CN108934069A - Resource indicating method, the sending method of PUCCH and network side equipment - Google Patents

Abstract

The present invention provides a kind of resource indicating method, the sending method of PUCCH and network side equipments, wherein this method includes：Resource is distributed for more than two user equipment (UE)s in access network；The resource distributed for above-mentioned UE is indicated to UE；Wherein, which sends Physical Uplink Control Channel PUCCH for UE, and at least two UE in more than two UE share same 1 resource of antenna port Antenna port when sending PUCCH using orthogonal space resource transmission diversity SORTD.Through the invention, it is high to solve the consumption of resource occupation present in the relevant technologies, the low problem of resource utilization, and then reach reduction resource occupation consumption, improve the effect of resource utilization.

Description

Resource indicating method, the sending method of PUCCH and network side equipment

Technical field

The present invention relates to the communications fields, in particular to a kind of resource indicating method, the sending method of PUCCH and net Network side apparatus.

Background technique

In order to promote Physical Uplink Control Channel (Physical Uplink Control Channel, referred to as PUCCH) Stability transmission, third generation mobile Partnership Program (3rd Generation partnership project, referred to as Orthogonal space is introduced for user equipment (User Equipment, referred to as UE) upstream multi-antenna technology for 3GPP) Rel10 Resource transmission diversity (Space Orthogonal-Resource Transmit Diversity, referred to as SORTD) technology.

When UE supports multi-antenna transmission, if the transmission of PUCCH can make full use of multiple antennas and corresponding antenna Power amplifier, it will be able to make full use of power resource and realize maximum diversity gain.In order to realize additional diversity, In Rel-10, the 2 antenna SORTD of PUCCH are introduced.The PUCCH of the mechanism while back compatible Rel-8 design.

The basic thought of SORTD is that using different orthogonal resources, (i.e. different PUCCH is provided on different antenna ports Source：RB, cyclic shift or orthogonal sequence are different) transmit same ascending control information (the Uplink Control of same UE Information, referred to as UCI).

It should be noted that in long term evolution (Long-Term Evolution, referred to as LTE) and senior long term evolution What uplink PUCCH was transmitted in (Long-Term Evolution Advance, referred to as LTE-A) is all most important control letter Breath, according in the latest specification of 3GPP Rel13.3, it is reliable under multiple antennas to promote PUCCH that PUCCH introduces SORTD technology Property.But, other channels such as Physical Uplink Shared Channel (Physical Uplink different from the diversity technique of other channels Shared Channel, referred to as PUSCH), Physical Downlink Shared Channel (Physical Downlink Shared Channel, referred to as PDSCH) etc. transmission diversities be the improving stability in the case where not influencing channel resource.But PUCCH But valuable PUCCH orthogonal code resource is sacrificed.That is before no introducing SORTD technology, if a cell can If carrying 100 UE.If all UE of entire cell enable SORTD technology.50 UE can only just be carried.For The capacity impact of cell is larger.And the multiple antennas SORTD technology of PUCCH is only in the incoherent situation of antenna channel, Relatively good effect can be played.When antenna channel is related or channel quality itself is with regard in the case where relatively good, SORTD is played Effect it is very little.

That is, needing to reallocate to second antenna port in 2 antennas according to SORTD technical transmission PUCCH One group of resource realizes SORTD.The occupancy consumption of namely resource is 2 times of relationships of early stage, so that resource occupation be caused to consume Height, resource utilization are low.

In view of the above-mentioned problems, not suggesting that effective solution scheme in the related technology.

Summary of the invention

The embodiment of the invention provides a kind of resource indicating method, the transmission of PUCCH and network side equipments, at least to solve At least one above problem present in the relevant technologies.

According to one embodiment of present invention, a kind of resource indicating method is provided, including：For two in access network The above user equipment (UE) distributes resource；The resource distributed for the UE is indicated to the UE；Wherein, the resource is used for The UE sends Physical Uplink Control Channel PUCCH, and at least two UE in more than two UE are provided using orthogonal space Source transmission diversity SORTD shares same 1 resource of antenna port Antenna port when sending the PUCCH.Optionally, will Being indicated to the UE for the UE resource distributed includes：The first instruction message is sent to the UE, wherein described first Instruction message is used to indicate 1 resource of Antenna port that the UE and other UE shares；The second instruction is sent to the UE to disappear Breath, wherein second instruction message is used to indicate whether the UE uses the Antenna port1 shared with other UE to provide Source.

Optionally, first instruction message includes radio resource control RRC message；And/or second instruction message Including following one：Downlink control message DCI 1, DCI 1A, 2 DCI, DCI 2A, DCI3, DCI3A.

Optionally, include to access the UE distribution of the two or more in the network resource：It determines more than two Need to distribute the Antenna port UE of 1 resource in the UE；It is determined in the UE for needing to distribute 1 resource of Antenna port It needs to carry out the UE of resource-sharing, and does not need to carry out the UE of resource-sharing；To the UE for needing to carry out resource-sharing into Row grouping, wherein the quantity of the UE in every group is two or more；An Antenna port1 is distributed for the UE in described every group Resource, and 1 resource of Antenna port is respectively distributed not need to carry out the UE of resource-sharing.

Optionally, to it is described need the UE for carrying out resource-sharing be grouped including：It is determined by following formula wait be divided into Group maximum quantity P：P=T-M-2N, wherein the T is 1 resource of Antenna port to be allocated in the network Quantity, the M are the quantity for needing to carry out the UE of resource-sharing, and the N is the quantity for not needing to carry out the UE of resource-sharing, T For the integer greater than 0, M is the integer more than or equal to 2, and N is the integer more than or equal to 0；It needs to carry out resource by described and is total to The UE enjoyed is divided into Q group, wherein Q is positive integer, and Q≤P.

Optionally, by be UE distribution the resource be indicated to the UE after, the method also includes：It determines There is network described in new UE access, and/or, there is the UE for having accessed the network to disconnect the connection with the network；It again is to work as UE in the preceding network distributes the resource, and is indicated.

