CN102238712A - Method for distributing non-rectangular enhanced physical uplink channel (E-PUCH) resources in high speed uplink packet access (HSUPA) - Google Patents

Abstract

The invention provides a method for distributing non-rectangular enhanced physical uplink channel (E-PUCH) resources in high speed uplink packet access (HSUPA). The method has the following beneficial effects: when the nodeB distributes the E-PUCH resources to user equipment (UE), the nodeB distributes the non-rectangular E-PUCH resources to the UE which supports non-rectangular E-PUCH resource distribution, divides the distributed non-rectangular E-PUCH resources into a plurality of rectangular resources and informs the UE of the time slots and node information of the plurality of rectangular resources via an enhanced absolute grant channel (E-AGCH); therefore the aims of distributing the non-rectangular E-PUCH resources to the UE and informing the UE of the distributed resources can be achieved, thus ensuring the UE to utilize the non-rectangular E-PUCH resources to transmit data and improving the uplink peak rate of the UE.

Description

The distribution method of non-rectangle E-PUCH resource among a kind of HSUPA

Technical field

The present invention relates to the resource allocation techniques in the high speed uplink bag access (HSUPA), non-rectangle strengthens the distribution method of dedicated channel physical uplink channel (E-PUCH) resource among particularly a kind of HSUPA.

Background technology

At present, in the HSUPA system, the HSUPA scheduler of base station (NODEB) is all once dispatched in each subframe " n ".Scheduler is determined the UE that is scheduled in current subframe by dispatching, and is that each UE distributes and strengthens dedicated channel absolute grant channel (E-AGCH), E-PUCH and enhancing dedicated channel mixed automatic retransmission request indicating channel (E-HICH).

The E-AGCH that distributes to UE is that radio network controller (RNC) configuration is to an E-AGCH in the E-AGCH set of UE; The E-PUCH that distributes to UE is a part of resource or the whole resource in the E-PUCH resource pool, and the shared resource of E-PUCH of distributing to UE must be the rectangle resource; The E-HICH that distributes to UE is that RNC disposes to an E-HICH in the E-HICH set of UE.The E-AGCH set that RNC disposes to UE comprises K _E-AGCHIndividual E-AGCH, K _E-AGCHMaximum be K _E-AGCH=4.The E-HICH set that RNC disposes to UE comprises K _E-HICHIndividual E-HICH, K _E-HICHMaximum be K _E-HICH=4.The shared resource of E-PUCH of distributing to UE must be that the rectangle resource refers to: at each shared time slot of E-PUCH, channel code or the node of distributing to E-PUCH are identical.

NODEB will will distribute to the relevant information of E-PUCH resource of UE and the relevant information of distributing to the E-HICH of UE sends to UE by E-AGCH in the n+d subframe.Here, d represents the processing delay of the scheduler of NODEB.When UE receives NODEB when sending to its E-AGCH in " n+d " subframe, UE will determine to distribute to its E-PUCH according to the relevant information of the E-PUCH resource of carrying on the E-AGCH, determine to distribute to its E-HICH according to the relevant information of the E-HICH that carries on the E-AGCH.

UE will be according to time interval resource relevant information, channel code resource related information and a power mandate relevant information assembling E-DCH (enhancing dedicated channel) data block of the E-PUCH that distributes to it.UE will send to NODEB with this E-DCH data block by the E-PUCH that distributes to it in the n+d+d1 subframe.Here, d1=2 represents the timing difference between the subframe that subframe that E-AGCH sends and E-PUCH send.

When the scheduler of NODEB is dispatched continuously to a UE, will use same E-AGCH.Such as: NODEB dispatches the 1st UE continuously in n subframe and n+1 subframe, it is the 1st E-AGCH in the E-AGCH set of UE that NODEB gives the E-AGCH of the 1st UE in the n sub-frame allocation, then NODEB is when the n+1 subframe is dispatched this UE once more, and it must be the 1st E-AGCH that NODEB distributes the E-AGCH of this UE.

For UE, UE distributes to monitoring each E-AGCH in its E-AGCH set in first subframe.When UE when previous subframe listens to 1 E-AGCH that distributes to it, UE will only monitor this E-AGCH in current subframe and whether distribute to it.When UE when previous subframe does not listen to the E-AGCH that distributes to it, UE will monitor each E-AGCH in the E-AGCH set of distributing to it in current subframe.Above-mentioned UE shows the snoop procedure of E-AGCH set: UE does not support NODEB in same subframe a plurality of E-AGCH to be distributed to it.

In the transmission and receiving course of above-mentioned E-AGCH, E-PUCH and E-HICH, also there is following process of carrying out synchronously:

(1) DLPC:UE of E-AGCH orders according to the DLPC (descending power control) that the SNR desired value of the SNR (signal to noise ratio) of the E-AGCH that distributes to it that receives and E-AGCH generates E-AGCH; Distribute to the DLPC order that TPC (transmitting power control) territory on the E-PUCH of UE is used to carry the E-AGCH of the up-to-date generation of UE; NODEB receives the E-PUCH that UE sends, and extracts the DLPC order that E-PUCH goes up the E-AGCH of TPC territory carrying, adjusts the transmitting power of the E-AGCH that distributes to UE according to this DLPC order.

(2) DLBF of E-AGCH (down beam shaping): NODEB will be according to the channel estimating of the E-PUCH of the UE that receives or/and the channel estimating of other up channels of UE generates the DLBF weight vector of UE.The DLBF weight vector that the E-AGCH that distributes to UE will adopt the up-to-date generation of NODEB UE carries out down beam shaping to the E-AGCH of UE.

(3) ULPC:NODEB of E-PUCH is when receiving the E-PUCH of UE, to generate ULPC (uplink power control) order of E-PUCH according to the SNR desired value of the SNR of E-PUCH and E-PUCH, described E-PUCH comprises that distributing to the E-PUCH of the E-PUCH of the scheduling type of UE, semi-persistent scheduling type that NODEB distributes to UE and RNC by E-AGCH disposes E-PUCH to the non-scheduling type of UE; Distribute to the ULPC order of E-PUCH that TPC territory on the E-AGCH of UE is used to carry the UE of the up-to-date generation of NODEB, give the corresponding E-HICH of the E-PUCH of semi-persistent scheduling type of UE, order for the ULPC of the E-PUCH of the UE that the corresponding E-HICH of the E-PUCH of non-scheduling type of UE also will carry the up-to-date generation of NODEB with configuration with configuration, when when same subframe exists E-AGCH and above-mentioned E-HICH simultaneously, E-AGCH orders with the ULPC that E-HICH will carry identical E-PUCH; UE receives NODEB and sends to its E-AGCH and above-mentioned E-HICH, extracts E-AGCH and goes up the ULPC order of carrying on the ULPC order of E-PUCH of TPC territory carrying and the E-HICH, distributes to the transmitting power of its E-PUCH according to this ULPC order adjustment.When same subframe exists E-AGCH and E-HICH simultaneously, if carry identical ULPC order on E-AGCH and the E-HICH, UE only responds a ULPC order; If the ULPC that carries on E-AGCH and E-HICH order is not simultaneously, UE just abandons the ULPC order of extracting from these two kinds of channels.

(4) ULSC:NODEB of E-PUCH is when receiving the E-PUCH of UE transmission, will be according to the channel estimating of E-PUCH, or according to the channel estimating of other up channels of the channel estimating of E-PUCH and UE, the ULSC (uplink synchronous control) that generates UE orders, and described E-PUCH comprises that distributing to the E-PUCH of the E-PUCH of the scheduling type of UE, semi-persistent scheduling type that NODEB distributes to UE and RNC by E-AGCH disposes E-PUCH to the non-scheduling type of UE; Distribute to the ULSC order that SS (simultaneous bias) territory on the E-AGCH of UE is used to carry the UE of the up-to-date generation of NODEB, E-HICH corresponding and the ULSC order that also will carry the UE of the up-to-date generation of NODEB to the corresponding E-HICH of the E-PUCH of the non-scheduling type of UE with configuration with the E-PUCH that disposes the semi-persistent scheduling type of giving UE, when when same subframe exists E-AGCH and above-mentioned E-HICH simultaneously, E-AGCH orders with the ULSC that E-HICH will carry identical UE; UE receives NODEB and sends to its E-AGCH and E-HICH, and the extraction E-AGCH upward ULSC of the UE of SS territory carrying orders or extracts the ULSC that carries on the E-HICH and order, and orders the TA (Timing Advance) of the E-PUCH that adjusts UE according to this ULSC.Perhaps, UE goes up SS territory carrying on other down channels of UE in the ULSC order of carrying in the ULSC order, E-HICH of the UE of SS territory carrying and the same subframe to E-AGCH ULSC order merges, and UE adjusts the TA of each up channel of UE according to the ULSC order that merges.

In the HSUPA system, adopt the Typical Disposition of 2: 4 or 3: 3 usually.Under 2: 4 Typical Disposition, the E-PUCH resource pool that RNC distributes to NODEB takies 1.5 time slots usually.Under 3: 3 Typical Disposition, the E-PUCH resource pool that RNC distributes to NODEB takies 2.5 time slots usually.Under the E-PUCH of above-mentioned employing rectangle resource distribution mode, when UE is scheduled, the E-PUCH resource of distributing to UE is a rectangle, be that the code channel that takies of different time-gap is identical, therefore under this resource distribution mode, UE takies 1 time slot (during configuration in 2: 4) or 2 time slots (during configuration in 3: 3) at most, the resource of 1.5 time slots (during configuration in 2: 4) in the resource pool or 2.5 time slots (during configuration in 3: 3) all can not be distributed to UE.Like this, the up peak rate of UE is merely able to reach the 1024kbps that 512kbps that 1 time slot (during configuration in 2: 4) institute can support or 2 time slots institute can support, can not reach 1.5 time slots (2: 4 when disposing) the 512 * 1.5kbps that can support or 2.5 time slots (3: 3 when disposing) the 1024 * 1.5kbps that can support.

In view of the E-PUCH resource distribution mode of rectangle has greatly limited the up peak rate of UE, the present invention proposes: be the up peak rate that improves UE, and the E-PUCH resource that can distribute non-rectangle to UE.Such as: down the resource of 1.5 time slots of E-PUCH resource pool all can be distributed to UE configuration in 2: 4, under disposing at 3: 3,2.5 time slots of E-PUCH resource pool all can be distributed to UE.

Summary of the invention

The invention provides the distribution method of non-rectangle E-PUCH resource among a kind of HSUPA, can distribute non-rectangle E-PUCH resource, improve the up peak rate of UE for UE.

