynamic ack of subscriber equipment/NACK resource label is to obtain by certain rule mapping by the initial CCE label that its PDCCH takies.In frequency division duplex system, dynamic ack/NACK resource label is initial CCE label and the 4th parameter of PDCCH

Sum.It can only be even-numbered that the member carrier (being designated as member carrier i and i+1) of supposing to have two bandwidth to equate all limits the initial CCE that PDCCH takies, and the base station can dispose

The bandwidth of supposing member carrier is unequal, the initial CCE that restriction PDCCH takies can only be an even-numbered, do not introduce the resource compression in the example one simultaneously, and at this time the member carrier i of a big bandwidth can with the member carrier { j1 of one group of little bandwidth, j2} matches and carries out dynamic ack/NACK mapping resource compression, and the base station can dispose

$N_{\mathrm{PUCCH},j2}^{\left(1\right)}-N_{\mathrm{PUCCH},j1}^{\left(1\right)}={\mathrm{<figure-callout\; id="1"\; label="N\; j"\; filenames="H2009100014910E0000011.png,H2009100014910E0000012.png"\; state="\{\{state\}\}">N</figure-callout>}}_j^1.$

The base station also will be to LTE-A notification of user equipment the 6th parameter except first parameter, second parameter, the 3rd parameter and the 4th parameter of the paired uplink member carrier of each downlink member carrier broadcast announcement

Or the 7th parameter Dynamic ack/NACK the resource that its objective is notice LTE-A subscriber equipment carrier wave is shone upon initial biasing.Dynamic ack/NACK resource mapping of considering LTE-A subscriber equipment carrier wave only occurs in the LTE-A subscriber equipment, and the dynamic ack of this part/NACK mapping ruler can not considered the compatibility of LTE subscriber equipment.For the dynamic ack/NACK resource overhead that reduces LTE-A subscriber equipment carrier wave, can increase dynamic ack/NACK resource size that notice is reserved for LTE-A subscriber equipment carrier wave, perhaps the linear expansion factor.When increasing the notice linear expansion factor, base station and LTE-A subscriber equipment can calculate the dynamic ack/NACK resource size of reservation according to the maximum control channel number of unit corresponding with the system bandwidth of LTE-A subscriber equipment carrier wave; When the ACK/NACK of LTE-A subscriber equipment feedback adopted PUCCH form 2/2a/2b channel, base station and LTE-A subscriber equipment can also calculate the dynamic ack/NACK resource size of reservation according to the maximum control channel number of unit corresponding with the system bandwidth of paired downlink member carrier.

Shining upon initial biasing when the dynamic ack/NACK resource of LTE-A subscriber equipment carrier wave is to reinform one the 6th parameter for each the LTE-A subscriber equipment carrier wave that corresponds to this uplink member carrier

The time, increase dynamic ack/NACK resource size that notice is reserved for each LTE-A subscriber equipment carrier wave, perhaps increase the linear expansion factor notify each LTE-A subscriber equipment carrier wave, perhaps increase and notify one all are corresponded to the identical linear expansion factor of all LTE-A subscriber equipment carrier waves of this uplink member carrier.

Shining upon initial biasing when the dynamic ack/NACK resource of LTE-A subscriber equipment carrier wave is to reinform the 6th a common parameter for all LTE-A subscriber equipment carrier waves that correspond to this uplink member carrier

Increase total dynamic ack/NACK resource size that notice is reserved, perhaps increase and notify a common linear expansion factor.

Above-mentioned increase is notified the parameter of dynamic ack/NACK resource size of reserving for each LTE-A subscriber equipment carrier wave and is increased the resource size and the linear expansion factor notified and can send by the broadcast parameter transmission or by the proprietary high-level signaling of subscriber equipment.

The collocation method embodiment one of PUCCH resource of the present invention utilizes among the PUCCH of 3GPP E-UTRA system, and the base station does not obtain the first identical parameter of downlink member transmission of physical layer uplink control channel resource to each in corresponding uplink member carrier

Second parameter

The 3rd parameter

With the 4th different parameters

For a plurality of downlink member carriers are provided with identical PUCCH form channel starting point, shine upon initial biasing with different dynamic ack/NACK resources, make in a uplink member carrier for a plurality of downlink member carriers reserve can compatible LTE subscriber equipment the PUCCH resource, so can support the expense compression of PUCCH resource-sharing flexibly and dynamic ack/NACK mapping resource, and make the further evolution system of 3GPP E-UTRA can be compatible better 3GPP E-UTRA system.

Embodiment two

In the above-described embodiments, except dynamic ack/NACK mapping resource, the PUCCH resource of remainder is all shared between all member carriers fully.And can be by the second different parameters is set

And/or the 3rd parameter

Make the PUCCH resource part outside dynamic ack/NACK mapping resource share, and can pass through the 4th parameter

Whether dynamic ack/NACK mapping resource of controlling between a plurality of downlink member carriers is overlapped.

The collocation method of the PUCCH resource of the embodiment of the invention two is at least one downlink member carrier in a plurality of downlink member carriers is provided with different PUCCH form 1/1a/1b channel starting points, shines upon initial biasing setting for the downlink member carrier in a plurality of downlink member carriers is provided with different dynamic acks/NACK resource; Wherein said a plurality of downlink member carrier obtains the PUCCH resource in same uplink member carrier.

In the further evolution system of 3GPP E-UTRA,, in the downlink member carrier of compatible LTE subscriber equipment, still need broadcast announcement first parameter, second parameter, the 3rd parameter and the 4th parameter for compatible LTE subscriber equipment better.These parameters are that LTE subscriber equipment and LTE-A subscriber equipment can both receive.

Angle from communication system, when the downlink member carrier number is greater than the uplink member carrier number in the system, have all subscriber equipmenies of dispatching in a plurality of downlink member carriers and all will arrive and obtain the PUCCH resource in the identical uplink member carrier, the base station obtains the second different parameter of broadcast announcement in a plurality of downlink member carriers of PUCCH resource in the identical uplink member carrier at these

And/or the 3rd parameter

Different PUCCH form 1/1a/1b channel starting points is set, different the 4th parameters of notice

Different dynamic acks/NACK resource is set shines upon initial biasing.