According to one embodiment of present invention, the sending method of Physical Uplink Control Channel PUCCH a kind of is additionally provided, is wrapped It includes：Determine the resource of network distribution；Physical Uplink Control Channel PUCCH is sent using the resource；Wherein, the network is accessed In at least two user equipment (UE)s using orthogonal space resource transmission diversity SORTD send the PUCCH when share it is same A 1 resource of antenna port Antenna port.

Optionally it is determined that the resource of the network distribution includes：Receive the first instruction message that the network is sent；According to Determining 1 resource of Antenna port shared with predetermined UE of first instruction message；The network is sent second is received to refer to Show message, wherein second instruction message is used to indicate whether using the Antenna port 1 shared with the predetermined UE Resource；The resource is determined according to second instruction message.

Optionally, determine that the resource includes according to second instruction message：When second instruction message is for referring to When showing using Antenna 1 resource of port shared with the predetermined UE, determine that the resource is pre-assigned Antenna 0 resource of port and 1 resource of Antennaport shared with the predetermined UE；When second instruction message is used to indicate not When can use Antenna 1 resource of port shared with the predetermined UE, determine that the resource is pre-assigned Antenna 0 resource of port.

Optionally, first instruction message includes radio resource control RRC message；And/or second instruction message Including following one：Downlink control message DCI 1, DCI 1A, 2 DCI, DCI 2A, DCI3, DCI3A.

According to one embodiment of present invention, a kind of network side equipment is additionally provided, including：Distribution module, for connect Enter more than two user equipment (UE)s distribution resource in network；Indicating module, for will be that the resource that the UE is distributed refers to Show to the UE；Wherein, the resource sends Physical Uplink Control Channel PUCCH for the UE, in more than two UE At least two UE using orthogonal space resource transmission diversity SORTD send the PUCCH when share the same antenna port 1 resource of Antenna port.

Optionally, the indicating module includes：First indicating unit, for sending the first instruction message to the UE, In, first instruction message is used to indicate 1 resource of Antenna port that the UE and other UE shares；Second instruction is single Member, for the UE send the second instruction message, wherein second instruction message be used to indicate the UE whether use with Other UE shared 1 resource of Antenna port.

Optionally, the distribution module includes：First determination unit needs to distribute for determining in more than two UE The UE of 1 resource of Antenna port；Second determination unit, for true in the UE for needing to distribute 1 resource of Antenna port Surely it needs to carry out the UE of resource-sharing, and does not need to carry out the UE of resource-sharing；Grouped element, for needing to carry out to described The UE of resource-sharing is grouped, wherein the quantity of the UE in every group is two or more；Allocation unit, for being every group of UE points An Antenna port 1 is respectively distributed with 1 resource of Antenna port, and not need to carry out the UE of resource-sharing Resource.

According to one embodiment of present invention, a kind of user equipment (UE) is additionally provided, including：Determining module, for determining The resource of network distribution；Sending module, for sending Physical Uplink Control Channel PUCCH using the resource；Wherein, institute is accessed At least two user equipment (UE)s stated in network are total when sending the PUCCH using orthogonal space resource transmission diversity SORTD Enjoy same 1 resource of antenna port Antenna port.

Optionally, the determining module includes：First receiving unit disappears for receiving the first instruction that the network is sent Breath；Third determination unit, for according to determining 1 resource of Antenna port shared with predetermined UE of first instruction message； Second receiving unit, the second instruction message sent for receiving the network, wherein second instruction message is used to indicate Whether the UE uses 1 resource of Antenna port shared with the predetermined UE；4th determination unit, for according to Second instruction message determines the resource.

According to one embodiment of present invention, a kind of storage medium is additionally provided, the storage medium includes the journey of storage Sequence, wherein described program executes method described in any one of the method claim when running.

According to one embodiment of present invention, a kind of network side equipment is additionally provided, the network side equipment includes processing Device, the processor is for running program, wherein the resource indicating method of any of the above-described is executed when described program is run.

According to one embodiment of present invention, a kind of user equipment (UE) is additionally provided, the UE includes processor, the place Reason device is for running program, wherein the sending method of the PUCCH of any of the above-described is executed when described program is run.

Through the invention, since at least two UE in the UE in access network share an antenna port Antenna 1 resource of port, it is not necessary that 1 resource of Antenna port is separately configured for each UE, so as to solve the relevant technologies Present in resource occupation consumption it is high, the low problem of resource utilization, and then reach and reduce resource occupation consumption improves resource benefit With the effect of rate.

Detailed description of the invention

The drawings described herein are used to provide a further understanding of the present invention, constitutes part of this application, this hair Bright illustrative embodiments and their description are used to explain the present invention, and are not constituted improper limitations of the present invention.In the accompanying drawings：

Fig. 1 is in the related technology without SORTD and resource allocation schematic diagram when starting SORTD；

Fig. 2 is PUCCH allocation plan schematic diagram in 3GPP in the related technology；

Fig. 3 is PUCCH allocation plan schematic diagram according to an embodiment of the present invention；

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

Fig. 5 is a kind of hardware block diagram of the mobile terminal of the sending method of PUCCH of the embodiment of the present invention；

Fig. 6 is the sending method flow chart of PUCCH according to an embodiment of the present invention；

Fig. 7 is the interaction diagrams of network according to an embodiment of the present invention and terminal；

Fig. 8 is the structural block diagram of network side equipment according to an embodiment of the present invention；

Fig. 9 is the structural block diagram of user equipment (UE) according to an embodiment of the present invention.

Specific embodiment

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and in combination with Examples.It should be noted that not conflicting In the case of, the features in the embodiments and the embodiments of the present application can be combined with each other.

It should be noted that description and claims of this specification and term " first " in above-mentioned attached drawing, " Two " etc. be to be used to distinguish similar objects, without being used to describe a particular order or precedence order.

Currently, SORTD technology is only applied to PUCCH.And compared with Non-SORTD transmission mechanism, SORTD is needed using 2 PUCCH resource again.As shown in Figure 1, the quantity for the UE that corresponding cell can carry can also be reduced.There are 4 physics for UE Antenna then will use the antenna virtualization of specific implementation.It in essence, is exactly to use a transparent mechanism by 2 antenna ends The signal of mouth is mapped on 4 physical antennas.