For achieving the above object, the present invention adopts following technical scheme:

The distribution method of non-rectangle E-PUCH resource among a kind of HSUPA comprises:

In advance RNC is disposed to the E-PUCH resource pool on the HSUPA carrier wave of NodeB and be divided into two rectangle E-PUCH resource pools, described NodeB is for supporting the NodeB of non-rectangle E-PUCH resource allocation;

For supporting non-rectangle E-PUCH resource allocation and being positioned at UE on the described HSUPA carrier wave of described NodeB, when being described UE collocation wireless link, RNC disposes the timeslot number that two rectangle E-PUCH resource pools that are divided on the described HSUPA carrier wave take separately to described UE;

NodeB is that described UE is when distributing non-rectangle E-PUCH resource, from described two rectangle E-PUCH resource pools, select the rectangle resource allocation to give described UE respectively, and on the E-AGCH that determines, the described UE of node information notification of the resource that will in described two E-PUCH resource pools, select respectively.

Preferably, when from described two rectangle E-PUCH resource pools, selecting resource allocation to give described UE respectively, in first rectangle E-PUCH resource pool,, in second rectangle E-PUCH resource pool, be the channel code of 1 SF=4 for the minimum particle size of described UE Resources allocation for the minimum particle size of described UE Resources allocation is the channel code of 1 SF=8;

When notifying described UE based on E-AGCH form 1, the node information notification UE of the described resource that will select respectively in two E-PUCH resource pools is:

On the E-AGCH that determines, according to the E-AGCH form of selecting in advance, utilize the CRRI territory of 5 bits and the many yards CRRI territories that free time 2 bit in other territories constitutes 7 bits, utilize wherein preceding 4 bits to be used for being carried on the nodal information of described first rectangle E-PUCH resource pool, utilize wherein back 3 bits to be used for being carried on the nodal information of described second rectangle E-PUCH resource pool for the resource of described UE distribution for the resource of described UE distribution.

Preferably, utilize the CRRI territory of 5 bits and the E-HICH of 2 bits to indicate the territory to constitute many yards CRRI territories of 7 bits.

Preferably, utilize the right 2 bits in the CRRI territory of 5 bits and the TRRI territory to constitute many yards CRRI territories of 7 bits.

Preferably, when from described two rectangle E-PUCH resource pools, selecting resource allocation to give described UE respectively, in first rectangle E-PUCH resource pool,, in second rectangle E-PUCH resource pool, be the channel code of 1 SF=2 for the minimum particle size of described UE Resources allocation for the minimum particle size of described UE Resources allocation is the channel code of 1 SF=8;

When notifying described UE based on E-AGCH form 2, the node information notification UE of the described resource that will select respectively in two E-PUCH resource pools is:

On the E-AGCH that determines, according to the E-AGCH form of selecting in advance, utilize the CRRI territory of 4 bits and the many yards CRRI territories that free time 2 bit in other territories constitutes 6 bits, utilize wherein preceding 4 bits to be used for being carried on the nodal information of described first rectangle E-PUCH resource pool, utilize wherein back 2 bits to be used for being carried on the nodal information of described second rectangle E-PUCH resource pool for the resource of described UE distribution for the resource of described UE distribution.

Preferably, utilize the right 2 bits in the CRRI territory of 4 bits and the TRRI territory to constitute many yards CRRI territories of 6 bits.

Preferably, when the territory is masked as " 00 " among the described E-AGCH, utilize the specific information 1 of the CRRI territory of 4 bits and 2 bits to constitute many yards CRRI territories of 6 bits;

When territory sign among the described E-AGCH be not " 00 ", in the reservation bit of the specific information 2 of 5 bits and 1 bit, select 2 bits, the CRRI territory that utilizes 4 bits and 2 bits of selecting constitute many yards CRRI territories of 6 bits.

Preferably, when from described two rectangle E-PUCH resource pools, selecting resource allocation to give described UE respectively, in first rectangle E-PUCH resource pool,, in second rectangle E-PUCH resource pool, be the channel code of 1 SF=4 for the minimum particle size of described UE Resources allocation for the minimum particle size of described UE Resources allocation is the channel code of 1 SF=8;

When notifying described UE based on E-AGCH form 2, the node information notification UE of the described resource that will select respectively in two E-PUCH resource pools is:

On the E-AGCH that determines, according to the E-AGCH form of selecting in advance, utilize the CRRI territory of 4 bits and the many yards CRRI territories that free time 3 bit in other territories constitutes 7 bits, utilize wherein preceding 4 bits to be used for being carried on the nodal information of described first rectangle E-PUCH resource pool, utilize wherein back 3 bits to be used for being carried on the nodal information of described second rectangle E-PUCH resource pool for the resource of described UE distribution for the resource of described UE distribution.

Preferably, when the territory is masked as " 00 " among the described E-AGCH, in 2 idle bits of the reservation bit of 1 bit and 5 bit specific informations 2, select 1 bit, utilize the right 2 bits in the CRRI territory, TRRI territory of 4 bits and 1 bit selecting constitutes many yards CRRI territories of 7 bits;

When territory sign among the described E-AGCH be not " 00 ", in the reservation bit of the specific information 2 of 5 bits and 1 bit, select 1 bit, utilize in the CRRI territory, TRRI territory of 4 bits on the right of 2 bits and 1 bit selecting constitute many yards CRRI territories of 7 bits.

Preferably, when the territory is masked as " 00 " among the described E-AGCH, in 2 idle bits of the reservation bit of 1 bit and 5 bit specific informations 2, select 1 bit, utilize the specific information 1 of CRRI territory, 2 bits of 4 bits and the many yards CRRI territories that 1 bit selecting constitutes 7 bits;

When territory sign among the described E-AGCH be not " 00 ", in the reservation bit of the specific information 2 of 5 bits and 1 bit, select 3 bits, the CRRI territory that utilizes 4 bits and 3 bits of selecting constitute many yards CRRI territories of 7 bits.

Preferably, select described E-AGCH form in advance, and notify described NodeB and UE by RNC;

Perhaps, the described E-AGCH form of selection of configuration on NodeB and UE in advance.

Preferably, this method further comprises: support the UE of non-rectangle E-PUCH resource, report to RNC when inserting and self support the ability of non-rectangle E-PUCH resource allocation;

Support the NodeB of non-rectangle E-PUCH resource, report to described RNC and self support the ability of non-rectangle E-PUCH resource allocation;

For the NodeB that supports non-rectangle E-PUCH resource, the ability information that RNC reports described UE is transmitted to this NodeB.

Preferably, this method further comprises: described RNC is E-PUCH resource pool of a HSUPA carrier wave configuration of the NodeB of support non-rectangle E-PUCH resource, and no longer this resource pool is divided;

For the UE on the carrier wave that only disposes a resource pool and no longer this resource pool is divided that is positioned at described NodeB, described NodeB only is that this UE distributes rectangle E-PUCH resource.

Preferably, for the NodeB that does not support non-rectangle E-PUCH resource allocation, RNC does not issue the ability information that described UE reports to it; This NodeB only is that described UE distributes rectangle E-PUCH resource.

Preferably, this method further comprises: support the UE of non-rectangle E-PUCH resource allocation, determine the division of E-PUCH resource pool on the corresponding HSUPA carrier wave according to the configuration of RNC;

Support the UE of non-rectangle E-PUCH resource allocation, monitor each E-AGCH in the E-AGCH set of distributing to self in first subframe; When current subframe is monitored E-AGCH, if previous subframe listens to the E-AGCH that distributes to self, then only monitor previous subframe and distributed to the E-AGCH of self in current subframe, otherwise, monitor each E-AGCH in the E-AGCH set of distributing to self;

After listening to the E-AGCH that distributes to self, described UE resolves wherein many yards CRRI territories of 7 bits, determine to distribute in first rectangle E-PUCH resource pool the nodal information of self according to preceding 4 bits, and distribute to self time slot in first rectangle E-PUCH resource pool that carries in the TRRI territory in conjunction with included time slot of described first rectangle E-PUCH resource pool and described E-AGCH, determine in first rectangle E-PUCH resource pool, to distribute to the E-PUCH rectangle resource of self; And determine to distribute in second rectangle E-PUCH resource pool self nodal information according to back 3 bits in many yards CRRI territories of 7 bits, distribute to the time slot of self again in second the rectangle E-PUCH resource pool that carries in the TRRI territory in conjunction with included time slot of described second rectangle E-PUCH resource pool and described E-AGCH, determine in second rectangle E-PUCH resource pool, to distribute to the E-PUCH rectangle resource of self.

Preferably, this method further comprises: support the UE of non-rectangle E-PUCH resource allocation, determine the division of E-PUCH resource pool on the corresponding HSUPA carrier wave according to the configuration of RNC;

Support the UE of non-rectangle E-PUCH resource allocation, monitor each E-AGCH in the E-AGCH set of distributing to self in first subframe; When current subframe is monitored E-AGCH, if previous subframe listens to the E-AGCH that distributes to self, then only monitor previous subframe and distributed to the E-AGCH of self in current subframe, otherwise, monitor each E-AGCH in the E-AGCH set of distributing to self;

After listening to the E-AGCH that distributes self, described UE resolves wherein many yards CRRI territories of 6 bits, determine to distribute in first rectangle E-PUCH resource pool the nodal information of self according to preceding 4 bits, and distribute to self time slot in first rectangle E-PUCH resource pool that carries in the TRRI territory in conjunction with included time slot of described first rectangle E-PUCH resource pool and described E-AGCH, determine in first rectangle E-PUCH resource pool, to distribute to the E-PUCH rectangle resource of self; And determine to distribute in second rectangle E-PUCH resource pool self nodal information according to back 2 bits in many yards CRRI territories of 6 bits, distribute to the time slot of self again in second the rectangle E-PUCH resource pool that carries in the TRRI territory in conjunction with included time slot of described second rectangle E-PUCH resource pool and described E-AGCH, determine in second rectangle E-PUCH resource pool, to distribute to the E-PUCH rectangle resource of self.

Preferably, describedly E-PUCH resource pool on the HSUPA carrier wave be divided into two rectangle E-PUCH resource pools be:

First rectangle E-PUCH resource pool comprises several complete time slots, and second rectangle E-PUCH resource pool comprises one or more non-complete time slots.

The distribution method of non-rectangle E-PUCH resource among a kind of HSUPA comprises:

For the UE that supports non-rectangle E-PUCH resource allocation, the NodeB that supports non-rectangle E-PUCH resource allocation is after described UE distributes non-rectangle E-PUCH resource, with the non-rectangle E-PUCH resource division of distributing is k rectangle resource, from the E-AGCH set of UE, select k E-AGCH, wherein each E-AGCH is used for a described UE of described rectangle resource notification, and k is the integer more than or equal to 1.

Preferably, when notifying described UE based on E-AGCH form 1, described each E-AGCH be used for each described rectangle resource notification UE be: utilize TRRI territory and the CRRI territory of each E-AGCH, the carrying rectangle resource gap information and nodal information; For the PRRI territory among each E-AGCH, ECSN territory, RDI territory, E-HICH indication territory, E-UCCH number indication territory, the value of same domain is identical.