As shown in Figure 4, be one of the schematic diagram of up-link carrier and descending carrier in the collocation method of embodiment of the invention PUCCH resource, among the figure, descending carrier has 4 downlink member carriers, be respectively downlink member carrier 1, downlink member carrier 2, downlink member carrier 3 and downlink member carrier 4, up-link carrier has 3 uplink member carrier, be respectively uplink member carrier 1, uplink member carrier 2 and uplink member carrier 3, arrow is the uplink member carrier indication at the PUCCH place of downlink member carrier correspondence, all users of downlink member carrier 3 and downlink member carrier 4 scheduling will obtain the PUCCH resource in uplink member carrier 3, by in downlink member carrier 3 second parameter different with broadcast announcement in the downlink member carrier 4

And/or the 3rd parameter

The 4th different parameters

Just can in uplink member carrier 3 be downlink member carrier 3 and downlink member carrier 4 reserve can compatible LTE subscriber equipment the PUCCH resource, second parameter of these broadcast announcements

With the 3rd parameter

The 4th different parameters

Can be received by LTE subscriber equipment and LTE-A subscriber equipment.In this case, each downlink member carrier all only needs by broadcast to notification of user equipment one cover PUCCH resource distribution parameter, i.e. first parameter

Second parameter

The 3rd parameter

With the 4th parameter

As shown in figure 10, be collocation method first parameter of the embodiment of the invention two PUCCH resources

Second parameter The 3rd parameter

With the 4th parameter

Schematic diagram, wherein

With

Second parameter, the 3rd parameter and the 4th parameter of representing i downlink member carrier respectively.As we can see from the figure, be i and be provided with the second different parameters respectively with i+1 downlink member carrier

With

The 3rd parameter

With

The 4th parameter

With

Further, no matter whether the downlink member carrier number equals the uplink member carrier number in the system, a LTE subscriber equipment can only identify a downlink member carrier and a uplink member carrier, simultaneously a LTE-A subscriber equipment can identify n1 downlink member carrier and n2 uplink member carrier, and wherein n1 descending carrier and n2 uplink member carrier are that the base station is that LTE-A user device configuration, n1 〉=1, n2 〉=1 and n1 and n2 can be unequal.Can identify a downlink member carrier and a uplink member carrier is called a pair of paired member carrier by a LTE subscriber equipment, otherwise be called member carrier in pairs.

As shown in Figure 6, be two of the schematic diagram of up-link carrier and descending carrier in the collocation method of embodiment of the invention PUCCH resource, descending carrier in the system has 4 downlink member carriers, be respectively downlink member carrier 1, downlink member carrier 2, downlink member carrier 3 and downlink member carrier 4, up-link carrier in the system has 4 uplink member carrier, be respectively uplink member carrier 1, uplink member carrier 2, uplink member carrier 3 and uplink member carrier 4 have been formed 4 and have been formed member carrier (downlink member carrier 1 and uplink member carrier 1, downlink member carrier 2 and uplink member carrier 2, downlink member carrier 3 and uplink member carrier 3, downlink member carrier 4 and uplink member carrier 4).Figure hollow core arrow is represented the uplink member carrier indication at PUCCH place of the downlink member carrier correspondence of LTE subscriber equipment, and filled arrows is represented the uplink member carrier indication at PUCCH place of the downlink member carrier correspondence of LTE-A subscriber equipment.The base station has been certain LTE-A user device configuration also 3 downlink member carriers, promptly downlink member carrier 2, downlink member carrier 3 and downlink member carrier 4 and 1 uplink member carrier are uplink member carrier 3.When the base station has disposed a plurality of downlink member carriers and a plurality of uplink member carrier simultaneously for certain LTE-A subscriber equipment, the PUCCH resource of a plurality of downlink member carriers of this subscriber equipment can be distributed in a plurality of uplink member carrier to be obtained, and also can focus on a uplink member carrier, be called in the up main member carrier of this LTE-A subscriber equipment and obtain.

To the LTE-A subscriber equipment, the base station can dispose a plurality of downlink member carriers to support the transfer of data of higher rate for it, and the ACK/NACK bit number of feedback is more than the LTE subscriber equipment.The ACK/NACK feedback of LTE-A subscriber equipment can adopt PUCCH form 1/1a/1b channel, also can adopt PUCCH form 2/2a/2b channel.These two kinds of channel formats all are that the LTE subscriber equipment is supported, the ACK/NACK feedback of LTE-A subscriber equipment adopts these two kinds of channel formats can allow LTE subscriber equipment and LTE-A subscriber equipment coexist better in system.The physical layer descending control channel of LTE-A subscriber equipment and LTE subscriber equipment may be identical to the timing relationship of uplink ACK/NACK feedback, also may be different.

Definition LTE-A subscriber equipment carrier wave is as follows: when LTE subscriber equipment and LTE-A subscriber equipment have different physical layer descending control channels when the ACK/NACK feedback of the timing relationship of uplink ACK/NACK feedback and LTE-A subscriber equipment adopts PUCCH form 1/1a/1b channel, assignment put to the LTE-A subscriber equipment in pairs and paired downlink member carrier; When LTE subscriber equipment and LTE-A subscriber equipment have identical physical layer descending control channel when the ACK/NACK feedback of the timing relationship of uplink ACK/NACK feedback and LTE-A subscriber equipment adopts PUCCH form 1/1a/1b channel, the downlink member carrier in pairs to the LTE-A subscriber equipment is put in assignment; When the ACK/NACK of LTE-A subscriber equipment feedback adopted PUCCH form 2/2a/2b channel, assignment was put to the paired of LTE-A subscriber equipment and paired downlink member carrier.