For different PUCCH format (that is, PUCCH format, in other words PUCCH application scenarios), how to determine Different antennae port in SORTD (antenna port Antenna port 0, that is, P0 and antenna port Antenna port 1, that is, P1 the different PUCCH resources) used.Seek in fact point situation wireless heterogeneous networks (Radio Resource Control, Referred to as RRC) PUCCH resource on P1 is reserved in message.Various situations are illustrated below：

(1) for PUCCH format 1, i.e. SR resource：

Enode eNodeB (alternatively referred to as base station) passes through the following field in RRC information：sr-PUCCH- What ResourceIndex and sr-PUCCH-ResourceIndexP1-r10 used antenna port P0 and P1 is respectively configured 1 resource of PUCCH.(SchedulingRequestConfig see 36.331)

(2) for PUCCH format 1a/1b, i.e. confirmation/non-acknowledgement (Acknowledgement/Non- Acknowledgement, referred to as ACK/NACK) resource (non-carrier aggregation scene)：

For frequency division duplex mode (Frequency Division Duplex, referred to as FDD), antenna port P0 and P1 21 resources of PUCCH used pass through network respectively and distribute to obtain and (saving see 36.213 10.1.2.1).For TDD and use The scene of hybrid automatic repeat-request (Hybrid Automatic Repeat Request, referred to as HARQ) bundling, day 21 resources of PUCCH that line end mouth P0 and P1 are used pass through n respectively_CCEAnd n_CCE+ 1 obtains.(being saved see 36.213 10.1.3.1)

(3) for PUCCH format 2/2a/2b, i.e., channel state information (Channel State Information, Referred to as CSI) resource：

Periodical CSI is reported, eNodeB passes through the following field in RRC information：cqi-PUCCH- ResourceIndex-r10 and cqi-PUCCH-ResourceIndexP1-r10 uses antenna port P0 and P1 is respectively configured 2 resource of PUCCH.Aperiodicity CSI is reported using PUSCH transmission, therefore does not support SORTD.

(4) for PUCCH format 1b with channel selection：

In Rel-10, PUCCH format 1b with channel selection does not support transmission diversity, i.e., Do not support SORTD.

(5) for PUCCH format 3：

For using the scene of PUCCH format 3, downlink DCI (in addition to primary cell (Primary Cell, referred to as PCell the first downlink DCI sent on)) in TPC command for PUCCH field will indicate to provide from 4 PUCCH 3 Select 1 (being a pair of when 2 antenna transmission) for replying ACK/NACK in source.43 resources of PUCCH are to pass through format3- The n3PUCCH-AN-List-r10 of r10 is configured；For 2 antenna transmissions, 41 resources of PUCCH of second antenna port It is configured by n3PUCCH-AN-ListP1-r10.(10.1.2.2.2 section and 10.1.3.2.2 section see 36.213)

(6) (Semi-Persistent Scheduling, referred to as SPS) is dispatched for semipermanent：

For downlink transfer, if downlink DCI indicating downlink link (Downlink, the referred to as DL) SPS received swashs Living, then the TPC command for PUCCH field in DCI will indicate to select 1 (2 antennas biography from 41 resources of PUCCH It is a pair of when defeated) for replying ACK/NACK.41 resources of PUCCH are the n1PUCCH-AN- by SPS-ConfigDL PersistentList is configured；For 2 antenna transmissions, 41 resources of PUCCH of second antenna port pass through N1PUCCH-AN-PersistentListP1-r10 configuration.(9.2 sections see 36.213)

(7) for ACK/NACK Repetition：

If UE is configured with ACK/NACK Repetition (repetition) (being known as HARQ-ACK Repetition in agreement), ENodeB can pass through the following field in RRC information：N1PUCCH-AN-Rep and n1PUCCH-AN-RepP1-r10 matches respectively Set 1 resource of PUCCH (ackNackRepetition see 36.331) that antenna port P0 and P1 are used.

The PUCCH resource that 2 antenna ports use is determined, and after the PUCCH information for needing to send, it is remaining to be exactly The processing of transmission diversity.

If transmission antenna be it is incoherent, SORTD can provide best diversity performance, but can consume it is more just It hands over resource (Rel-8/Rel-9 only uses 1 resource, and 2 resources may be used in Rel-10), so as to reduce PUCCH Capacity.

As shown in Fig. 2, for traditional 3GPP scheme, for supporting the UE of SORTD, it is necessary to distribute a pair PUCCH resource, that is, PUCCH Resource-P0 (that is, 0 resource of Antenna port) and PUCCH Resource-P1 (that is, 1 resource of Antenna port), and this assigning process is by the quasi-static distribution of RRC.Even when channel quality is sent out After changing, SORTD has been not necessarily to or for promoting reliability without (such as the channel of two antennas of uplink when helping Strong correlation), the resource of this P1 antenna port can not also discharge.To be slatterned.

Fig. 3 is a kind of implementation of scheme proposed in the present invention, as shown in figure 3, network side can be by a P1 Resource, which share, distributes to multiple UE, and network controls at any time, will be true by measuring the quality condition of up channel The UE of this P1 resource is just being needed to allow to start the transmitting of SORTD double antenna, other unnecessarily start the UE of SORTD, only with P0 Port carries out single-antenna transmission.It can be seen that passing through this new PUCCH Resource-P1 method of salary distribution.As much The occupied PUCCH total resources of UE tail off, and in other words, resource as much can using the scheme in the embodiment of the present invention More UE can be carried in the case where having substantially no effect on transmission stability.The present invention is said below with reference to embodiment It is bright：

Embodiment one：

A kind of resource indicating method is provided in the present embodiment, and Fig. 4 is resource instruction side according to an embodiment of the present invention Method flow chart, as shown in figure 4, the process includes the following steps：

Step S402 distributes resource for more than two user equipment (UE)s in access network；

The resource distributed for above-mentioned UE is indicated to UE by step S404；Wherein, which sends physical uplink control for UE At least two UE in channel PUCCH processed, more than two UE are sending PUCCH using orthogonal space resource transmission diversity SORTD When share same 1 resource of antenna port Antenna port.