Preferably, when notifying described UE based on E-AGCH form 2, described each E-AGCH be used for each described rectangle resource notification UE be: utilize TRRI territory and the CRRI territory of each E-AGCH, the carrying rectangle resource gap information and nodal information; For the PRRI territory among each E-AGCH, ECSN territory, territory sign, specific information 1, specific information 2, E-UCCH number indication territory, reservation bit territory, the value of same domain is identical.

Preferably, when k greater than the E-AGCH of described UE set in during the E-AGCH sum, in k rectangle resource, select m rectangle resource of the channel code number maximum of the SF=16 comprise, utilize the E-AGCH of described UE gather in all m E-AGCH, with m the described UE of rectangle resource notification.

Preferably, this method further comprises: support the UE of non-rectangle E-PUCH resource, report to RNC when inserting and self support the ability of non-rectangle E-PUCH resource allocation;

Support the NodeB of non-rectangle E-PUCH resource, report to described RNC and self support the ability of non-rectangle E-PUCH resource allocation;

For the NodeB that supports non-rectangle E-PUCH resource, the ability information that RNC reports described UE is transmitted to this NodeB.

Preferably, for the NodeB that does not support non-rectangle E-PUCH resource allocation, RNC does not issue the ability information that described UE reports to it; This NodeB only is that described UE distributes rectangle E-PUCH resource.

Preferably, this method further comprises: support the UE of non-rectangle E-PUCH resource allocation, monitor each E-AGCH in the E-AGCH set of distributing to self in each subframe;

Listen to a plurality of E-AGCH that distribute self in a subframe after, described UE resolves CRRI territory and the TRRI territory among each described E-AGCH respectively, determines the nodal information and the gap information of each rectangle resource;

To other each territories in described CRRI territory and the TRRI territory of removing among each E-AGCH, same domain is united parsing.

Preferably, when a described k E-AGCH was positioned at same time slot, described UE generated the DLPC order of an E-AGCH according to the SNR mean value of each E-AGCH that receives at this same time slot; Distributing to the DLPC that the E-PUCH of described UE utilizes each TPC territory to carry an E-AGCH of the up-to-date generation of described UE orders to NodeB;

Described NodeB merges processing to each TPC territory of E-PUCH, determines that the DLPC that carries orders, and carries out descending power control to described E-AGCH.

Preferably, when a described k E-AGCH is positioned at the different time-gap of same subframe, described UE receives k E-AGCH of same subframe, UE generates the DLPC order of an E-AGCH according to the SNR mean value of the E-AGCH that is positioned at same time slot, the DLPC order of the up-to-date generation of each time slot is carried in each TPC territory of the E-PUCH that distributes to described UE and sends to NodeB; Wherein, each in each TPC territory, the DLPC order of all carrying each time slot;

Described NodeB merges processing to each TPC territory of E-PUCH, determines the DLPC order of each time slot, and the E-AGCH of corresponding time slot is carried out power control.

Preferably, a described k E-AGCH utilizes the DLBF weight vector of up-to-date generation to carry out wave beam forming, and the DLBF weight vector of each E-AGCH is identical.

Preferably, when carrying out the ULPC of E-PUCH, the TPC territory on the described k E-AGCH is used to carry the ULPC order of E-PUCH of the UE of the identical up-to-date generation of NodeB;

Described UE receives k E-AGCH, and the TPC territory among each E-AGCH is merged processing, determines the ULPC order of carrying.

Preferably, when carrying out the ULSC of E-PUCH, the SS territory on the described k E-AGCH is used to carry the ULSC order of E-PUCH of the UE of the identical up-to-date generation of NodeB;

Described UE receives k E-AGCH, and the SS territory among each E-AGCH is merged processing, determines the ULSC order of carrying.

As seen from the above technical solution, among the present invention, when NodeB is UE distribution E-PUCH resource, for the UE that supports non-rectangle E-PUCH resource allocation, for it distributes non-rectangle E-PUCH resource, and the non-rectangle E-PUCH resource of distributing is divided into a plurality of rectangle resources, give UE by E-AGCH with the time slot and the node information notification of a plurality of rectangle resources.Like this, can realize the non-rectangle E-PUCH resource allocation of UE and give the purpose of UE, thereby make UE can utilize non-rectangle E-PUCH resource to carry out transfer of data, improve the up peak rate of UE the resource notification that distributes.

Embodiment

For making purpose of the present invention, technological means and advantage clearer, below the present invention is described in further details.

Basic thought of the present invention is: NodeB is that UE distributes non-rectangle E-PUCH resource, and be a plurality of rectangle resources with the resource division of distributing, by time slot and the node information notification UE of E-AGCH with a plurality of rectangle resources, UE utilizes the time slot and the nodal information of a plurality of rectangle resources that receive to determine a plurality of rectangle resources, and the non-rectangle E-PUCH resource of composition dispensing self.

Among the present invention, when utilizing E-AGCH to transmit the time slot of a plurality of rectangle resources and nodal information, provide two kinds of typical implementations: a kind of is that existing E-AGCH form is made amendment, be used to transmit the time slot and the nodal information of a plurality of rectangle resources, another kind is not made amendment to existing E-AGCH form, but utilizes many E-AGCH to transmit the time slot and the nodal information of a plurality of rectangle resources.Below by two specific embodiments above-mentioned two kinds of typical implementations of the present invention are described.In every kind of typical implementation, all comprise following a few partial content:

(1) the non-rectangle E-PUCH resource that will distribute to UE is notified to the method for UE by E-AGCH

(2) UE distributes to the method for its non-rectangle E-PUCH resource by the E-AGCH acquisition

(3) be used to distribute DLPC method and the DLBF method of the E-AGCH of non-rectangle E-PUCH resource

(4) the ULPC method of non-rectangle E-PUCH and ULSC method

Further, for making the distribution method backward compatibility of non-rectangle E-PUCH resource of the present invention, preferably, for the UE that supports non-rectangle E-PUCH resource allocation, UE need report " ability of supporting non-rectangle E-PUCH resource allocation " to give RNC; For the NODEB that supports non-rectangle E-PUCH resource allocation, NODEB also needs to report the ability of supporting non-rectangle E-PUCH resource allocation to RNC; For the NODEB that supports non-rectangle E-PUCH resource allocation, RNC is transmitted to this NODEB with UE for the tenability of non-rectangle E-PUCH resource allocation, based on this, support the NODEB of non-rectangle E-PUCH resource allocation can distribute non-rectangle E-PUCH resource for the UE that supports non-rectangle E-PUCH resource allocation.

Embodiment one:

Generally, the E-PUCH resource pool that disposes to NODEB of RNC takies several complete time slots and several non-complete time slots.Therefore, in any subframe, the E-PUCH resource pool can be divided into 2 rectangle E-PUCH resource pools on the HSUPA carrier wave, these two resource pools can be divided as required, preferably, first is made of some complete time slots, and second is made of one or more non-complete time slots.In the present embodiment, set forth at dividing two rectangle resource pool A and the B obtain as required.Preferably, first rectangle E-PUCH resource pool A is made of several complete time slots, and second rectangle resource pool B is made of the part resource of 1 time slot.

For the UE that supports non-rectangle E-PUCH resource allocation, when needs distributed non-rectangle E-PUCH resource to give UE, NodeB distributed to the non-rectangle E-PUCH resource of UE and is made up of two rectangle resources: first rectangle resource is made of the part resource among first rectangle resource A in the above-mentioned E-PUCH resource pool or whole resource; Second rectangle resource by the part resource among second rectangle resource B in the above-mentioned E-PUCH resource pool or all resource constitute.What wherein, be respectively in two rectangle resource pool A and B that UE distributes all is rectangle resources.

Because distributing to the non-rectangle resource of UE is identical in the power mandate of each time slot, therefore, support that the E-AGCH of non-rectangle E-PUCH resource allocation only need be with above-mentioned shared gap information and the node information notification UE of each rectangle resource that distributes to UE.

At first, provide the mode of the gap information notice UE that each rectangle resource is shared:

(1) for going up the least possible information bit above-mentioned two shared gap informations of rectangle resource is notified to UE by E-AGCH, on a HSUPA carrier wave of a sub-district, when RNC gives this carrier wave configuration E-PUCH resource pool this E-PUCH resource pool is resolved into the E-PUCH resource pool of two rectangles, be aforesaid first rectangle E-PUCH resource pool A and second rectangle E-PUCH resource pool B, do not take identical time slot between the E-PUCH resource pool of these 2 rectangles.For the UE that supports non-rectangle E-PUCH resource allocation, when reshuffling when when UE inserts, giving the UE collocation wireless link or to the Radio Link of UE, the timeslot number notice UE that RNC takies the E-PUCH resource pool of each rectangle in the E-PUCH resource pool of 2 rectangles decomposing on this carrier wave.

(2) utilizing E-AGCH when UE issues the relevant information of E-PUCH of distribution, utilize the TRRI territory among the E-AGCH, the number notifying UE of each time slot that the E-PUCH that distributes to UE is shared.

By the processing of above-mentioned two steps, UE just can obtain the gap information of the E-PUCH resource occupation of distributing to self.Particularly, determine the distribution of E-PUCH resource pool on the HSUPA carrier wave on the one hand by step (1), which time slot clear and definite two rectangle E-PUCH resource pools take separately; Determine to distribute to which time slot of E-PUCH resource occupation of self on the other hand by step (2); Thereby comprehensive two aspect information determine in first rectangle E-PUCH resource pool A, to distribute to UE rectangle E-PUCH resource occupation timeslot number and in second rectangle E-PUCH resource pool B, distribute to the timeslot number of the rectangle E-PUCH resource occupation of UE.

Secondly, provide the mode of the node information notification UE that each rectangle resource is shared:

Be the compatible as much as possible existing E-AGCH form of the E-AGCH form of the support non-rectangle E-PUCH resource that makes redetermination among the present invention, the E-AGCH form of the support non-rectangle E-PUCH resource allocation that the present invention proposes directly utilizes each territory in the existing E-AGCH form, to several territories wherein making different explanations, to reach the purpose of giving UE with the node information notification of distributing to each rectangle resource in the non-rectangle resource of UE.

Existing E-AGCH form has two kinds: E-AGCH form 1 and E-AGCH form 2.The following introduction earlier when adopting E-AGCH form 1 how by different explanations is made in several territories in this E-AGCH form, given UE with the non-rectangle E-PUCH resource allocation of distributing to UE.Then, introduce again when adopting E-AGCH form 2,, give UE the non-rectangle E-PUCH resource allocation of distributing to UE how by different explanations is made in several territories in this E-AGCH form.