The base station also will notify the dynamic ack/NACK resource of LTE-A subscriber equipment carrier wave to shine upon initial biasing except first parameter, second parameter, the 3rd parameter and the 4th parameter of the paired uplink member carrier of each downlink member carrier broadcast announcement.Because first parameter of broadcast announcement, second parameter, the 3rd parameter and the 4th parameter are that LTE subscriber equipment and LTE-A subscriber equipment can receive in descending paired member carrier, second parameter by broadcast announcement just can be provided with identical PUCCH form 1/1a/1b channel starting point for LTE-A subscriber equipment carrier wave and the paired downlink member carrier that obtains the PUCCH resource in a uplink member carrier with the 3rd parameter.To LTE-A subscriber equipment carrier wave, it is different with the starting point of the PUCCH form 1/1a/1b channel of being determined by second parameter and the 3rd parameter of broadcast announcement in the paired downlink member carrier that PUCCH form 1/1a/1b channel starting point can be arranged to, at this moment, the maximum resource piece number that is used to transmit PUCCH form 2/2a/2b channel that also will notify LTE-A subscriber equipment carrier wave to think

Cyclic shift number with the banner of on PUCCH mixing Resource Block, distributing to PUCCH form 1/1a/1b channel zero autocorrelation sequence The concrete mode that the dynamic ack/NACK resource of notice LTE-A subscriber equipment carrier wave is shone upon initial biasing can be that the base station is passed through the proprietary high-level signaling of LTE-A subscriber equipment and shone upon initial biasing and possible for the dynamic ack/NACK resource of each its ACK carrier wave of LTE-A notification of user equipment separately

With

Perhaps dynamic ack/NACK the resource of base station broadcast notice LTE-A subscriber equipment carrier wave is shone upon initial biasing and possible

With Further, with the paired downlink member carrier of uplink member carrier in the dynamic ack/NACK resource of broadcast announcement LTE-A subscriber equipment carrier wave shine upon initial biasing and possible

With

When the ACK/NACK of LTE-A subscriber equipment feedback adopted PUCCH form 1/1a/1b channel, it can be to reinform one the 6th parameter for each the LTE-A subscriber equipment carrier wave that corresponds to this uplink member carrier that the dynamic ack of above-mentioned LTE-A subscriber equipment carrier wave/NACK resource is shone upon initial biasing

Wherein

The initial biasing that the dynamic ack/NACK resource of expression LTE-A subscriber equipment carrier wave is shone upon in all PUCCH form 1/1a/1b channels.May reinform one for each LTE-A subscriber equipment carrier wave in addition

With one

As shown in Figure 7, be first parameter in the collocation method of embodiment of the invention PUCCH resource

Second parameter

The 3rd parameter

The 4th parameter

With the 6th parameter

One of schematic diagram, fail to give notice among the figure

With

The 4th parameter Dynamic ack/NACK the resource that is expressed as downlink member carrier is shone upon initial biasing, the 6th parameter

With

Dynamic ack/NACK resource of representing i and i+1 LTE-A subscriber equipment carrier wave is respectively shone upon initial biasing.Dynamic ack/NACK resource the implicit mapping mode of the similar 3GPP E-UTRA FDD of employing system in each downlink member carrier.

When the ACK/NACK of LTE-A subscriber equipment feedback adopted PUCCH form 1/1a/1b channel and LTE-A subscriber equipment also to know the system bandwidth of all the LTE-A subscriber equipment carrier waves corresponding with this uplink member carrier, it can be to reinform the 6th a common parameter for all LTE-A subscriber equipment carrier waves that correspond to this uplink member carrier that the dynamic ack of above-mentioned LTE-A subscriber equipment carrier wave/NACK resource is shone upon initial biasing

May reinform in addition one common

With one common

As shown in Figure 8, be first parameter in the collocation method of embodiment of the invention PUCCH resource

Second parameter

The 3rd parameter

The 4th parameter

With the 6th parameter

Schematic diagram two, among the figure, the 4th parameter

Dynamic ack/NACK the resource that is expressed as downlink member carrier is shone upon initial biasing, the 6th parameter

Dynamic ack/NACK resource of representing all LTE-A subscriber equipment carrier waves is shone upon initial biasing.Dynamic ack/NACK resource the implicit mapping mode of the similar 3GPP E-UTRA FDD of employing system in the paired downlink member carrier, the many subframes dynamic ack/NACK resource implicit mapping mode of the similar 3GPP E-UTRA TDD of employing system between the LTE-A subscriber equipment carrier wave.

Again as shown in figure 10, for member carrier i configuration

With

Indication be exactly the cyclic shift number of distributing to the zero autocorrelation sequence of banner of PUCCH form 1/1a/1b channel on the resource block number that really only is used to transmit PUCCH form 2/2a/2b in the system, PUCCH the mixings Resource Block; For member carrier i+1 configuration

With

Indication makes it think that the resource block number that only is used to transmit PUCCH form 2/2a/2b is bigger by 1 than the actual value of system, and does not have PUCCH mixing Resource Block.Thereby the true starting point of the PUCCH form 1/1a/1b channel that disposes in the uplink member carrier is identical with the starting point of the PUCCH form 1/1a/1b channel that downlink member carrier i thinks, the starting point gap of the PUCCH form 1/1a/1b channel of thinking with downlink member carrier i+1 with

The PUCCH form 1/1a/1b channel of the individual permanent width of cloth zero autocorrelation sequence cyclic shift corresponding number.

When the PUCCH resource outside dynamic ack/NACK mapping resource has only part to share, the starting point of the PUCCH form 1/1a/1b channel that each member carrier is thought may be different, and also possibility is different in the true starting point of the PUCCH of this uplink member carrier actual disposition form 1/1a/1b channel with system.For i downlink member carrier, the initial biasing of its dynamic ack/NACK resource mapping

Be with respect to

With

The starting point of indicated PUCCH form 1/1a/1b channel is calculated.Passing through the 4th parameter

Control dynamic ack between a plurality of downlink member carriers/NACK mapping resource when whether overlapped, need be for all downlink member carriers

Select an identical PUCCH form 1/1a/1b channel reference starting point, this identical PUCCH form 1/1a/1b channel reference starting point can be selected the true starting point of the PUCCH form 1/1a/1b channel of uplink member carrier configuration usually.