Wherein it is possible to above-mentioned resource indicating method be executed by network side equipment, it is alternatively possible to be executed by eNodeB above-mentioned Method.In the above-described embodiments, UE shared same 1 resource of antenna port Antenna port is substantially to share this together PUCCH resource in one antenna port Antenna port 1 is (that is, dedicated for transmission PUCCH in Antenna port 1 Resource).In following embodiments of the invention, 1 resource of Antenna port substantially refers to Antenna port PUCCH resource in 1.Wherein, above-mentioned more than two UE include two UE.

Through the foregoing embodiment, since at least two UE in the UE in access network share an antenna port 1 resource of Antenna port, it is not necessary that an Antenna port1 resource is separately configured for each UE, so as to solve phase The consumption of resource occupation present in the technology of pass is high, the low problem of resource utilization, and then reaches reduction resource occupation consumption, improves The effect of resource utilization.In an alternative embodiment, the resource distributed for above-mentioned UE is indicated to UE includes：It is sent out to UE Send the first instruction message, wherein first instruction message is used to indicate 1 resource of Antenna port that UE and other UE shares； To UE send the second instruction message, wherein second instruction message be used to indicate UE whether use with other UE share 1 resource of Antenna port.

Optionally, above-mentioned first instruction message includes radio resource control RRC message.Optionally, above-mentioned second instruction disappears Breath includes following one：Downlink control message DCI 1, DCI 1A, 2 DCI, DCI 2A, DCI3, DCI3A.

In one optionally embodiment, more than two UE to access in above-mentioned network distribute above-mentioned resource and include：Really Need to distribute the Antenna port UE of 1 resource in fixed two or more UE；Needing to distribute the Antenna port UE of 1 resource Middle determination needs to carry out the UE of resource-sharing, and does not need to carry out the UE of resource-sharing；It needs to carry out resource-sharing to above-mentioned UE be grouped, wherein the quantity of the UE in every group be two or more；An Antenna port 1 is distributed for every group of UE to provide Source, and 1 resource of Antenna port is respectively distributed not need to carry out the UE of resource-sharing.In the present embodiment, it accesses The UE of above-mentioned network is divided into three classes, and first kind UE sends PUCCH, the second class UE merely with 0 resource of Antenna port PUCCH is sent using Antenna port0 resource and 1 resource of Antenna port with third class UE, wherein the second class UE is Need to share the UE of 1 resource of Antenna port with other UE, third class UE is that Antenna port1 resource has been separately configured UE, that is, get along well other UE share 1 resource of Antenna port.In the present embodiment, it needs to distribute Antenna in determination It when the UE of 1 resource of port, is determined according to the quality condition of up channel, that is, determine that the quality of up channel is lower than The UE of predetermined threshold is to need to distribute the Antenna port UE of 1 resource.

In one optionally embodiment, to it is above-mentioned need the UE for carrying out resource-sharing be grouped including：By as follows Formula determines the maximum quantity P of group to be divided into：P=T-M-2N, wherein T is Antenna port 1 to be allocated in network The quantity of resource, M are the quantity for needing to carry out the UE of resource-sharing, and N is the quantity for not needing to carry out the UE of resource-sharing, and T is Integer greater than 0, M are the integer more than or equal to 2, and N is the integer more than or equal to 0；It needs to carry out resource-sharing by described UE be divided into Q group, wherein Q is positive integer, and Q≤P.In the present embodiment, N can take 0, that is to say, that, it is understood that there may be without list The case where exclusive UE for using 1 resource of Antenna port.It is different also, when the UE for carrying out resource-sharing will be needed to be divided into Q group The quantity of UE in group can be different, can will need to carry out UE points of resource-sharing according to the uplink signal-channel quality of UE At Q group, the better UE of uplink signal-channel quality more can share 1 resource of Antenna port, up channel with other more UE Ropy UE oneself can only monopolize 1 resource of Antenna port, or share with other UE (or two UE) 1 resource of Antenna port.

As can be seen from the above embodiments, network be directed to current load can will be current after carrying UE situation is judged UE be grouped.Having the resource of the PUCCH antenna port P1 of the UE more than or equal to 2 in wherein at least one grouping is It is identical.In the above-described embodiments, when needing to indicate the resource of distribution by instruction information, such as lower section can specifically be passed through Formula is realized：

By a specific flag bit be placed into specific downstream message (corresponding to the first above-mentioned instruction message) and Resource distribution situation is informed into UE by downstream message, UE is allowed to know that the PUCCH resource for having shared P1 with other UE (corresponds to upper 1 resource of Antenna port stated).Network side can also store this grouping situation.For the UE in grouping, network is connect The channel quality information that UE is sent is received, and carries out the assessment of uplink signal-channel quality by modes such as measurement uplink reference signals. For uplink signal-channel quality be most suitable for it is most desirable carry out SORTD (such as uplink signal-channel quality is poor, and the not strong phase of antenna Close) UE, pass through specific the Bit of setting in specific DCI downstream message (corresponding to the second above-mentioned instruction message) It notifies this UE to can be used P1 resource for 1, carries out uplink SORTD transmitting.The same group of UE chosen is failed for other, pass through by Specific Bit are set as 0 to notify UE that cannot use P1 resource in specific DCI downstream message.Certainly, above-mentioned bit is set Being set to 1 or being set as 0 is only a kind of preferred embodiment, in specific application, can also by other set-up modes come It is indicated.

In one optionally embodiment, by be above-mentioned UE distribution resource be indicated to UE after, the above method also wraps It includes：Determination has network described in new UE access, and/or, there is the UE for having accessed above-mentioned network to disconnect the connection with network；Again it is UE in current network distributes resource, and is indicated.That is, when the quantity of the UE accessed in network changes, It needs to distribute resource again for the UE in access network.

Embodiment two

Embodiment of the method provided by the embodiment of the present application two can be in mobile terminal, terminal or similar fortune It calculates and is executed in device.For running on mobile terminals, Fig. 5 is the sending method of PUCCH of the embodiment of the present invention a kind of The hardware block diagram of mobile terminal.As shown in figure 5, mobile terminal 50 may include that one or more (only shows one in Fig. 5 It is a) (processor 502 can include but is not limited to the processing of Micro-processor MCV or programmable logic device FPGA etc. to processor 502 Device), memory 504 for storing data and the transmitting device 506 for communication function.Ordinary skill people Member does not cause to limit it is appreciated that structure shown in fig. 5 only signal to the structure of above-mentioned electronic device.For example, mobile Terminal 50 may also include than shown in Fig. 5 more perhaps less component or with the configuration different from shown in Fig. 5.