Existing E-AGCH form 1 comprises following each territory:

The PRRI territory of (1) 5 bit: this territory is used for and will distributes to the power authorization notification UE of UE

The CRRI territory of (2) 5 bits: be used for node number notice UE with the E-PUCH resource;

The TRRI territory of (3) 5 bits: be used for each timeslot number notice UE that the E-PUCH that distributes UE is shared;

The ECSN territory of (4) 3 bits: this territory is used for the CSN of E-AGCH (cyclic sequence number) notice UE;

The RDI territory of (5) 3 bits: under the situation of high level indication RDI territory existence, the RDI territory is used for the duration notice UE with E-PUCH;

The E-HICH indication territory of (6) 2 bits: be used for and distribute to the number notifying UE of the E-HICH of UE in the E-HICH set of distributing to UE;

The E-UCCH number indication territory of (7) 3 bits: be used for and distribute to the number notice UE of the E-UCCH of UE.

In the present HSUPA transmission, the minimum particle size that is generally the E-PUCH resource of UE distribution is the channel code of 1 SF=8, simultaneously, the distribution of non-rectangle E-PUCH resource, be to carry out for the transmission demand that satisfies big data rate among the HSUPA, therefore, there is no need the minimum particle size of two rectangle resource allocations is all fixed on SF=8.Based on this, when distributing non-rectangle E-PUCH for UE, in first rectangle E-PUCH resource pool, be the channel code of 1 SF=8, and the minimum particle size for UE distribution rectangle resource is the channel code of 1 SF=4 in second rectangle E-PUCH resource pool for UE distributes the minimum particle size of rectangle resource.

Based on above-mentioned consideration, utilize 4 bits just can be illustrated in the nodal information of the rectangle resource occupation that distributes for UE among first rectangle E-PUCH resource pool A, utilize 3 bits just can be illustrated in the nodal information of the rectangle resource occupation that distributes for UE among second rectangle E-PUCH resource pool B.Therefore, among the present invention two node information notification UE that rectangle E-PUCH resource is shared that will distribute to UE, except that the CRRI territory that utilizes 5 bits, also in existing E-AGCH form, determine actual at present and untapped 2 bits in addition, constitute many yards CRRI territories of 7 bits with the CRRI territory of 5 bits, be used to transmit two shared nodal informations of rectangle E-PUCH resource distributing to UE.

Particularly, utilize preceding 4 bits in many yards CRRI territories of 7 bits to be carried on the nodal information of the rectangle resource of distributing for UE among first rectangle E-PUCH resource pool A, utilize back 3 bits to be carried among second rectangle E-PUCH resource pool B nodal information for the rectangle resource of UE distribution.

The selection of concrete 2 present actual untapped bits can have following two kinds:

1, since on each HSUPA carrier wave 1 E-HICH of configuration just enough, therefore, generally distribute in the E-HICH set of UE and include only an E-HICH.Therefore, the indication of the E-HICH on E-AGCH territory does not just have necessity of existence.Therefore, 2 bits in this territory can be used to constitute above-mentioned many yards CRRI territories.

2, in the HSUPA system, adopt the Typical Disposition of 2: 4 or 3: 3 usually.Generally can not adopt the configuration of 4: 2 or 5: 1.Therefore, among the HSUPA on each carrier wave the E-PUCH resource pool constitute by 3 time slots at most.Therefore, two bit free time of the right in the TRRI territory of 5 bits can be used to constitute above-mentioned many yards CRRI territories among the E-AGCH.

As above, promptly provided two kinds of E-AGCH forms that present embodiment provided, can be with the node information notification UE of two rectangle E-PUCH resource occupation.Again in conjunction with before the mode of carrying the gap information that two rectangle E-PUCH take that provides, the time slot and the node information notification UE that two rectangle resources can be taken respectively just, because two resources all are rectangle resources, therefore, utilize time slot and nodal information just can uniquely determine a rectangle Resource Block, thereby determine the E-PUCH resource of distributing to self.

For the value in other each territories in the E-AGCH form 1, determine that specifically mode is identical with existing mode, just repeats no more here.

For the two kinds of E-AGCH forms that carry non-rectangle E-PUCH resource information of coming that develop by above-mentioned E-AGCH form 1, can make an appointment and adopt wherein a kind of E-AGCH form, for the UE that supports non-rectangle E-PUCH resource allocation, NODEB will distribute to the non-rectangle E-PUCH resource notification UE of UE by the E-AGCH of this agreement.

Perhaps, RNC selects a kind of in above-mentioned two kinds of E-AGCH forms, and the E-AGCH form of selecting is notified to NODEB and UE.When the UE of a support non-rectangle E-PUCH resource was scheduled, NODEB distributed to its non-rectangle E-PUCH resource by the E-AGCH notice UE that selects.When supporting the information bit in UE each territory on resolving E-AGCH of non-rectangle E-PUCH resource, resolve according to the definition in each territory of the E-AGCH that selects.

By the way, can realize that promptly the non-rectangle E-PUCH resource that will distribute to UE is notified to UE by E-AGCH form 1.

Existing E-AGCH form 2 comprises following each territory:

The PRRI territory of (1) 5 bit: be used for and distribute to the power authorization notification UE of UE

The CRRI territory of (2) 4 bits: be used for node number notice UE with the E-PUCH resource;

The TRRI territory of (3) 5 bits: the number notifying UE that is used for each time slot that the E-PUCH that distributes to UE is shared;

The ECSN territory of (4) 3 bits: be used for CSN notice UE with E-AGCH;

The territory sign of (5) 2 bits

The specific information 1 of (6) 2 bits

The specific information 2 of (7) 5 bits

The E-UCCH number indication territory of (8) 3 bits: be used for and distribute to the number notice UE of the E-UCCH of UE.

The reservation bit of (9) 1 bits

Wherein, do following explanation for (7) three territories, (5) (6):

When the territory of 2 bits was masked as " 00 ", the specific information 1 of 2 bits was equivalent to the E-HICH indication territory of 2 bits in the E-AGCH form 1, and 3 bits are equivalent to the RDI territory of 3 bits in the E-AGCH form 1 in the specific information 2 of 5 bits, and other 2 bits keep;

When the territory of 2 bits sign was not " 00 ", the specific information 1 of 2 bits was equivalent to the resource repetition period subscript RRPI territory of 2 bits, and each bit all keeps in the specific information 2 of 5 bits.

For above-mentioned E-AGCH form 2, when utilizing this E-AGCH to carry non-rectangle E-PUCH resource related information,, in this E-AGCH form 2, select bit to constitute many yards CRRI territories equally with E-AGCH form 1 similar ground.These many yards CRRI territories are made of CRRI territory and other N the bit of 4 bits in the E-AGCH form 2.The CRRI territory of 4 bits constitutes 4 bits that begin most in many yards CRRI territories.

Particularly, indicate the node of first rectangle resource with the CRRI of 4 bits in the E-AGCH form 2; Node with second rectangle resource of last N bit indication in the many yards CRRI territories.When the minimum particle size of distributing when the channel code of second rectangle resource is the channel code of 1 SF=2, N=2; When the minimum particle size of distributing when the channel code of second rectangle resource is the channel code of 1 SF=4, N=3.

Similar with E-AGCH form 1, the constituted mode of N bit has following two kinds in addition:

(1) can constitute by the idle bit and the reservation bit in TRRI territory.

(2) can indicate territory and reservation bit to constitute by E-HICH.

Particularly, similar with E-AGCH form 1 when N=2 in the constructive method (1) of other N bit, N=2 bit is made of two idle bits in TRRI territory in addition, and these two bits are used to indicate the node of second rectangle resource distributing to UE.When N=3, N=3 bit is made of two idle bits and 1 reservation bit in TRRI territory in addition, and these 3 bits are used to indicate the node of second rectangle resource distributing to UE.Wherein, 1 reservation bit is any one bit in all reservation bits in the above-mentioned E-AGCH form 2, preferably, selects 1 reservation bit in (9) individual territory.Here all reservation bits of indication comprise: 2 of specific information 21 bits not using (9) individual territory in bit and the above-mentioned E-AGCH form 2 when being masked as " 00 " in the territory, 1 bit in (9) individual territory in 5 bits of specific information 2 and the above-mentioned E-AGCH form 2 when the territory sign is not " 00 ".

In the constructive method (2) of other N bit, when N=2, and the territory can be indicated the node of second rectangle resource distributing to UE with two idle bits in E-HICH territory when being masked as " 00 ".When N=3, and the territory is when being masked as " 00 ", the node that can distribute to second rectangle resource of UE with two idle bits and 1 reservation bit (preferably, selecting 1 reservation bit in (9) individual territory in the above-mentioned E-AGCH form 2) indication in E-HICH territory.Wherein, 1 reservation bit is any one bit in all reservation bits in the above-mentioned E-AGCH form 2, and all reservation bits of indication comprise here: 2 of specific information 21 bits not using (9) individual territory in bit and the above-mentioned E-AGCH form 2 when being masked as " 00 " in the territory.

When N=2, and territory sign can select two reservation bits to indicate the node of second rectangle resource distributing to UE in all reservation bits when be not " 00 ".When N=3, and territory sign can select three reservation bits to indicate the node of second rectangle resource distributing to UE in all reservation bits when be not " 00 ".Here all reservation bits of indication comprise: 5 bits of specific information 2 when (9) individual territory and territory sign is not for " 00 " in the above-mentioned E-AGCH form 2.

For the value in other each territories in the E-AGCH form 2, determine that specifically mode is identical with existing mode, just repeats no more here.

For the two kinds of E-AGCH forms that carry non-rectangle E-PUCH resource information of coming that develop by above-mentioned E-AGCH form 2, can make an appointment and adopt wherein a kind of E-AGCH form, for the UE that supports non-rectangle E-PUCH resource allocation, NODEB will distribute to the non-rectangle E-PUCH resource notification UE of UE by the E-AGCH of this agreement.

Perhaps, RNC selects a kind of in above-mentioned two kinds of E-AGCH forms, and the E-AGCH form of selecting is notified to NODEB and UE.When the UE of a support non-rectangle E-PUCH resource was scheduled, NODEB distributed to its non-rectangle E-PUCH resource by the E-AGCH notice UE that selects.When supporting the information bit in UE each territory on resolving E-AGCH of non-rectangle E-PUCH resource, resolve according to the definition in each territory of the E-AGCH that selects.

By the way, can realize that promptly the non-rectangle E-PUCH resource that will distribute to UE is notified to UE by E-AGCH form 2.

Next, under the above-mentioned mode that issues non-rectangle E-PUCH resource by E-AGCH, provide UE obtains the E-PUCH resource of distribution by E-AGCH method.

UE need monitor each E-AGCH in the E-AGCH set of distributing to it in first subframe.When UE when previous subframe does not listen to the E-AGCH that distributes to it, UE need monitor each E-AGCH in the E-AGCH set in current subframe.When UE when previous subframe listens to the E-AGCH that distributes to it, UE need monitor previous sub-frame allocation in current subframe and give its E-AGCH.

That is to say, identical with existing mode when carrying out the E-AGCH monitoring, when dispatching UE continuously, utilize identical E-AGCH to carry out resource allocation.