When the PUCCH resource except that dynamic ack/NACK mapping resource when a plurality of downlink member carriers are partly shared, the 4th parameter of next member carrier of a member carrier is set

With the Wucan number

Sum is with the 4th parameter of this descending member carrier

With the Wucan number Sum poor is not less than the maximum control channel number of unit that this downlink member carrier takies

The time, the dynamic ack of this downlink member carrier and next downlink member carrier/NACK mapping resource does not have and overlaps each other; Described Wucan number is the poor of channel starting point and channel reference starting point.When the PUCCH resource except that dynamic ack/NACK mapping resource when a plurality of downlink member carriers are partly shared, the 4th parameter of next member carrier of a member carrier is set

Count sum with Wucan

The 4th parameter with this descending member carrier

With the Wucan number

Sum poor, the maximum control channel number of unit that takies less than this downlink member carrier

The time, the dynamic ack of this downlink member carrier and next downlink member carrier/NACK mapping resource overlaps each other; Described Wucan number is the poor of channel starting point and channel reference starting point.

Promptly i downlink member carrier is by its parameter

With

It is the Wucan number that the starting point of the PUCCH form 1/1a/1b channel of determining and selected PUCCH form 1/1a/1b channel reference starting point differ

Individual PUCCH form 1/1a/1b channel.Again as shown in figure 10, the starting point of the PUCCH form 1/1a/1b channel that disposes in the selection uplink member carrier is the reference starting point of PUCCH form 1/1a/1b channel, then

Equal with

The PUCCH form 1/1a/1b channel number of the individual permanent width of cloth zero autocorrelation sequence cyclic shift correspondence.The base station is by the 4th parameter

Whether dynamic ack/NACK mapping resource of controlling between a plurality of downlink member carriers is overlapped, when

The time, the dynamic ack of i downlink member carrier and i+1 downlink member carrier/NACK mapping resource non-overlapping copies; When

The time, the dynamic ack of i downlink member carrier and i+1 downlink member carrier/NACK mapping resource has the part that overlaps each other.

The load of supposing i member carrier is lighter, makes the OFDM symbolic number that PDCCH takies in each subframe not reach the OFDM number of symbols that maximum can take.The maximum OFDM symbolic number that note PDCCH takies is N, and in 3GPP E-UTRA system, according to system requirements, bandwidth N can value be 3 or 4.According to the loading condition of member carrier, the base station can predict that the OFDM symbolic number that PDCCH takies in a period of time next is no more than n, 0＜n≤N.When reserving dynamic ack/NACK mapping resource for this member carrier, can dispose so

Wherein

CCE number when the PDCCH that represents i member carrier takies n OFDM symbol.In system, if each member carrier is not done load balancing, so above-mentioned configuration can be carried out respectively each member carrier, and promptly each member carrier can have different n values; If each member carrier is done load balancing, so above-mentioned configuration can be all identical to all member carriers, and promptly all member carriers are got identical n value.

For example limiting the initial CCE that PDCCH takies can only be the multiple label of M, and the 4th parameter of the adjacent member carrier of M equal bandwidth can be set

Between only differ a constant, for example 1, biasing; Perhaps the member carrier with the big bandwidth of m1 matches with the member carrier that m2 organizes little bandwidth, and m1+m2≤M wherein disposes the 4th parameter between the initial member carrier of different matched groups

Between only differ a constant, for example 1, biasing, the 4th parameter in the configuration matched group between the adjacent little bandwidth member carrier

Make

Perhaps

In 3GPP E-UTRA system, the dynamic ack of subscriber equipment/NACK resource label is to obtain by certain rule mapping by the initial CCE label that its PDCCH takies, for example in frequency division duplex system, dynamic ack/NACK resource label is initial CCE label and the 4th parameter of PDCCH Sum.It can only be even-numbered that the member carrier (being designated as member carrier i and i+1) of supposing to have two bandwidth to equate all limits the initial CCE that PDCCH takies, and the base station can dispose

The bandwidth of supposing member carrier is unequal, the initial CCE that restriction PDCCH takies can only be an even-numbered, do not introduce the resource compression in the example one simultaneously, and at this time the member carrier i of a big bandwidth can with the member carrier { j1 of one group of little bandwidth, j2} matches and carries out dynamic ack/NACK mapping resource compression, and the base station can dispose

$(N_{\mathrm{PUCCH},i}^{\left(1\right)}+N_i^{\left(1\right),\mathrm{delta}})-(N_{\mathrm{PUCCH},j1}^{\left(1\right)}+N_{j1}^{\left(1\right),\mathrm{delta}})=1,$

$(N_{\mathrm{PUCCH},j2}^{\left(1\right)}+N_{j2}^{\left(1\right),\mathrm{delta}})-(N_{\mathrm{PUCCH},j1}^{\left(1\right)}+N_{j1}^{\left(1\right),\mathrm{delta}})={\mathrm{<figure-callout\; id="1"\; label="N\; j"\; filenames="H2009100014910E0000011.png,H2009100014910E0000012.png"\; state="\{\{state\}\}">N</figure-callout>}}_j^1.$

The base station also will be to LTE-A notification of user equipment the 6th parameter except first parameter, second parameter, the 3rd parameter and the 4th parameter of the paired uplink member carrier of each downlink member carrier broadcast announcement Dynamic ack/NACK the resource that its objective is notice LTE-A subscriber equipment carrier wave is shone upon initial biasing.Dynamic ack/NACK resource mapping of considering LTE-A subscriber equipment carrier wave only occurs in the LTE-A subscriber equipment, and the dynamic ack of this part/NACK mapping ruler can not considered the compatibility of LTE subscriber equipment.For the dynamic ack/NACK resource overhead that reduces LTE-A subscriber equipment carrier wave, can increase dynamic ack/NACK resource size that notice is reserved for LTE-A subscriber equipment carrier wave, perhaps the linear expansion factor.When increasing the notice linear expansion factor, base station and LTE-A subscriber equipment can calculate the dynamic ack/NACK resource size of reservation according to the maximum control channel number of unit corresponding with the system bandwidth of LTE-A subscriber equipment carrier wave; When the ACK/NACK of LTE-A subscriber equipment feedback adopted PUCCH form 2/2a/2b channel, base station and LTE-A subscriber equipment can also calculate the dynamic ack/NACK resource size of reservation according to the maximum control channel number of unit corresponding with the system bandwidth of paired downlink member carrier.