Memory 504 can be used for storing the software program and module of application software, such as the PUCCH in the embodiment of the present invention The corresponding program instruction/module of sending method, processor 502 by the software program that is stored in memory 504 of operation with And module realizes above-mentioned method thereby executing various function application and data processing.Memory 504 may include high speed Random access memory may also include nonvolatile memory, such as one or more magnetic storage device, flash memory or other are non- Volatile solid-state.In some instances, memory 504 can further comprise remotely located relative to processor 502 Memory, these remote memories can pass through network connection to mobile terminal 50.The example of above-mentioned network includes but is not limited to Internet, intranet, local area network, mobile radio communication and combinations thereof.

Transmitting device 506 is used to that data to be received or sent via a network.Above-mentioned network specific example may include The wireless network that the communication providers of mobile terminal 50 provide.In an example, transmitting device 506 includes a Network adaptation Device (Network Interface Controller, referred to as NIC), can be connected by base station with other network equipments to It can be communicated with internet.In an example, transmitting device 506 can for radio frequency (Radio Frequency, referred to as RF) module is used to wirelessly be communicated with internet.

The sending method of PUCCH a kind of is additionally provided in the present embodiment, and Fig. 6 is PUCCH according to an embodiment of the present invention Sending method flow chart, as shown in fig. 6, the process includes the following steps：

Step S602 determines the resource of network distribution；

Step S604 sends Physical Uplink Control Channel PUCCH using above-mentioned resource；Wherein, it accesses in above-mentioned network At least two user equipment (UE)s share the same antenna end when sending PUCCH using orthogonal space resource transmission diversity SORTD 1 resource of mouth Antenna port.

Wherein, the above method can be applied in terminal as shown in Figure 5, that is, the executing subject of aforesaid operations can be Terminal.

Through the foregoing embodiment, since at least two UE in the UE in access network share an antenna port 1 resource of Antenna port, it is not necessary that an Antenna port1 resource is separately configured for each UE, so as to solve phase The consumption of resource occupation present in the technology of pass is high, the low problem of resource utilization, and then reaches reduction resource occupation consumption, improves The effect of resource utilization.

In an alternative embodiment, the resource for determining the distribution of above-mentioned network includes：Network is sent first is received to refer to Show message；According to determining 1 resource of Antennaport shared with predetermined UE of first instruction message；Receive network is sent the Two instruction messages, wherein second instruction message is used to indicate whether using the Antenna port shared with above-mentioned predetermined UE 1 resource；Above-mentioned resource is determined according to second instruction message.

Optionally, determine that above-mentioned resource includes according to above-mentioned second instruction message：Make when the second instruction message is used to indicate When with Antenna 1 resource of port shared with predetermined UE, determine above-mentioned resource for pre-assigned Antenna port 0 money Source and 1 resource of Antenna port shared with predetermined UE；It cannot use and make a reservation for when above-mentioned second instruction message is used to indicate When Antenna 1 resource of port that UE shares, determine that above-mentioned resource is pre-assigned 0 resource of Antenna port.

Optionally, above-mentioned first instruction message includes radio resource control RRC message.Optionally, above-mentioned second instruction disappears Breath includes following one：Downlink control message DCI 1, DCI 1A, 2 DCI, DCI 2A, DCI3, DCI3A.

Wherein, above-mentioned predetermined UE corresponds to other UE above-mentioned, that is, is located at the terminal for receiving the first instruction message same Other UE in one grouping.

In the above-described embodiments, terminal receive network configuration PUCCH Resource-P0 and P1 resource (that is, 1 resource of Antenna port 0 and Antenna port), and stored.When terminal receives the spy sent from network side Determine message (corresponding to the first above-mentioned instruction message) and shows that oneself has shared some PUCCH Resource-P1 money with other UE Behind source.Then judge from the specific downlink DCI message (corresponding to the second above-mentioned instruction message) it is Bit specific, when specific When the position Bit is 1, then show that oneself obtains P1 corresponding resource.PUCCH sends the PUCCH for then using and storing before next time Resource-P0 and P1 resource is emitted using SORTD double antenna.When the specific position Bit is 0, then PUCCH can only next time Single-antenna transmission is carried out using PUCCH Resource-P0.Certainly, above-mentioned bit is set as 1 or is set as 0 to be only a kind of excellent The embodiment of choosing can also be indicated in specific application by other set-up modes.

Embodiment three

In the present embodiment, it is illustrated mainly for the technical detail in the present invention, in the present embodiment, PUCCH Resource-P1 (or referred to as P1) is equivalent to above-mentioned Antenna port 1：

As shown in subordinate list 1-4, different multiplexing coefficients is used for PUCCH Resource-P1, it is available different Resource allocation example.Wherein resource multiplex coefficient is defined as:

S=[R_no_shared/R_shared]

Wherein S represents multiplexing coefficient, and when R_no_shared is indicated using tradition 3GPP scheme, nothing shares when institute between UE P1 number of resources is needed, R_shared represents P1 number of resources required when being shared using this patent method.[] represents round numbers, It is optional to round up, it rounds up or is rounded downwards.Here to be rounded to example.

Occupation condition when subordinate list 4 is without multiplexing is the R_no_shared by taking 11 UE as an example as shown in subordinate list 4 =11, when being multiplexed by the way of subordinate list 1, [11/6]=2 M=at this time R_shared=6, multiplexing factor is 2 at this time, also It is to say the resource for saving half compared with the existing technology.For subordinate list 2, M=[11/4]=3, at this time multiplexing factor be 3, that is to say, that save 2/3rds resource compared with the existing technology.

For subordinate list 3, only propose that the example of another mixed ways of distribution, that is, network side also can choose Shared resource is enabled for part UE, part UE does not use shared resource.At this time save resource number may just half with It is interior.

Subordinate list 1 (it is 2 that main body, which is multiplexed coefficient)

Subordinate list 2 (it is 3 that main body, which is multiplexed coefficient)

(various multiplexing coefficient mixing, have 2 to have 3) to subordinate list 3

Subordinate list 4 (no multiplexing scheme, i.e. 3GPP have mode)

In the present embodiment, network side will determine how group shared and general multiplexing coefficient S are how many for this.