If UE is when current subframe detects an E-AGCH and distributes to it, UE will resolve this E-AGCH according to the definition in each territory among the E-AGCH of the last loaded information bit of this E-AGCH and E-AGCH that makes an appointment or selection and go up the loaded information bit, obtain NODEB and distribute to its E-PUCH resource information and E-HICH information.

Particularly, for E-AGCH form 1, UE resolves many yards CRRI territories of 7 bits, determine to distribute in first rectangle E-PUCH resource pool the nodal information of self according to preceding 4 bits, and distribute to self time slot in first rectangle E-PUCH resource pool that carries in the TRRI territory in conjunction with included time slot of first rectangle E-PUCH resource pool A and E-AGCH, determine in first rectangle E-PUCH resource pool, to distribute to the E-PUCH rectangle resource of self; And determine to distribute among second rectangle E-PUCH resource pool B self nodal information according to back 3 bits in many yards CRRI territories of 7 bits, distribute to the time slot of self again in second the rectangle E-PUCH resource pool that carries in the TRRI territory in conjunction with included time slot of second rectangle E-PUCH resource pool B and E-AGCH, determine in second rectangle E-PUCH resource pool B, to distribute to the E-PUCH rectangle resource of self.

Particularly, for E-AGCH form 2, UE resolves many yards CRRI territories of 4+N bit, determine to distribute in first rectangle E-PUCH resource pool the nodal information of self according to preceding 4 bits, and distribute to self time slot in first rectangle E-PUCH resource pool that carries in the TRRI territory in conjunction with included time slot of first rectangle E-PUCH resource pool A and E-AGCH, determine in first rectangle E-PUCH resource pool, to distribute to the E-PUCH rectangle resource of self; And determine to distribute among second rectangle E-PUCH resource pool B self nodal information according to back N bit in the many yards CRRI territories of 4+N bit, distribute to the time slot of self again in second the rectangle E-PUCH resource pool that carries in the TRRI territory in conjunction with included time slot of second rectangle E-PUCH resource pool B and E-AGCH, determine in second rectangle E-PUCH resource pool B, to distribute to the E-PUCH rectangle resource of self.

Simultaneously, under above-mentioned mode of carrying out non-rectangle E-PUCH resource allocation by E-AGCH, carry out ULPC and the ULSC method of the DLPC of E-AGCH and DLBF method, E-PUCH, identical with existing implementation.Particularly,

When carrying out the DLPC of E-AGCH, the SNR (signal to noise ratio) of the E-AGCH that distributes to it that the UE basis receives and the SNR desired value of E-AGCH generate DLPC (descending power control) order of E-AGCH; Distribute to the DLPC order that TPC (transmitting power control) territory on the E-PUCH of UE is used to carry the E-AGCH of the up-to-date generation of UE; NODEB receives the E-PUCH that UE sends, and extracts the DLPC order that E-PUCH goes up the E-AGCH of TPC territory carrying, adjusts the transmitting power of the E-AGCH that distributes to UE according to this DLPC order.

When carrying out the DLBF of E-AGCH, the channel estimating of the E-PUCH of the UE that the NODEB basis receives is or/and the channel estimating of other up channels of UE generates the DLBF weight vector of UE.The E-AGCH that distributes to the support non-rectangle E-PUCH resource allocation of UE will adopt the DLBF weight vector of the up-to-date generation of NODEB UE to carry out down beam shaping.

When carrying out the ULPC of E-PUCH, NODEB is when receiving the E-PUCH of UE, to generate ULPC (uplink power control) order of E-PUCH according to the SNR desired value of the SNR of E-PUCH and E-PUCH, described E-PUCH comprises that distributing to the E-PUCH of the E-PUCH of the scheduling type of UE, semi-persistent scheduling type that NODEB distributes to UE and RNC by E-AGCH disposes E-PUCH to the non-scheduling type of UE; Distribute to the ULPC order of E-PUCH that TPC territory on the E-AGCH of UE is used to carry the UE of the up-to-date generation of NODEB, the ULPC order of giving the corresponding E-HICH of the E-PUCH of semi-persistent scheduling type of UE and giving the E-PUCH of the UE that the corresponding E-HICH of the E-PUCH of non-scheduling type of UE also will carry the up-to-date generation of NODEB with configuration with configuration, when when same subframe exists E-AGCH and above-mentioned E-HICH simultaneously, E-AGCH orders with the ULPC that E-HICH will carry identical E-PUCH; UE receives NODEB and sends to its E-AGCH and above-mentioned E-HICH, extracts E-AGCH and goes up the ULPC order of carrying on the ULPC order of E-PUCH of TPC territory carrying and the E-HICH, distributes to the transmitting power of its E-PUCH according to this ULPC order adjustment.When same subframe exists E-AGCH and E-HICH simultaneously, if carry identical ULPC order on E-AGCH and the E-HICH, UE only responds a ULPC order; If the ULPC that carries on E-AGCH and E-HICH order is not simultaneously, UE just abandons the ULPC order of extracting from these two kinds of channels.

When carrying out the ULSC of E-PUCH, NODEB is when receiving the E-PUCH of UE transmission, will be according to the channel estimating of E-PUCH, or according to the channel estimating of other up channels of the channel estimating of E-PUCH and UE, the ULSC (uplink synchronous control) that generates UE orders, and described E-PUCH comprises that distributing to the E-PUCH of the E-PUCH of the scheduling type of UE, semi-persistent scheduling type that NODEB distributes to UE and RNC by E-AGCH disposes E-PUCH to the non-scheduling type of UE; Distribute to the ULSC order that SS (simultaneous bias) territory on the E-AGCH of UE is used to carry the UE of the up-to-date generation of NODEB, E-HICH corresponding and the ULSC order that also will carry the UE of the up-to-date generation of NODEB to the corresponding E-HICH of the E-PUCH of the non-scheduling type of UE with configuration with the E-PUCH that disposes the semi-persistent scheduling type of giving UE, when when same subframe exists E-AGCH and above-mentioned E-HICH simultaneously, E-AGCH orders with the ULSC that E-HICH will carry identical UE; UE receives NODEB and sends to its E-AGCH and E-HICH, and the extraction E-AGCH upward ULSC of the UE of SS territory carrying orders or extracts the ULSC that carries on the E-HICH and order, and orders the TA (Timing Advance) of the E-PUCH that adjusts UE according to this ULSC.Perhaps, UE goes up SS territory carrying on other down channels of UE in the ULSC order of carrying in the ULSC order, E-HICH of the UE of SS territory carrying and the same subframe to E-AGCH ULSC order merges, and UE adjusts the TA of each up channel of UE according to the ULSC order that merges.

The specific implementation of above-mentioned present embodiment is can being that to carry out non-rectangle E-PUCH resource allocation be that prerequisite describes to UE.In actual applications, be subjected to restriction and the influence of RNC collocation strategy and the consideration of backward compatibility of UE and NodeB ability, whether can and allow for UE and distribute non-rectangle E-PUCH resource in the manner described above, need further consider.

As previously mentioned, NodeB and UE support the information of non-rectangle E-PUCH resource can report RNC.For the NODEB that supports non-rectangle E-PUCH resource allocation, E-PUCH resource pool on any one carrier wave that RNC could support this NODEB is divided into two sub-resource pools and disposes to NODEB, simultaneously, RNC need be transmitted to the ability of the support non-rectangle E-PUCH resource allocation of UE the NODEB that supports non-rectangle E-PUCH resource allocation.RNC also needs to dispose two sub-resource pools on this UE place carrier wave to the UE that supports non-rectangle E-PUCH resource allocation.

For the NODEB that supports non-rectangle E-PUCH resource allocation, NODEB need give based on two sub-resource pools of each carrier wave and support the UE of non-rectangle E-PUCH resource allocation to distribute the non-rectangle resource on this carrier wave.

For supporting configuration more flexibly, RNC can select two the sub-resource pools of each carrier wave configuration to the NODEB that supports non-rectangle E-PUCH resource allocation, also can select all to dispose a resource pool to each carrier wave of the NODEB that supports non-rectangle E-PUCH resource allocation.

For the NODEB that supports non-rectangle E-PUCH resource allocation, when RNC gave two sub-resource pools of each carrier wave configuration of this NODEB, RNC need be transmitted to NODEB with the support " ability of non-rectangle E-PUCH resource allocation " of UE; RNC also needs to dispose two sub-resource pools on this UE place carrier wave to the UE that supports non-rectangle E-PUCH resource allocation.

When RNC gave two sub-resource pools of each carrier wave configuration of the NODEB that supports non-rectangle E-PUCH resource allocation, this NODEB need be based on the UE distribution non-rectangle resource of two sub-resource pools on each carrier wave to the support non-rectangle E-PUCH resource allocation on the corresponding carriers.

For the NODEB that supports non-rectangle E-PUCH resource allocation, when RNC gave 1 resource pool of each carrier wave configuration of this NODEB, the support " ability of non-rectangle E-PUCH resource allocation " that RNC will UE was transmitted to NODEB.This NODEB will distribute a rectangle resource for each UE that is positioned on this carrier wave based on 1 resource pool on each carrier wave.This NODEB distributes non-rectangle E-PUCH resource can not for any UE.

Further, RNC can also select to support the E-PUCH resource pool on any one carrier wave of NODEB of non-rectangle E-PUCH resource allocation to be divided into two sub-resource pools to dispose to NODEB, also can select not decompose the E-PUCH resource pool on this carrier wave of this NODEB, a resource pool is disposed to NODEB.

When RNC gave two sub-resource pools of this carrier wave configuration of this NODEB, the ability that RNC need will be positioned at the support non-rectangle E-PUCH resource allocation of the UE on this carrier wave was transmitted to NODEB.Simultaneously, RNC disposes this two sub-resource pools need for the UE of each the support non-rectangle E-PUCH resource allocation that is positioned on this carrier wave of this NODEB.

For the NODEB that supports non-rectangle E-PUCH resource allocation, when RNC had disposed two E-PUCH child resource ponds for its carrier wave, NODEB need distribute the non-rectangle resource for the UE of the support non-rectangle E-PUCH resource allocation that is positioned at this carrier wave based on these two sub-resource pools.

For the NODEB that supports non-rectangle E-PUCH resource allocation, when RNC has disposed a resource pool for its carrier wave, RNC will this carrier wave on the support " ability of non-rectangle E-PUCH resource allocation " of UE be transmitted to NODEB.For any UE that is positioned on this carrier wave, NODEB distributes the rectangle resource can only for this UE, distributes the non-rectangle resource can not for this UE.

In above-mentioned process of carrying out resource pool configuration for carrier wave, can be configured to different situations as required for different carrier waves, for example for the part carrier wave disposes a resource pool, then the UE on these carrier waves can not be assigned with the non-rectangle resource; For two sub-resource pools of other portion of carriers configuration, then on these carrier waves, can distribute the non-rectangle resource for UE.