Shining upon initial biasing when the dynamic ack/NACK resource of LTE-A subscriber equipment carrier wave is to reinform one the 6th parameter for each the LTE-A subscriber equipment carrier wave that corresponds to this uplink member carrier

The time, increase dynamic ack/NACK resource size that notice is reserved for each LTE-A subscriber equipment carrier wave, perhaps increase the linear expansion factor notify each LTE-A subscriber equipment carrier wave, perhaps increase and notify one all are corresponded to the identical linear expansion factor of all LTE-A subscriber equipment carrier waves of this uplink member carrier.

Shining upon initial biasing when the dynamic ack/NACK resource of LTE-A subscriber equipment carrier wave is to reinform the 6th a common parameter for all LTE-A subscriber equipment carrier waves that correspond to this uplink member carrier

The time, increase total dynamic ack/NACK resource size that notice is reserved, perhaps increase and notify a common linear expansion factor.

Above-mentioned increase is notified the parameter of dynamic ack/NACK resource size of reserving for each LTE-A subscriber equipment carrier wave and is increased the resource laugh and the linear expansion factor notified and can send or send by the proprietary high-level signaling of subscriber equipment by broadcast parameter.

The collocation method embodiment two of PUCCH resource of the present invention utilizes among the PUCCH of 3GPP E-UTRA system, and the base station does not obtain the first identical parameter of downlink member transmission of physical layer uplink control channel resource to each in corresponding uplink member carrier

Second parameter inequality

And/or the 3rd parameter

And the 4th parameter inequality

For a plurality of downlink member carriers are provided with different PUCCH form channel starting points, shine upon initial biasing with different dynamic ack/NACK resources, make in a uplink member carrier for a plurality of downlink member carriers reserve can compatible LTE subscriber equipment the PUCCH resource, so can support the expense compression of PUCCH resource-sharing flexibly and dynamic ack/NACK mapping resource, and make the further evolution system of 3GPP E-UTRA can be compatible better 3GPP E-UTRA system.

In addition, the embodiment of the invention 3 provides a kind of inking device of physical layer ascending control channel PUCCH resource, and as shown in figure 11, inking device 110 comprises:

First dispensing unit 111 is used to a plurality of downlink member carriers that identical PUCCH form channel starting point is set, and second dispensing unit 112 is used to the different dynamic affirmation of a plurality of downlink member carriers configuration to reply/deny to reply resource and shines upon initial biasing; The corresponding same uplink member carrier of the PUCCH resource of wherein said a plurality of downlink member carriers.Identical PUCCH form channel starting point wherein is set in this first module 111 is specially identical second parameter and the 3rd parameter are set, wherein second parametric representation is used to transmit the maximum resource piece number of PUCCH form 2/2a/2b channel; The 3rd parameter is the cyclic shift number that is illustrated in banner zero autocorrelation sequence of distributing to PUCCH form 1/1a/1b channel on the PUCCH mixing Resource Block.Different dynamic affirmations wherein is set in second dispensing unit 112 replys/deny and reply resource and shine upon initial biasing and be specially different the 4th parameters are set, wherein the 4th parametric representation is dynamically confirmed to reply/deny reply the initial biasing that resource is shone upon in all PUCCH form 1/1a/1b channel.Wherein, also comprise the 3rd dispensing unit, during the maximum control channel number of unit that is used for that the 4th parameter difference when the 4th parameter of second member carrier and first member carrier is not less than that this first member carrier takies, the dynamic affirmation that this first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and do not have and overlap each other; Or the 4th dispensing unit, during the maximum control channel number of unit that is used for taking less than this first member carrier when the 4th parameter difference of the 4th parameter of second member carrier and first member carrier, the dynamic affirmation that this first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and overlap each other; Wherein second member carrier is the next member carrier of first carrier.

In addition, fourth embodiment of the invention provides a kind of dispensing device of physical layer uplink control channel resource, as shown in figure 12, dispensing device 120 comprises: first dispensing unit 121 is used to a plurality of downlink member carriers that identical physical layer ascending control channel form channel starting point is set; Second dispensing unit 122, being used to a plurality of downlink member carriers that different dynamic affirmations is set replys/denies and reply resource and shine upon initial biasing, first transmitting element 123, be used for described identical physical layer ascending control channel form channel starting point, reply/deny with different dynamic affirmations and reply resource and shine upon initial biasing and send to subscriber equipment; The corresponding same uplink member carrier of the physical layer uplink control channel resource of wherein said a plurality of downlink member carriers.Identical PUCCH form channel starting point wherein is set in first dispensing unit 121 is specially identical second parameter and the 3rd parameter are set, wherein second parametric representation is used to transmit the maximum resource piece number of PUCCH form 2/2a/2b channel; The 3rd parameter is the cyclic shift number that is illustrated in banner zero autocorrelation sequence of distributing to PUCCH form 1/1a/1b channel on the PUCCH mixing Resource Block.Different dynamic affirmations wherein is set in second dispensing unit 122 replys/deny and reply resource and shine upon initial biasing and be specially different the 4th parameters are set, wherein the 4th parametric representation is dynamically confirmed to reply/deny reply the initial biasing that resource is shone upon in all PUCCH form 1/1a/1b channel.Wherein subscriber equipment is LTE subscriber equipment and/or LTE-A subscriber equipment.Wherein also comprise one second transmitting element, be used for sending the 6th different parameters to each LTE-A subscriber equipment, also comprise one the 3rd transmitting element, be used for sending the 6th identical parameter to all LTE-A subscriber equipmenies, wherein the 6th parametric representation is that the dynamic affirmation of LTE-A user device configuration is replied/denied and replys resource shine upon initial biasing in all PUCCH form 1/1a/1b channels.Wherein each LTE-A subscriber equipment sends the 6th different parameters and is specially in second transmitting element: send dynamic affirmation that each LTE-A subscriber equipment carrier wave reserves to each LTE-A subscriber equipment and reply/deny and reply resource size; Or send the linear expansion factor of each LTE-A subscriber equipment carrier wave; Or send one all are corresponded to the identical linear expansion factor of all subscriber equipment carrier waves of this uplink member carrier.Wherein sending the 6th an identical parameter to all LTE-A subscriber equipmenies in the 3rd transmitting element is specially: send total dynamic affirmation of reserving to all LTE-A subscriber equipmenies and reply/deny and reply resource size; Or send a common linear expansion factor.Wherein also comprise one the 4th transmitting element, be used for sending the 7th identical parameter to all LTE-A subscriber equipmenies, wherein the dynamic A of the 7th parametric representation LTE-A subscriber equipment confirms to reply/deny reply the initial biasing that resource is shone upon in all PUCCH form 2/2a/2b channel.Wherein also comprise the 3rd dispensing unit, during the maximum control channel number of unit that is used for that the 4th parameter difference when the 4th parameter of second member carrier and first member carrier is not less than that this first member carrier takies, the dynamic affirmation that this first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and do not have and overlap each other; The 4th dispensing unit, during the maximum control channel number of unit that is used for taking less than this first member carrier when the 4th parameter difference of the 4th parameter of second member carrier and first member carrier, the dynamic affirmation that this first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and overlap each other; Wherein second member carrier is the next member carrier of first carrier.