It is assumed below under the scene that the available PUCCH resource of current network side there remains 6, and has 4 support SORTD's This network cell of UE access.It is illustrated below for the situation：

Due to being only left 6 PUCCH resources at present, if 4 UE enable the SORTD's of the 3GPP of traditional approach Words, the number of resources needed is 4 × 2=8, and wherein P1 number of resources is 4.At present in remaining 6 resources, wherein 4 Resource is must to give the P0 resource of 4 UE.So the resource that can be scheduled to P1 is only left 6-4=2.So it is multiplexed coefficient M=4/2=2. two UE is namely needed to share a P1 resource.

For having determined that the UE of P1 resource to be shared, can be informed first by corresponding downlink RRC information pair The UE answered, it is shared with other UE for giving the P1 resource of corresponding UE, as to whether being able to use the shared P1 resource, also To monitor whether another condition meets from DCI.Following critical message is sent for UE1~UE4, key portion in RRC information The example divided is as follows：

PUCCH-ConfigDedicated::=SEQUENCE

SharedPUCCH-P1-Enabled=1Enumerated { 0,1 }

}

Two exemplary message names and format are given in subordinate list 5.

Subordinate list 5

1 is set to by SharedPUCCH-P1-Enabled to show that the shared mechanism proposed in the embodiment of the present invention enables ?.UE needs to monitor another bit in DCI at this time, such as title is called PUCCHResource-P1-Transmit, works as hair When this existing bit is 1, UE uplink is sent to be emitted using double antenna SORTD, otherwise uses single-antenna transmission mode.Terminal monitoring DCI New field format sample it is as follows, wherein only one UE this field is set to 1 in each group.Such as:

DCI 1A/1/0/2A/2 etc.:

UE1：PUCCHResource-P1-Transmit=1

UE2：PUCCHResource-P1-Transmit=0

UE3：PUCCHResource-P1-Transmit=1

UE4：PUCCHResource-P1-Transmit=0

In order to grasp the dynamic channel variation of each UE, network side can periodically (be wrapped the channel information for terminal feedback It includes but is not limited to order instruction (Rank Indicator, referred to as RI), channel quality indicates (Channel Quality Indicator, referred to as CQI) etc.) handled, and combine for up channel specific reference signals (including but it is unlimited In SRS, PUCCH DMRS) measurement how to determine which UE needs most this P1 resource in each group to adjudicate.Such as when upper Row measure some UE channel it is worst when, the double antenna transmission resources for distributing to this UE SORTD this is regularly measured And decision, it ensure that the adaptivity and timeliness of the method.

When there is new UE to be added, network can reappraise multiplexing condition, rearrange resource allocation table.Before restarting State critical process.It ensures when the quantity of UE sends variation, the variation that the method in the embodiment of the present invention can also be adaptive.

Fig. 7 is the interaction diagrams of network according to an embodiment of the present invention and terminal, as shown in fig. 7, network and terminal it Between interaction be achieved by the steps of：

S702, UE initiate registration request；

S704, network is according to the UE number of current service, situations such as load, determines that PUCCH Resource-P1 is rough It is multiplexed coefficient；

S706 is generated according to multiplexing coefficient and is stored PUCCH Resource-P0 and PUCCH Resource-P1 distribution Table sends downstream message and notifies UE, for sharing the UE of PUCCH Resource-P1, refer to according to the resource allocation in allocation table Some fixed UE occupies P1 resource (referring specifically to two tables of the top in Fig. 7)；

S708, UE1, UE3 indicate that the resource distributed using P0 and P1, uplink double antenna emits PUCCH using network, The uplink of UE2, UE4 use distributed P0 resource, and single antenna sends PUCCH；

S710, each UE periodically send uplink reference signals SRS etc., assist the up channel of each UE of network measure；

S712, demodulation measure the up channel of each UE, according to the information of PUCCH and measurement SRS etc. as a result, from each The worst UE of up channel is found out in grouping, is distributed it using double antenna and is sent PUCCH promotion reliability, such as at this time by surveying Amount, UE2 and UE4 mass are worst；

S714 indicates new distribution in downlink DCI；

S716, UE2, UE4 indicate that the resource distributed using P0 and P1, uplink double antenna sends PUCCH using network, The uplink of UE1, UE3 use distributed P0 resource, single-antenna transmission PUCCH (as shown in the table in Fig. 7 bottom)；

S718 increases a batch UE, such as UE5, UE6 newly；

S720, network is according to the UE number of current service, situations such as load, determines PUCCH for new UE The rough multiplex system of Resource-P1, repeats interactive step above-mentioned.

Through the above description of the embodiments, those skilled in the art can be understood that according to above-mentioned implementation The method of example can be realized by means of software and necessary general hardware platform, naturally it is also possible to by hardware, but it is very much In the case of the former be more preferably embodiment.Based on this understanding, technical solution of the present invention is substantially in other words to existing The part that technology contributes can be embodied in the form of software products, which is stored in a storage In medium (such as ROM/RAM, magnetic disk, CD), including some instructions are used so that a terminal device (can be mobile phone, calculate Machine, server or network equipment etc.) execute method described in each embodiment of the present invention.

Example IV

A kind of network side equipment is additionally provided in the present embodiment, and the device is for realizing above-described embodiment and preferred implementation Mode, the descriptions that have already been made will not be repeated.As used below, the software of predetermined function may be implemented in term " module " And/or the combination of hardware.Although device described in following embodiment is preferably realized with software, hardware or soft The realization of the combination of part and hardware is also that may and be contemplated.

Fig. 8 is the structural block diagram of network side equipment according to an embodiment of the present invention, as shown in figure 8, the equipment application is in net Network side (for example, can be applied in base station), including distribution module 82 and indicating module 84, are below illustrated the device：

Distribution module 82, for distributing resource for more than two user equipment (UE)s in access network；Indicating module 84, even It is connected to above-mentioned distribution module 82, for will be that the resource that above-mentioned UE is distributed is indicated to the UE；Wherein, above-mentioned resource is sent out for UE Physical Uplink Control Channel PUCCH is sent, at least two UE in more than two UE are utilizing orthogonal space resource transmission diversity SORTD shares same 1 resource of antenna port Antenna port when sending the PUCCH.