More than be the specific implementation of the embodiment of the invention one.In this implementation, utilize the distribution of an E-AGCH realization non-rectangle E-PUCH resource, and compatible as much as possible existing E-AGCH form, both realized the distribution of non-rectangle E-PUCH resource, saved the information transmitted amount again.

Embodiment two:

In the present embodiment, for the UE that supports non-rectangle E-PUCH resource allocation, when NodeB need distribute non-rectangle E-PUCH resource for this UE, with the non-rectangle E-PUCH resource division of distributing is a plurality of rectangle resources, select a plurality of E-AGCH from the E-AGCH set of UE, the E-AGCH number of selecting equates with the rectangle number of resources of division.Each E-AGCH is used for the relevant information of a rectangle resource is notified to UE.When carrying out the selection of E-AGCH, can select according to information such as numberings, and, preferably, when dispatching same UE continuously, distribute to the E-AGCH of this UE before selecting as far as possible.

Wherein, when carrying the relevant information of a rectangle resource for each E-AGCH, the E-AGCH form still adopts existing form, and the value in other each territories except that CRRI territory and TRRI territory determines that with existing mode is identical.CRRI territory and TRRI territory are used to carry the node and the gap information of respective rectangular resource occupation.

Particularly, for the CRRI territory, in each E-AGCH, carry its corresponding shared nodal information of rectangle resource; For the TRRI territory, in each E-AGCH, carry its corresponding shared gap information of rectangle resource; Identical value is arranged in other each territories on all selecteed E-AGCH.

Be arranged to identical for E-AGCH form 1 following each territory:

The PRRI of (1) 5 bit (power mandate) territory

The ECSN of (2) 3 bits (E-AGCH cyclic sequence number) territory

The RDI of (3) 3 bits (resource continuous indication) territory

The E-HICH indication territory of (4) 2 bits

The E-UCCH number indication territory of (5) 3 bits:

Be arranged to identical for E-AGCH form 2 following each territories:

The PRRI territory of (1) 5 bit: this territory is used for and will distributes to the power authorization notification UE of UE

The ECSN territory of (2) 3 bits: this territory is used for the CSN of E-AGCH (cyclic sequence number) notice UE;

The territory sign of (3) 2 bits

The specific information 1 of (4) 2 bits

The specific information 2 of (5) 5 bits

The E-UCCH number indication territory of (6) 3 bits: be used for and distribute to the number notice UE of the E-UCCH of UE.

The reservation bit of (7) 1 bits

In same subframe, NodeB sends to UE with the E-AGCH that selects, and notice UE distributes to its E-PUCH resource.The mode of above-mentioned distribution E-PUCH resource is called the concurrent mode of E-AGCH.

Under the concurrent mode of E-AGCH, the mode that UE obtains the E-PUCH resource of distributing to it is as follows:

UE need monitor each E-AGCH in the E-AGCH set of distributing to it in each subframe.When if UE does not detect the E-AGCH that distributes to it in current subframe, UE will continue to monitor each E-AGCH in next subframe.If UE detects N in current subframe _E-AGCHWhen individual E-AGCH distributes to it, UE will obtain NODEB according to this N E-AGCH and distribute to its E-PUCH resource information and E-HICH information.To continue to monitor each E-AGCH at next subframe UE.According to the difference of the detected E-AGCH number of UE, be divided into two kinds of processing modes:

(1) when UE detects an E-AGCH, that is: N _E-AGCH=1 o'clock, processing mode was with existing identical.Particularly, UE can obtain all information bits of this E-AGCH carrying by the decoding to a detected unique E-AGCH.

When the E-AGCH that receives as UE adopts E-AGCH form 1, can determine the following information of following E-PUCH and E-HICH according to each territory that comprises in the information bit on this E-AGCH:

(1), can determine to distribute to the power mandate of the E-PUCH of UE according to the PRRI territory;

(2) according to the CRRI territory, can determine to distribute to the node of the E-PUCH of UE, according to one-to-one relationship between node and the channel code, can distribute to channel code and the spreading factor of the E-PCUH of UE;

(3), can determine to distribute to the timeslot number of each time slot of the E-PUCH of UE according to the TRRI territory;

(4), can determine the CSN (cyclic sequence number) of E-AGCH according to the ECSN territory;

(5) under the situation that high level indication RDI exists, can obtain the duration of E-PUCH according to the RDI territory;

(6) according to E-HICH indication territory, the E-HICH that can obtain to distribute to UE is which E-HICH in the E-HICH set;

(7), can obtain to distribute to the number of the E-UCCH of UE according to E-UCCH number indication territory;

UE reports the MAC layer with the information of determining in above-mentioned (1), (2), (3), (5) and (7), and the MAC layer will be assembled the E-DCH data block according to these information, and the modulation system of definite E-DCH data block.

When the E-AGCH that receives as UE adopts E-AGCH form 2, can determine the following information of following E-PUCH and E-HICH according to each territory that comprises in the information bit on this E-AGCH:

(1), can obtain to distribute to the power mandate of UE according to the PRRI territory of 5 bits

(2), can obtain the node number of E-PUCH resource according to the CRRI territory of 4 bits;

(3), can obtain each shared timeslot number of E-PUCH according to the TRRI territory of 5 bits;

(4), can obtain the CSN (cyclic sequence number) of E-AGCH according to the ECSN territory of 3 bits;

(5) according to the territory sign of 2 bits, the specific information 1 of 2 bits and the specific information 2 of 5 bits, can obtain other relevant informations;

UE reports the MAC layer with the information of determining in above-mentioned (1), (2), (3) and (5), and the MAC layer will be assembled the E-DCH data block according to these information, and the modulation system of definite E-DCH data block.

(2) when UE detects a plurality of E-AGCH, that is: N _E-AGCH＞1 o'clock, UE will be respectively resolves CRRI territory and TRRI territory on each E-AGCH that is detected according to each E-AGCH decode results, unites other each territories of resolving on each E-AGCH that is detected according to the decode results of all E-AGCH.When E-AGCH was concurrent, the information that each E-AGCH goes up other each territories outside CRRI territory and the TRRI territory was identical, and therefore, UE can unite parsing to other each territories of each detected E-AGCH.

Particularly, for each E-AGCH that is detected, UE can obtain all information bits that this E-AGCH goes up carrying by the decoding to this E-AGCH.UE will go up CRRI territory in the information bit according to this E-AGCH and determine that this E-AGCH distributes to the timeslot number of each time slot of E-PUCH resource occupation of the rectangle of UE, UE will determine that this E-AGCH distributes to the node of the rectangle E-PUCH resource of UE at each Time Slot Occupancy that takies according to TRRI territory in the last information bit of this E-AGCH, and, determine to distribute to the number and the spreading factor of channel code of the E-PUCH of UE according to the one-to-one relationship between node and the channel code number.The above-mentioned information that UE will obtain reports the MAC layer, is used for the modulation system of MAC layer assembling E-DCH data block and definite E-DCH data block.

Go up any one information bit in each territory outside CRRI territory and the TRRI territory for each E-AGCH that is detected, UE determines that this information bit value among each E-AGCH is that this information bit value is 1 number among 0 number and each E-AGCH.If value is 0 number greater than value is 1 number, then determine: this bit is united resolves to 0; If value is 0 number less than value is 1 number, determine: this information bit is united to resolve to: 1; To equal value be 1 number if value is 0 number, selects a value in 0 and 1 at random, this information bit united resolve to the value that this is selected at random.

Obtain the value that E-AGCH goes up the information bit in other each territories outside CRRI territory and the TRRI territory by above-mentioned associating analytic method.

When E-AGCH adopts form 1, can obtain following information according to the value of each domain information bit:

(1), can determine to distribute to the power mandate of the E-PUCH of UE according to the PRRI territory;

(2), can determine the CSN (cyclic sequence number) of E-AGCH according to the ECSN territory;

(3) under the situation that high level indication RDI exists, can obtain the duration of E-PUCH according to the RDI territory;

(4) according to E-HICH indication territory, the E-HICH that can obtain to distribute to UE is which E-HICH in the E-HICH set;

(5), can obtain to distribute to the number of the E-UCCH of UE according to E-UCCH number indication territory;

UE reports the MAC layer with the information of determining in above-mentioned (1), (3) and (4), is used for the modulation system of MAC layer assembling E-DCH data block and definite E-DCH data block.

When E-AGCH adopts form 2, can obtain following information according to the value of each domain information bit:

(1), can determine to distribute to the power mandate of UE according to the PRRI territory

(2), can determine the CSN of E-AGCH according to the ECSN territory of 3 bits;

(3) according to the territory sign of 2 bits, the specific information 1 of 2 bits and the specific information 2 of 5 bits, can obtain other relevant informations;

UE reports the MAC layer with the information of determining in above-mentioned (1) and (3), is used for the modulation system of MAC layer assembling E-DCH data block and definite E-DCH data block.

Simultaneously, under the mode of concurrent E-AGCH, carry out ULPC and the ULSC method of the DLPC of E-AGCH and DLBF method, E-PUCH, different with existing implementation.Below be described in detail.

When carrying out the DLPC of E-AGCH, concurrent E-AGCH and E-PUCH constitute the DLPC loop of E-AGCH.Particularly, whether be positioned at identical time slot, have two kinds of processing according to concurrent a plurality of E-AGCH:

(1) when each concurrent E-AGCH is positioned at same time slot, the DLPC method of these E-AGCH is as follows:

UE receives each E-AGCH be positioned at same time slot, generates the DLPC order of a unique E-AGCH according to the mean value of the SNR of these E-AGCH.The E-PUCH that distributes to UE is used to carry the DLPC order of the E-AGCH of the up-to-date generation of UE, and this DLPC order is carried to NODEB by each TPC territory on the E-PUCH, and wherein, the information that carry in each TPC territory is identical.

NODEB obtains the estimation of TPC symbol each TPC territory in by receiving E-PUCH, the estimation of the TPC symbol in each TPC territory is merged, and carry out QPSK and separate the mediation hard decision, and the DLCP that obtains E-AGCH orders.Distribute to the DLPC order of each concurrent E-AGCH response of UE from the E-AGCH of the E-PUCH extraction of UE.

(2) when each concurrent E-AGCH is positioned at different time-gap, the DLPC method of these E-AGCH is as follows:

UE receives each concurrent E-AGCH.For the E-AGCH that is positioned at same time slot, UE generates the DLPC order of a unique E-AGCH according to the SNR desired value of the SNR mean value of these E-AGCH and E-AGCH, thereby each time slot at concurrent E-AGCH place, corresponding each time slot generate a DLPC order.