In addition, fifth embodiment of the invention provides the inking device of a kind of physical layer uplink control channel resource PUCCH, as shown in figure 13.This dispensing unit 130 comprises: first dispensing unit 131, be used at least one downlink member carrier in a plurality of downlink member carriers that different PUCCH form channel starting points is set, second dispensing unit 132 is used to downlink member carrier in described a plurality of downlink member carrier that different dynamic affirmations is set and replys/deny and reply resource and shine upon initial biasing; The corresponding same uplink member carrier of the PUCCH resource of wherein said a plurality of downlink member carriers.Wherein first dispensing unit 131 is specially at least one downlink member carrier in a plurality of downlink member carriers disposes at least one the second different parameters and/or the 3rd parameter at least one downlink member carrier in a plurality of downlink member carriers is provided with different PUCCH form channel starting points, and wherein second parametric representation is used to transmit the maximum resource piece number of PUCCH form 2/2a/2b channel; The 3rd parameter is the cyclic shift number that is illustrated in banner zero autocorrelation sequence of distributing to PUCCH form 1/1a/1b channel on the PUCCH mixing Resource Block.Wherein reply/deny and reply resource and shine upon the downlink member carrier that initial biasing setting is specially in described a plurality of downlink member carrier different the 4th parameters are set for the downlink member carrier in a plurality of downlink member carriers is provided with different dynamic affirmations in second dispensing unit 132, wherein the 4th parametric representation is dynamically confirmed to reply/deny reply the initial biasing that resource is shone upon in all PUCCH form 1/1a/1b channel.Wherein also comprise the 3rd dispensing unit 133, be used for counting sum when the 4th parameter and the Wucan of second member carrier, during maximum control channel number of unit that the difference of counting sum with the 4th parameter and the Wucan of first member carrier is not less than that this member carrier takies, the dynamic affirmation that first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and do not have and overlap each other; Or the 4th dispensing unit 134, be used for counting sum when the 4th parameter and the Wucan of second member carrier, count the poor of sum with the 4th parameter and the Wucan of first member carrier, during the maximum control channel number of unit that takies less than first member carrier, the dynamic affirmation that first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and overlap each other; Wherein said second member carrier is the next member carrier of first member carrier, and described Wucan number is the poor of channel starting point and channel reference starting point.Wherein also comprise each LTE-A subscriber equipment carrier wave configuration different six parameters of the 5th dispensing unit 135 for the uplink member carrier of a plurality of descending carrier PUCCH resource correspondences.Comprise that also the 6th dispensing unit 136 is used to the 6th identical parameter of each LTE-A subscriber equipment carrier wave configuration of the uplink member carrier of a plurality of descending carrier PUCCH resource correspondences, wherein the 6th parametric representation is that the dynamic affirmation of LTE-A user device configuration is replied/denied and replys resource shine upon initial biasing in all PUCCH form 1/1a/1b channels.Wherein different the 6th parameters of configuration are specially in the 5th dispensing unit 135: reply/deny for the dynamic affirmation of each LTE-A subscriber equipment carrier wave configure reserved and reply resource size; Or dispose linear spreading factor for each LTE-A subscriber equipment carrier wave; Or for all correspond to the identical linear expansion factor of all subscriber equipment carrier waves configuration of this uplink member carrier.Wherein the 6th identical parameter of configuration is specially in the 6th dispensing unit 136: total dynamic affirmation of LTE-A subscriber equipment carrier wave configure reserved is replied/is denied and replys resource size; Or be the common linear expansion factor of LTE-A subscriber equipment carrier wave configuration.

It should be noted last that, above embodiment is only unrestricted in order to the technical scheme of the explanation embodiment of the invention, although the embodiment of the invention is had been described in detail with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can make amendment or be equal to replacement the technical scheme of the embodiment of the invention, and not break away from the spirit and scope of embodiment of the invention technical scheme.

Claims (32)

1. the collocation method of a physical layer ascending control channel PUCCH resource is characterized in that comprising: for a plurality of downlink member carriers are provided with identical PUCCH form channel starting point, reply/deny with different dynamic affirmations and reply resource and shine upon initial biasing; The corresponding same uplink member carrier of the PUCCH resource of wherein said a plurality of downlink member carriers.

2. collocation method according to claim 1, it is characterized in that: describedly identical PUCCH form channel starting point is set is specially identical second parameter and the 3rd parameter are set, wherein second parametric representation is used to transmit the maximum resource piece number of PUCCH form 2/2a/2b channel; The 3rd parameter is the cyclic shift number that is illustrated in banner zero autocorrelation sequence of distributing to PUCCH form 1/1a/1b channel on the PUCCH mixing Resource Block.

3. collocation method according to claim 1, it is characterized in that: describedly different dynamic affirmations is set replys/deny and reply resource and shine upon initial biasing and be specially different the 4th parameters are set, wherein the 4th parametric representation is dynamically confirmed to reply/deny reply the initial biasing that resource is shone upon in all PUCCH form 1/1a/1b channel.

4. collocation method according to claim 3 is characterized in that also comprising:

When maximum control channel number of unit that the 4th parameter difference of the 4th parameter of second member carrier and first member carrier is not less than that this first member carrier takies, the dynamic affirmation that this first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and do not have and overlap each other; Or

When maximum control channel number of unit that the 4th parameter difference of the 4th parameter of second member carrier and first member carrier takies less than this first member carrier, the dynamic affirmation that this first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and overlap each other;

Wherein second member carrier is the next member carrier of first carrier.