In an alternative embodiment, above-mentioned indicating module 84 includes：First indicating unit, for sending first to UE Instruction message, wherein first instruction message is used to indicate 1 resource of Antenna port that UE and other UE shares；Second refers to Show unit, for sending the second instruction message to UE, wherein second instruction message is used to indicate whether UE uses and other UE Shared 1 resource of Antenna port.

In an alternative embodiment, above-mentioned first instruction message includes radio resource control RRC message.

In an alternative embodiment, above-mentioned second instruction message includes following one：Downlink control message DCI 1, DCI 1A、DCI 2、DCI 2A、DCI3、DCI3A。

In an alternative embodiment, above-mentioned distribution module 82 includes：First determination unit, it is more than two for determining Need to distribute the Antenna port UE of 1 resource in UE；Second determination unit, for needing to distribute Antenna port 1 The UE for needing to carry out resource-sharing is determined in the UE of resource, and does not need to carry out the UE of resource-sharing；Grouped element, for pair The UE for carrying out resource-sharing is needed to be grouped, wherein the quantity of the UE in every group is two or more；Allocation unit, for for Every group of UE distributes 1 resource of Antenna port, and respectively distributes one not need to carry out the UE of resource-sharing 1 resource of Antenna port.

In an alternative embodiment, above-mentioned grouped element can to need to carry out resource total to above-mentioned in the following way The UE enjoyed is grouped：The maximum quantity P of group to be divided into is determined by following formula：P=T-M-2N, wherein T is in network The quantity of 1 resource of Antenna port to be allocated, M are the quantity for needing to carry out the UE of resource-sharing, and N is not need to carry out The quantity of the UE of resource-sharing, T are the integer greater than 0, and M is the integer more than or equal to 2, and N is the integer more than or equal to 0； The UE for carrying out resource-sharing will be needed to be divided into Q group, wherein Q is positive integer, and Q≤P.

In an alternative embodiment, above-mentioned apparatus can also by be UE distribution resource be indicated to UE after, really Surely there is new UE access network, and/or, there is the UE for having accessed above-mentioned network to disconnect the connection with network；It again is current network In UE distribute resource, and indicated.

Fig. 9 is the structural block diagram of user equipment (UE) according to an embodiment of the present invention, as shown in figure 9, the device can be applied In terminal side, including determining module 92 and sending module 94, the device is illustrated below：

Determining module 92, for determining the resource of network distribution；Sending module 94 is connected to above-mentioned determining module 92, uses Physical Uplink Control Channel PUCCH is sent in the above-mentioned resource of utilization；Wherein, at least two user equipmenies in above-mentioned network are accessed UE shares the same antenna port Antenna port 1 when sending PUCCH using orthogonal space resource transmission diversity SORTD Resource.

In an alternative embodiment, above-mentioned determining module 92 includes：First receiving unit, for receiving above-mentioned network The first instruction message sent；Third determination unit, for according to the determining Antenna shared with predetermined UE of the first instruction message 1 resource of port；Second receiving unit, for receiving the second instruction message of network transmission, wherein second instruction message is used 1 resource of Antenna port shared with predetermined UE whether is used in instruction UE；4th determination unit, for referring to according to second Show that message determines above-mentioned resource.

In an alternative embodiment, the 4th determination unit can be determined according to the second instruction message by the following method Above-mentioned resource：When above-mentioned second instruction message is used to indicate using 1 resource of Antenna port shared with above-mentioned predetermined UE When, determine that above-mentioned resource is that pre-assigned 0 resource of Antenna port and the Antenna port 1 shared with predetermined UE are provided Source；When above-mentioned second instruction message, which is used to indicate, cannot use Antenna 1 resource of port shared with predetermined UE, determine Above-mentioned resource is pre-assigned 0 resource of Antenna port.

In an alternative embodiment, above-mentioned first instruction message includes radio resource control RRC message.

In an alternative embodiment, above-mentioned second instruction message includes following one：Downlink control message DCI 1, DCI 1A、DCI 2、DCI 2A、DCI3、DCI3A。

It should be noted that above-mentioned modules can be realized by software or hardware, for the latter, Ke Yitong Following manner realization is crossed, but not limited to this：Above-mentioned module is respectively positioned in same processor；Alternatively, above-mentioned modules are with any Combined form is located in different processors.

The embodiments of the present invention also provide a kind of storage medium, which includes the program of storage, wherein above-mentioned Program executes method described in any of the above embodiments when running.

Optionally, in the present embodiment, above-mentioned storage medium can include but is not limited to：USB flash disk, read-only memory (Read- Only Memory, referred to as ROM), it is random access memory (Random Access Memory, referred to as RAM), mobile hard The various media that can store program code such as disk, magnetic or disk.

According to one embodiment of present invention, a kind of network side equipment is additionally provided, the network side equipment includes processing Device, the processor is for running program, wherein the resource indicating method of any of the above-described is executed when described program is run.

According to one embodiment of present invention, a kind of user equipment (UE) is additionally provided, the UE includes processor, the place Reason device is for running program, wherein the sending method of the PUCCH of any of the above-described is executed when described program is run.

Optionally, the specific example in the present embodiment can be with reference to described in above-described embodiment and optional embodiment Example, details are not described herein for the present embodiment.

Obviously, those skilled in the art should be understood that each module of the above invention or each step can be with general Computing device realize that they can be concentrated on a single computing device, or be distributed in multiple computing devices and formed Network on, optionally, they can be realized with the program code that computing device can perform, it is thus possible to which they are stored It is performed by computing device in the storage device, and in some cases, it can be to be different from shown in sequence execution herein Out or description the step of, perhaps they are fabricated to each integrated circuit modules or by them multiple modules or Step is fabricated to single integrated circuit module to realize.In this way, the present invention is not limited to any specific hardware and softwares to combine.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.It is all within principle of the invention, it is made it is any modification, etc. With replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (16)

1. a kind of resource indicating method, which is characterized in that including：

Resource is distributed for more than two user equipment (UE)s in access network；

The resource distributed for the UE is indicated to the UE；

Wherein, the resource sends Physical Uplink Control Channel PUCCH for the UE, and at least two in more than two UE A UE shares the same antenna port Antenna when sending the PUCCH using orthogonal space resource transmission diversity SORTD 1 resource of port.