The E-PUCH that distributes to UE is used to carry the DLPC order of E-AGCH of each time slot of the up-to-date generation of UE, these DLPC orders are carried to NODEB by each TPC territory on the E-PUCH, wherein, the information that carry in each TPC territory is identical, is the DLPC order of each time slot.At present, a TPC territory is merely able to carry a DLPC order.Can expand the TPC territory, make the TPC territory can carry the DLPC order of the E-AGCH of a plurality of time slots simultaneously, for example, can expand the DLPC order that more bits are used to carry a plurality of time slots.Generally, the E-AGCH in the E-AGCH of the UE set is positioned at same time slot.When E-AGCH occurring and be positioned at different time-gap, the TPC territory is extended to the DLPC order of the E-AGCH that can carry a plurality of E-AGCH time slots simultaneously.

NODEB obtains the estimation of a plurality of TPC symbols each TPC territory in by receiving E-PUCH, the estimation of a plurality of TPC symbols in each TPC territory is merged, and carry out QPSK and separate the mediation hard decision, and the DLCP that obtains a plurality of E-AGCH orders.Distribute to the DLPC order of each concurrent E-AGCH response of UE from the E-AGCH that is used for this E-AGCH place time slot of the E-PUCH extraction of UE.

When carrying out the DLBF of E-AGCH, the channel estimating of the E-PUCH of the UE that the NODEB basis receives is or/and the channel estimating of other up channels of UE generates the DLBF weight vector of UE.Each the concurrent E-AGCH that distributes to UE will adopt the DLBF weight vector of the up-to-date generation of NODEB UE to carry out down beam shaping.The wave beam forming weight vector of the E-AGCH that each is concurrent is identical.

When carrying out the ULPC of E-PUCH, NODEB is when receiving the E-PUCH of UE, to generate ULPC (uplink power control) order of E-PUCH according to the SNR desired value of the SNR of E-PUCH and E-PUCH, described E-PUCH comprises that distributing to the E-PUCH of the E-PUCH of the scheduling type of UE, semi-persistent scheduling type that NODEB distributes to UE and RNC by above-mentioned E-AGCH disposes E-PUCH to the non-scheduling type of UE; Distribute to the ULPC order of E-PUCH that TPC territory on each concurrent E-AGCH of UE is used to carry the UE of the up-to-date generation of NODEB, the ULPC order of giving the corresponding E-HICH of the E-PUCH of semi-persistent scheduling type of UE and giving the E-PUCH of the UE that the corresponding E-HICH of the E-PUCH of non-scheduling type of UE carries the up-to-date generation of NODEB equally with configuration simultaneously with configuration, when when same subframe exists E-AGCH and above-mentioned E-HICH simultaneously, E-AGCH orders with the ULPC that E-HICH will carry identical E-PUCH; UE receives NODEB and sends to its each E-AGCH or E-HICH, the ULPC order of each E-AGCH being gone up the identical E-PUCH of TPC territory carrying merges, adjust the transmitting power of the E-PUCH that distributes to it according to the ULPC order of this merging, perhaps extract the ULPC order that E-HICH goes up the E-PUCH of carrying, adjust the transmitting power of E-PUCH according to this ULPC order.When same subframe exists E-AGCH and E-HICH simultaneously, if carry identical ULPC order on each concurrent E-AGCH and the E-HICH, UE only responds a ULPC order; If the ULPC that carries on E-AGCH that each is concurrent and E-HICH order is not simultaneously, UE just abandons the ULPC order of extracting on these two kinds of channels.

When carrying out the ULSC of E-PUCH, NODEB is when receiving the E-PUCH of UE transmission, will be according to the channel estimating of E-PUCH, or according to the channel estimating of other up channels of the channel estimating of E-PUCH and UE, the ULSC (uplink synchronous control) that generates UE orders, and described E-PUCH comprises that distributing to the E-PUCH of the E-PUCH of the scheduling type of UE, semi-persistent scheduling type that NODEB distributes to UE and RNC by above-mentioned E-AGCH disposes E-PUCH to the non-scheduling type of UE; Distribute to the ULSC order that SS (simultaneous bias) territory on each concurrent E-AGCH of UE is used to carry the UE of the up-to-date generation of NODEB, these concurrent E-AGCH carry identical ULSC order, corresponding with the E-PUCH that disposes the semi-persistent scheduling type of giving UE simultaneously E-HICH and the ULSC order of carrying the UE of the up-to-date generation of NODEB equally to the corresponding E-HICH of the E-PUCH of the non-scheduling type of UE with configuration, when when same subframe exists concurrent E-AGCH and above-mentioned E-HICH simultaneously, E-AGCH orders with the ULSC that E-HICH will carry identical UE; UE receives NODEB and sends to its each concurrent E-AGCH and E-HICH, merge the ULSC order that each E-AGCH goes up the UE of SS territory carrying, adjust the TA (Timing Advance) of the E-PUCH of UE according to the ULSC order that merges, perhaps, from the ULSC order that E-HICH extracts UE, adjust the TA of the E-PUCH of UE according to the ULSC order of extracting.Perhaps, UE goes up SS territory carrying on other down channels of UE in the ULSC order of carrying in the ULSC order, E-HICH of the UE of SS territory carrying and the same subframe to each concurrent E-AGCH ULSC order merges, and UE adjusts the TA of each up channel of UE according to the ULSC order that merges.

In the present embodiment, UE and NodeB need support self that equally the ability information of non-rectangle E-PUCH resource allocation reports RNC.For the NODEB that supports non-rectangle E-PUCH resource allocation, RNC is transmitted to this NODEB with UE for the tenability of non-rectangle E-PUCH resource allocation, and this NODEB supports the UE of non-rectangle E-PUCH resource allocation to distribute the non-rectangle resource; For the NODEB that does not support non-rectangle E-PUCH resource allocation, RNC does not need UE is transmitted to this NODEB for the tenability information of non-rectangle E-PUCH resource allocation, can only be that UE distributes rectangle E-PUCH resource according to existing mode for this class NODEB.

More than be the specific implementation of the embodiment of the invention two.In this implementation, utilize the distribution of a plurality of E-AGCH realization non-rectangle E-PUCH resources, and compatible fully existing E-AGCH form, realized the distribution of non-rectangle E-PUCH resource.

The above only is preferred embodiment of the present invention, and is in order to restriction the present invention, within the spirit and principles in the present invention not all, any modification of being made, is equal to replacement, improvement etc., all should be included within the scope of protection of the invention.

Claims (29)

1. the distribution method of non-rectangle E-PUCH resource among the HSUPA is characterized in that this method comprises:

In advance RNC is disposed to the E-PUCH resource pool on the HSUPA carrier wave of NodeB and be divided into two rectangle E-PUCH resource pools, described NodeB is for supporting the NodeB of non-rectangle E-PUCH resource allocation;

For supporting non-rectangle E-PUCH resource allocation and being positioned at UE on the described HSUPA carrier wave of described NodeB, when being described UE collocation wireless link, RNC disposes the timeslot number that two rectangle E-PUCH resource pools that are divided on the described HSUPA carrier wave take separately to described UE;

NodeB is that described UE is when distributing non-rectangle E-PUCH resource, from described two rectangle E-PUCH resource pools, select the rectangle resource allocation to give described UE respectively, and on the E-AGCH that determines, the described UE of node information notification of the resource that will in described two E-PUCH resource pools, select respectively.

2. method according to claim 1, it is characterized in that, when from described two rectangle E-PUCH resource pools, selecting resource allocation to give described UE respectively, in first rectangle E-PUCH resource pool,, in second rectangle E-PUCH resource pool, be the channel code of 1 SF=4 for the minimum particle size of described UE Resources allocation for the minimum particle size of described UE Resources allocation is the channel code of 1 SF=8;

When notifying described UE based on E-AGCH form 1, the node information notification UE of the described resource that will select respectively in two E-PUCH resource pools is:

On the E-AGCH that determines, according to the E-AGCH form of selecting in advance, utilize the CRRI territory of 5 bits and the many yards CRRI territories that free time 2 bit in other territories constitutes 7 bits, utilize wherein preceding 4 bits to be used for being carried on the nodal information of described first rectangle E-PUCH resource pool, utilize wherein back 3 bits to be used for being carried on the nodal information of described second rectangle E-PUCH resource pool for the resource of described UE distribution for the resource of described UE distribution.

3. method according to claim 2 is characterized in that, utilizes the CRRI territory of 5 bits and the E-HICH of 2 bits to indicate the territory to constitute many yards CRRI territories of 7 bits.

4. method according to claim 2 is characterized in that, utilizes the right 2 bits in the CRRI territory of 5 bits and the TRRI territory to constitute many yards CRRI territories of 7 bits.

5. method according to claim 1, it is characterized in that, when from described two rectangle E-PUCH resource pools, selecting resource allocation to give described UE respectively, in first rectangle E-PUCH resource pool,, in second rectangle E-PUCH resource pool, be the channel code of 1 SF=2 for the minimum particle size of described UE Resources allocation for the minimum particle size of described UE Resources allocation is the channel code of 1 SF=8;

When notifying described UE based on E-AGCH form 2, the node information notification UE of the described resource that will select respectively in two E-PUCH resource pools is:

On the E-AGCH that determines, according to the E-AGCH form of selecting in advance, utilize the CRRI territory of 4 bits and the many yards CRRI territories that free time 2 bit in other territories constitutes 6 bits, utilize wherein preceding 4 bits to be used for being carried on the nodal information of described first rectangle E-PUCH resource pool, utilize wherein back 2 bits to be used for being carried on the nodal information of described second rectangle E-PUCH resource pool for the resource of described UE distribution for the resource of described UE distribution.

6. method according to claim 5 is characterized in that, utilizes the right 2 bits in the CRRI territory of 4 bits and the TRRI territory to constitute many yards CRRI territories of 6 bits.

7. method according to claim 5 is characterized in that, when the territory is masked as " 00 " among the described E-AGCH, utilizes the specific information 1 of the CRRI territory of 4 bits and 2 bits to constitute many yards CRRI territories of 6 bits;

When territory sign among the described E-AGCH be not " 00 ", in the reservation bit of the specific information 2 of 5 bits and 1 bit, select 2 bits, the CRRI territory that utilizes 4 bits and 2 bits of selecting constitute many yards CRRI territories of 6 bits.

8. method according to claim 1, it is characterized in that, when from described two rectangle E-PUCH resource pools, selecting resource allocation to give described UE respectively, in first rectangle E-PUCH resource pool,, in second rectangle E-PUCH resource pool, be the channel code of 1 SF=4 for the minimum particle size of described UE Resources allocation for the minimum particle size of described UE Resources allocation is the channel code of 1 SF=8;

When notifying described UE based on E-AGCH form 2, the node information notification UE of the described resource that will select respectively in two E-PUCH resource pools is:

On the E-AGCH that determines, according to the E-AGCH form of selecting in advance, utilize the CRRI territory of 4 bits and the many yards CRRI territories that free time 3 bit in other territories constitutes 7 bits, utilize wherein preceding 4 bits to be used for being carried on the nodal information of described first rectangle E-PUCH resource pool, utilize wherein back 3 bits to be used for being carried on the nodal information of described second rectangle E-PUCH resource pool for the resource of described UE distribution for the resource of described UE distribution.