5. the sending method of a physical layer uplink control channel resource is characterized in that comprising:

For a plurality of downlink member carriers are provided with identical physical layer ascending control channel form channel starting point, reply/deny with different dynamic affirmations and reply resource and shine upon initial biasing, with described identical physical layer ascending control channel form channel starting point, reply/deny with different dynamic affirmations and reply resource and shine upon initial biasing and send to subscriber equipment; The corresponding same uplink member carrier of the physical layer uplink control channel resource of wherein said a plurality of downlink member carriers.

6. sending method according to claim 5, it is characterized in that: describedly identical PUCCH form channel starting point is set is specially identical second parameter and the 3rd parameter are set, wherein second parametric representation is used to transmit the maximum resource piece number of PUCCH form 2/2a/2b channel; The 3rd parameter is the cyclic shift number that is illustrated in banner zero autocorrelation sequence of distributing to PUCCH form 1/1a/1b channel on the PUCCH mixing Resource Block.

7. sending method according to claim 5, it is characterized in that: describedly different dynamic affirmations is set replys/deny and reply resource and shine upon initial biasing and be specially different the 4th parameters are set, wherein the 4th parametric representation is dynamically confirmed to reply/deny reply the initial biasing that resource is shone upon in all PUCCH form 1/1a/1b channel.

8. sending method according to claim 5 is characterized in that: described subscriber equipment is LTE subscriber equipment and/or LTE-A subscriber equipment.

9. sending method according to claim 8, it is characterized in that also comprising, send the 6th different parameters to each LTE-A subscriber equipment, or send the 6th identical parameter to all LTE-A subscriber equipmenies, wherein the 6th parametric representation is that the dynamic affirmation of LTE-A user device configuration is replied/denied and replys resource shine upon initial biasing in all PUCCH form 1/1a/1b channels.

10. according to the described sending method of claim 9, it is characterized in that, describedly send the 6th different parameters to each LTE-A subscriber equipment and be specially:

Sending dynamic affirmation that each LTE-A subscriber equipment carrier wave reserves to each LTE-A subscriber equipment replys/denies and reply resource size; Or

Send the linear expansion factor of each LTE-A subscriber equipment carrier wave; Or

Send one all are corresponded to the identical linear expansion factor of all subscriber equipment carrier waves of this uplink member carrier.

11. sending method according to claim 9 is characterized in that, describedly sends the 6th an identical parameter to all LTE-A subscriber equipmenies and is specially:

Sending total dynamic affirmation of reserving to all LTE-A subscriber equipmenies replys/denies and reply resource size; Or

Send a common linear expansion factor.

12. sending method according to claim 6, it is characterized in that also comprising, send the 7th identical parameter to all LTE-A subscriber equipmenies, wherein the dynamic A of the 7th parametric representation LTE-A subscriber equipment confirms to reply/deny reply the initial biasing that resource is shone upon in all PUCCH form 2/2a/2b channel.

13., it is characterized in that according to any one described sending method of claim 5 to 12:

When maximum control channel number of unit that the 4th parameter difference of the 4th parameter of second member carrier and first member carrier is not less than that this first member carrier takies, the dynamic affirmation that this first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and do not have and overlap each other; Or

When maximum control channel number of unit that the 4th parameter difference of the 4th parameter of second member carrier and first member carrier takies less than this first member carrier, the dynamic affirmation that this first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and overlap each other;

Wherein second member carrier is the next member carrier of first carrier.

14. the collocation method of a physical layer uplink control channel resource PUCCH, it is characterized in that comprising:, and different dynamic affirmations is set for the downlink member carrier in described a plurality of downlink member carriers replys/deny and reply resource and shine upon initial biasing at least one downlink member carrier in a plurality of downlink member carriers is provided with different PUCCH form channel starting points; The corresponding same uplink member carrier of the PUCCH resource of wherein said a plurality of downlink member carriers.

15. collocation method according to claim 14, it is characterized in that: describedly be specially at least one downlink member carrier in a plurality of downlink member carriers disposes at least one the second different parameters and/or the 3rd parameter at least one downlink member carrier in a plurality of downlink member carriers is provided with different PUCCH form channel starting points, wherein second parametric representation is used to transmit the maximum resource piece number of PUCCH form 2/2a/2b channel; The 3rd parameter is the cyclic shift number that is illustrated in banner zero autocorrelation sequence of distributing to PUCCH form 1/1a/1b channel on the PUCCH mixing Resource Block.

16. collocation method according to claim 14, it is characterized in that: describedly reply/deny and reply resource and shine upon the downlink member carrier that initial biasing setting is specially in described a plurality of downlink member carrier different the 4th parameters are set for the downlink member carrier in a plurality of downlink member carriers is provided with different dynamic affirmations, wherein the 4th parametric representation is dynamically confirmed to reply/deny reply the initial biasing that resource is shone upon in all PUCCH form 1/1a/1b channel.

17. collocation method according to claim 14 is characterized in that also comprising:

When the 4th parameter and the Wucan of second member carrier are counted sum, during maximum control channel number of unit that the difference of counting sum with the 4th parameter and the Wucan of first member carrier is not less than that this member carrier takies, the dynamic affirmation that first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and do not have and overlap each other; Or

When the 4th parameter and the Wucan of second member carrier are counted sum, count the poor of sum with the 4th parameter and the Wucan of first member carrier, during the maximum control channel number of unit that takies less than first member carrier, the dynamic affirmation that first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and overlap each other;

Wherein said second member carrier is the next member carrier of first member carrier, and described Wucan number is the poor of channel starting point and channel reference starting point.

18. collocation method according to claim 14, it is characterized in that also comprising: be different the 6th parameters of each LTE-A subscriber equipment carrier wave configuration of the uplink member carrier of a plurality of descending carrier PUCCH resource correspondences, or be the 6th identical parameter of each LTE-A subscriber equipment carrier wave configuration of the uplink member carrier of a plurality of descending carrier PUCCH resource correspondences, wherein the 6th parametric representation is that the dynamic affirmation of LTE-A user device configuration is replied/denied and replys resource shine upon initial biasing in all PUCCH form 1/1a/1b channels.