2. the method according to claim 1, wherein the resource distributed for the UE is indicated to the UE Including：

The first instruction message is sent to the UE, wherein it is shared that first instruction message is used to indicate the UE and other UE 1 resource of Antenna port；

To the UE send the second instruction message, wherein second instruction message be used to indicate the UE whether use and its 1 resource of Antenna port that his UE shares.

3. according to the method described in claim 2, it is characterized in that,

First instruction message includes radio resource control RRC message；And/or

Second instruction message includes following one：Downlink control message DCI 1, DCI 1A, 2 DCI, DCI 2A, DCI3, DCI3A。

4. the method according to claim 1, wherein to access the UE distribution of the two or more in the network The resource includes：

It determines in more than two UE and needs to distribute the Antenna port UE of 1 resource；

The UE for needing to carry out resource-sharing is determined in the UE for needing to distribute 1 resource of Antenna port, and does not need to carry out The UE of resource-sharing；

The UE for carrying out resource-sharing is needed to be grouped to described, wherein the quantity of the UE in every group is two or more；

1 resource of Antenna port is distributed for the UE in described every group, and each not need to carry out the UE of resource-sharing Distribute 1 resource of Antenna port.

5. according to the method described in claim 4, it is characterized in that, needing the UE for carrying out resource-sharing to be grouped packet to described It includes：

The maximum quantity P of group to be divided into is determined by following formula：P=T-M-2N, wherein the T be the network in The quantity of 1 resource of Antenna port of distribution, the M are the quantity for needing to carry out the UE of resource-sharing, and the N is to be not required to The quantity of the UE of resource-sharing is carried out, T is the integer greater than 0, and M is the integer more than or equal to 2, and N is more than or equal to 0 Integer；

The UE for carrying out resource-sharing is needed to be divided into Q group by described, wherein Q is positive integer, and Q≤P.

6. the method according to claim 1, wherein by be UE distribution the resource be indicated to it is described After UE, the method also includes：

Determination has network described in new UE access, and/or, there is the UE for having accessed the network to disconnect the connection with the network；

Again the resource is distributed for the UE in presently described network, and is indicated.

7. a kind of sending method of Physical Uplink Control Channel PUCCH, which is characterized in that including：

Determine the resource of network distribution；

Physical Uplink Control Channel PUCCH is sent using the resource；

Wherein, at least two user equipment (UE)s accessed in the network are sent out using orthogonal space resource transmission diversity SORTD Same 1 resource of antenna port Antenna port is shared when sending the PUCCH.

8. the method according to the description of claim 7 is characterized in that determining that the resource of the network distribution includes：

Receive the first instruction message that the network is sent；

According to determining 1 resource of Antenna port shared with predetermined UE of first instruction message；

Receive the second instruction message that the network is sent, wherein second instruction message be used to indicate whether using with institute State shared 1 resource of Antenna port of predetermined UE；

The resource is determined according to second instruction message.

9. according to the method described in claim 8, it is characterized in that, determining the resource packet according to second instruction message It includes：

When second instruction message is used to indicate using Antenna 1 resource of port shared with the predetermined UE, determine The resource is pre-assigned 0 resource of Antenna port and Antenna port 1 resource shared with the predetermined UE；

When second instruction message, which is used to indicate, cannot use Antenna 1 resource of port shared with the predetermined UE, Determine that the resource is pre-assigned 0 resource of Antenna port.

10. according to the method described in claim 8, it is characterized in that,

First instruction message includes radio resource control RRC message；And/or

Second instruction message includes following one：Downlink control message DCI 1, DCI 1A, 2 DCI, DCI 2A, DCI3, DCI3A。

11. a kind of network side equipment, which is characterized in that including：

Distribution module, for distributing resource for more than two user equipment (UE)s in access network；

Indicating module, for will be that the resource that the UE is distributed is indicated to the UE；

Wherein, the resource sends Physical Uplink Control Channel PUCCH for the UE, and at least two in more than two UE A UE shares the same antenna port Antenna when sending the PUCCH using orthogonal space resource transmission diversity SORTD 1 resource of port.

12. equipment according to claim 11, which is characterized in that the indicating module includes：

First indicating unit, for sending the first instruction message to the UE, wherein first instruction message is used to indicate institute State 1 resource of Antenna port that UE and other UE shares；

Second indicating unit, for sending the second instruction message to the UE, wherein second instruction message is used to indicate institute State whether UE uses 1 resource of Antenna port shared with other UE.

13. equipment according to claim 11, which is characterized in that the distribution module includes：

First determination unit needs to distribute the Antenna port UE of 1 resource for determining in more than two UE；

Second determination unit needs to carry out resource-sharing for determining in the UE for needing to distribute 1 resource of Antenna port UE, and do not need to carry out the UE of resource-sharing；

Grouped element, for needing the UE for carrying out resource-sharing to be grouped to described, wherein the quantity of the UE in every group is two More than a；

Allocation unit is used to distribute 1 resource of Antenna port for every group of UE, and not need to carry out resource-sharing UE respectively distribute 1 resource of Antenna port.

14. a kind of user equipment (UE), which is characterized in that including：

Determining module, for determining the resource of network distribution；

Sending module, for sending Physical Uplink Control Channel PUCCH using the resource；

Wherein, at least two user equipment (UE)s accessed in the network are sent out using orthogonal space resource transmission diversity SORTD Same 1 resource of antenna port Antenna port is shared when sending the PUCCH.

15. UE according to claim 14, which is characterized in that the determining module includes：

First receiving unit, the first instruction message sent for receiving the network；

Third determination unit, for being provided according to the determining Antenna port 1 shared with predetermined UE of first instruction message Source；

Second receiving unit, the second instruction message sent for receiving the network, wherein second instruction message is used for Indicate whether the UE uses 1 resource of Antenna port shared with the predetermined UE；

4th determination unit, for determining the resource according to second instruction message.

16. a kind of storage medium, which is characterized in that the storage medium includes the program of storage, wherein when described program is run Method described in any one of perform claim requirement 1 to 10.