9. method according to claim 8, it is characterized in that, when the territory is masked as " 00 " among the described E-AGCH, in 2 idle bits of the reservation bit of 1 bit and 5 bit specific informations 2, select 1 bit, utilize the right 2 bits in the CRRI territory, TRRI territory of 4 bits and 1 bit selecting constitutes many yards CRRI territories of 7 bits;

When territory sign among the described E-AGCH be not " 00 ", in the reservation bit of the specific information 2 of 5 bits and 1 bit, select 1 bit, utilize in the CRRI territory, TRRI territory of 4 bits on the right of 2 bits and 1 bit selecting constitute many yards CRRI territories of 7 bits.

10. method according to claim 8, it is characterized in that, when the territory is masked as " 00 " among the described E-AGCH, in 2 idle bits of the reservation bit of 1 bit and 5 bit specific informations 2, select 1 bit, utilize the specific information 1 of CRRI territory, 2 bits of 4 bits and the many yards CRRI territories that 1 bit selecting constitutes 7 bits;

When territory sign among the described E-AGCH be not " 00 ", in the reservation bit of the specific information 2 of 5 bits and 1 bit, select 3 bits, the CRRI territory that utilizes 4 bits and 3 bits of selecting constitute many yards CRRI territories of 7 bits.

11., it is characterized in that, select described E-AGCH form in advance by RNC, and notify described NodeB and UE according to arbitrary described method in the claim 2 to 10;

Perhaps, the described E-AGCH form of selection of configuration on NodeB and UE in advance.

12. method according to claim 1 is characterized in that, this method further comprises: support the UE of non-rectangle E-PUCH resource, report to RNC when inserting and self support the ability of non-rectangle E-PUCH resource allocation;

Support the NodeB of non-rectangle E-PUCH resource, report to described RNC and self support the ability of non-rectangle E-PUCH resource allocation;

For the NodeB that supports non-rectangle E-PUCH resource, the ability information that RNC reports described UE is transmitted to this NodeB.

13. method according to claim 12 is characterized in that, this method further comprises: described RNC is E-PUCH resource pool of a HSUPA carrier wave configuration of the NodeB of support non-rectangle E-PUCH resource, and no longer this resource pool is divided;

For the UE on the carrier wave that only disposes a resource pool and no longer this resource pool is divided that is positioned at described NodeB, described NodeB only is that this UE distributes rectangle E-PUCH resource.

14. method according to claim 12 is characterized in that, for the NodeB that does not support non-rectangle E-PUCH resource allocation, RNC does not issue the ability information that described UE reports to it; This NodeB only is that described UE distributes rectangle E-PUCH resource.

15., it is characterized in that this method further comprises: support the UE of non-rectangle E-PUCH resource allocation, determine the division of E-PUCH resource pool on the corresponding HSUPA carrier wave according to the configuration of RNC according to claim 2 or 8 described methods;

Support the UE of non-rectangle E-PUCH resource allocation, monitor each E-AGCH in the E-AGCH set of distributing to self in first subframe; When current subframe is monitored E-AGCH, if previous subframe listens to the E-AGCH that distributes to self, then only monitor previous subframe and distributed to the E-AGCH of self in current subframe, otherwise, monitor each E-AGCH in the E-AGCH set of distributing to self;

After listening to the E-AGCH that distributes to self, described UE resolves wherein many yards CRRI territories of 7 bits, determine to distribute in first rectangle E-PUCH resource pool the nodal information of self according to preceding 4 bits, and distribute to self time slot in first rectangle E-PUCH resource pool that carries in the TRRI territory in conjunction with included time slot of described first rectangle E-PUCH resource pool and described E-AGCH, determine in first rectangle E-PUCH resource pool, to distribute to the E-PUCH rectangle resource of self; And determine to distribute in second rectangle E-PUCH resource pool self nodal information according to back 3 bits in many yards CRRI territories of 7 bits, distribute to the time slot of self again in second the rectangle E-PUCH resource pool that carries in the TRRI territory in conjunction with included time slot of described second rectangle E-PUCH resource pool and described E-AGCH, determine in second rectangle E-PUCH resource pool, to distribute to the E-PUCH rectangle resource of self.

16. method according to claim 5 is characterized in that, this method further comprises: support the UE of non-rectangle E-PUCH resource allocation, determine the division of E-PUCH resource pool on the corresponding HSUPA carrier wave according to the configuration of RNC;

Support the UE of non-rectangle E-PUCH resource allocation, monitor each E-AGCH in the E-AGCH set of distributing to self in first subframe; When current subframe is monitored E-AGCH, if previous subframe listens to the E-AGCH that distributes to self, then only monitor previous subframe and distributed to the E-AGCH of self in current subframe, otherwise, monitor each E-AGCH in the E-AGCH set of distributing to self;

After listening to the E-AGCH that distributes self, described UE resolves wherein many yards CRRI territories of 6 bits, determine to distribute in first rectangle E-PUCH resource pool the nodal information of self according to preceding 4 bits, and distribute to self time slot in first rectangle E-PUCH resource pool that carries in the TRRI territory in conjunction with included time slot of described first rectangle E-PUCH resource pool and described E-AGCH, determine in first rectangle E-PUCH resource pool, to distribute to the E-PUCH rectangle resource of self; And determine to distribute in second rectangle E-PUCH resource pool self nodal information according to back 2 bits in many yards CRRI territories of 6 bits, distribute to the time slot of self again in second the rectangle E-PUCH resource pool that carries in the TRRI territory in conjunction with included time slot of described second rectangle E-PUCH resource pool and described E-AGCH, determine in second rectangle E-PUCH resource pool, to distribute to the E-PUCH rectangle resource of self.

17. method according to claim 1 is characterized in that, describedly E-PUCH resource pool on the HSUPA carrier wave is divided into two rectangle E-PUCH resource pools is:

First rectangle E-PUCH resource pool comprises several complete time slots, and second rectangle E-PUCH resource pool comprises one or more non-complete time slots.

18. the distribution method of non-rectangle E-PUCH resource among the HSUPA is characterized in that this method comprises:

For the UE that supports non-rectangle E-PUCH resource allocation, the NodeB that supports non-rectangle E-PUCH resource allocation is after described UE distributes non-rectangle E-PUCH resource, with the non-rectangle E-PUCH resource division of distributing is k rectangle resource, from the E-AGCH set of UE, select k E-AGCH, wherein each E-AGCH is used for a described UE of described rectangle resource notification, and k is the integer more than or equal to 1.

19. method according to claim 18, it is characterized in that, when notifying described UE based on E-AGCH form 1, described each E-AGCH is used for: utilize TRRI territory and the CRRI territory of each E-AGCH, the gap information and the nodal information of a rectangle resource of carrying; For the PRRI territory among each E-AGCH, ECSN territory, RDI territory, E-HICH indication territory, E-UCCH number indication territory, the value of same domain is identical.

20. method according to claim 18, it is characterized in that, when notifying described UE based on E-AGCH form 2, described each E-AGCH is used for: utilize TRRI territory and the CRRI territory of each E-AGCH, the gap information and the nodal information of a rectangle resource of carrying; For the PRRI territory among each E-AGCH, ECSN territory, territory sign, specific information 1, specific information 2, E-UCCH number indication territory, reservation bit territory, the value of same domain is identical.

21. method according to claim 18, it is characterized in that, when k greater than the E-AGCH of described UE set in during the E-AGCH sum, m rectangle resource of the channel code number maximum of the SF=16 that selection comprises in k rectangle resource, utilize all m E-AGCH in the E-AGCH set of described UE, with m the described UE of rectangle resource notification.

22. method according to claim 18 is characterized in that, this method further comprises: support the UE of non-rectangle E-PUCH resource, report to RNC when inserting and self support the ability of non-rectangle E-PUCH resource allocation;

Support the NodeB of non-rectangle E-PUCH resource, report to described RNC and self support the ability of non-rectangle E-PUCH resource allocation;

For the NodeB that supports non-rectangle E-PUCH resource, the ability information that RNC reports described UE is transmitted to this NodeB.

23. method according to claim 22 is characterized in that, for the NodeB that does not support non-rectangle E-PUCH resource allocation, RNC does not issue the ability information that described UE reports to it; This NodeB only is that described UE distributes rectangle E-PUCH resource.

24., it is characterized in that this method further comprises: support the UE of non-rectangle E-PUCH resource allocation, monitor each E-AGCH in the E-AGCH set of distributing to self in each subframe according to claim 19 or 20 described methods;

Listen to a plurality of E-AGCH that distribute self in a subframe after, described UE resolves CRRI territory and the TRRI territory among each described E-AGCH respectively, determines the nodal information and the gap information of each rectangle resource;

To other each territories in described CRRI territory and the TRRI territory of removing among each E-AGCH, same domain is united parsing.

25. method according to claim 18 is characterized in that, when a described k E-AGCH was positioned at same time slot, described UE generated the DUPC order of an E-AGCH according to the SNR mean value of each E-AGCH that receives at this same time slot; Distributing to the DLPC that the E-PUCH of described UE utilizes each TPC territory to carry an E-AGCH of the up-to-date generation of described UE orders to NodeB;

Described NodeB merges processing to each TPC territory of E-PUCH, determines that the DLPC that carries orders, and carries out descending power control to described E-AGCH.

26. method according to claim 18, it is characterized in that, when a described k E-AGCH is positioned at the different time-gap of same subframe, described UE receives k E-AGCH of same subframe, UE generates the DLPC order of an E-AGCH according to the SNR mean value of the E-AGCH that is positioned at same time slot, the DLPC order of the up-to-date generation of each time slot is carried in each TPC territory of the E-PUCH that distributes to described UE and sends to NodeB; Wherein, each in each TPC territory, the DLPC order of all carrying each time slot;

Described NodeB merges processing to each TPC territory of E-PUCH, determines the DLPC order of each time slot, and the E-AGCH of corresponding time slot is carried out power control.

27. method according to claim 18 is characterized in that, a described k E-AGCH utilizes the DLBF weight vector of up-to-date generation to carry out wave beam forming, and the DLBF weight vector of each E-AGCH is identical.

28. method according to claim 18 is characterized in that, when carrying out the ULPC of E-PUCH, the TPC territory on the described k E-AGCH is used to carry the ULPC order of E-PUCH of the UE of the identical up-to-date generation of NodeB;

Described UE receives k E-AGCH, and the TPC territory among each E-AGCH is merged processing, determines the ULPC order of carrying.

29. method according to claim 18 is characterized in that, when carrying out the ULSC of E-PUCH, the SS territory on the described k E-AGCH is used to carry the ULSC order of E-PUCH of the UE of the identical up-to-date generation of NodeB;

Described UE receives k E-AGCH, and the SS territory among each E-AGCH is merged processing, determines the ULSC order of carrying.