19. collocation method according to claim 18 is characterized in that: different the 6th parameters of described configuration are specially:

Reply/deny for the dynamic affirmation of each LTE-A subscriber equipment carrier wave configure reserved and reply resource size; Or

For each LTE-A subscriber equipment carrier wave disposes linear spreading factor; Or

For all correspond to the identical linear expansion factor of all subscriber equipment carrier wave configurations of this uplink member carrier.

20. collocation method according to claim 18 is characterized in that the 6th identical parameter of described configuration is specially:

Reply/deny for total dynamic affirmation of LTE-A subscriber equipment carrier wave configure reserved and reply resource size; Or

Be the common linear expansion factor of LTE-A subscriber equipment carrier wave configuration.

21. the inking device of a physical layer ascending control channel PUCCH resource, it is characterized in that comprising: first dispensing unit, be used to a plurality of downlink member carriers that identical PUCCH form channel starting point is set, second dispensing unit is used to the different dynamic affirmation of a plurality of downlink member carriers configuration to reply/deny to reply resource and shines upon initial biasing; The corresponding same uplink member carrier of the PUCCH resource of wherein said a plurality of downlink member carriers.

22. inking device according to claim 21, it is characterized in that: identical PUCCH form channel starting point is set in the described first module is specially identical second parameter and the 3rd parameter are set, wherein second parametric representation is used to transmit the maximum resource piece number of PUCCH form 2/2a/2b channel; The 3rd parameter is the cyclic shift number that is illustrated in banner zero autocorrelation sequence of distributing to PUCCH form 1/1a/1b channel on the PUCCH mixing Resource Block.

23. inking device according to claim 21, it is characterized in that: different dynamic affirmations is set in described second dispensing unit replys/deny and reply resource and shine upon initial biasing and be specially different the 4th parameters are set, wherein the 4th parametric representation is dynamically confirmed to reply/deny reply the initial biasing that resource is shone upon in all PUCCH form 1/1a/1b channel.

24. inking device according to claim 23 is characterized in that also comprising:

The 3rd dispensing unit, during the maximum control channel number of unit that is used for that the 4th parameter difference when the 4th parameter of second member carrier and first member carrier is not less than that this first member carrier takies, the dynamic affirmation that this first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and do not have and overlap each other; Or

The 4th dispensing unit, during the maximum control channel number of unit that is used for taking less than this first member carrier when the 4th parameter difference of the 4th parameter of second member carrier and first member carrier, the dynamic affirmation that this first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and overlap each other;

Wherein second member carrier is the next member carrier of first carrier.

25. the dispensing device of a physical layer uplink control channel resource is characterized in that comprising:

First dispensing unit is used to a plurality of downlink member carriers that identical physical layer ascending control channel form channel starting point is set;

Second dispensing unit is used to a plurality of downlink member carriers that different dynamic affirmations is set and replys/deny and reply resource and shine upon initial biasing,

First transmitting element is used for described identical physical layer ascending control channel form channel starting point, replys/denies with different dynamic affirmations and reply resource and shine upon initial biasing and send to subscriber equipment;

The corresponding same uplink member carrier of the physical layer uplink control channel resource of wherein said a plurality of downlink member carriers.

26. dispensing device according to claim 25 is characterized in that: described subscriber equipment is LTE subscriber equipment and/or LTE-A subscriber equipment.

27. dispensing device according to claim 26 is characterized in that also comprising,

Second transmitting element, be used for sending the 6th different parameters to each LTE-A subscriber equipment, or the 3rd transmitting element, be used for sending the 6th identical parameter to all LTE-A subscriber equipmenies, wherein the 6th parametric representation is that the dynamic affirmation of LTE-A user device configuration is replied/denied and replys resource shine upon initial biasing in all PUCCH form 1/1a/1b channels.

28. according to the described dispensing device of claim 27, it is characterized in that, send the 6th different parameters to each LTE-A subscriber equipment in described second transmitting element and be specially:

Sending dynamic affirmation that each LTE-A subscriber equipment carrier wave reserves to each LTE-A subscriber equipment replys/denies and reply resource size; Or

Send the linear expansion factor of each LTE-A subscriber equipment carrier wave; Or

Send one all are corresponded to the identical linear expansion factor of all subscriber equipment carrier waves of this uplink member carrier.

29. dispensing device according to claim 27 is characterized in that, sends the 6th an identical parameter to all LTE-A subscriber equipmenies in described the 3rd transmitting element and is specially:

Sending total dynamic affirmation of reserving to all LTE-A subscriber equipmenies replys/denies and reply resource size; Or

Send a common linear expansion factor.

30. dispensing device according to claim 25 is characterized in that also comprising,

The 4th transmitting element is used for sending the 7th identical parameter to all LTE-A subscriber equipmenies, and wherein the dynamic A of the 7th parametric representation LTE-A subscriber equipment confirms to reply/deny reply the initial biasing that resource is shone upon in all PUCCH form 2/2a/2b channels.

31. the inking device of a physical layer uplink control channel resource PUCCH is characterized in that comprising:

First dispensing unit is used at least one downlink member carrier in a plurality of downlink member carriers that different PUCCH form channel starting points is set;

Second dispensing unit is used to downlink member carrier in described a plurality of downlink member carrier that different dynamic affirmations is set and replys/deny and reply resource and shine upon initial biasing; The corresponding same uplink member carrier of the PUCCH resource of wherein said a plurality of downlink member carriers.

32. inking device according to claim 31 is characterized in that also comprising:

The 3rd dispensing unit, be used for counting sum when the 4th parameter and the Wucan of second member carrier, during maximum control channel number of unit that the difference of counting sum with the 4th parameter and the Wucan of first member carrier is not less than that this member carrier takies, the dynamic affirmation that first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and do not have and overlap each other; Or

The 4th dispensing unit, be used for counting sum when the 4th parameter and the Wucan of second member carrier, count the poor of sum with the 4th parameter and the Wucan of first member carrier, during the maximum control channel number of unit that takies less than first member carrier, the dynamic affirmation that first member carrier and second member carrier be set is replied/is denied and replys the mapping resource and overlap each other;

Wherein said second member carrier is the next member carrier of first member carrier, and described Wucan number is the poor of channel starting point and channel reference starting point.

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