CN107734543A - A kind of resource allocation method and device - Google Patents
A kind of resource allocation method and device Download PDFInfo
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- CN107734543A CN107734543A CN201610654193.1A CN201610654193A CN107734543A CN 107734543 A CN107734543 A CN 107734543A CN 201610654193 A CN201610654193 A CN 201610654193A CN 107734543 A CN107734543 A CN 107734543A
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- 238000000034 method Methods 0.000 title claims abstract description 292
- 238000013468 resource allocation Methods 0.000 title claims abstract description 28
- 238000009826 distribution Methods 0.000 claims abstract description 238
- 230000011664 signaling Effects 0.000 claims description 136
- 230000008569 process Effects 0.000 claims description 55
- 230000005540 biological transmission Effects 0.000 claims description 30
- 230000004913 activation Effects 0.000 claims description 29
- 230000008054 signal transmission Effects 0.000 claims description 26
- 238000007599 discharging Methods 0.000 claims description 13
- 125000004122 cyclic group Chemical group 0.000 claims description 5
- 238000001994 activation Methods 0.000 description 23
- 230000006854 communication Effects 0.000 description 18
- 238000004891 communication Methods 0.000 description 17
- 238000010586 diagram Methods 0.000 description 16
- 230000006870 function Effects 0.000 description 8
- 238000004590 computer program Methods 0.000 description 7
- 238000005516 engineering process Methods 0.000 description 7
- 238000012546 transfer Methods 0.000 description 7
- 238000012545 processing Methods 0.000 description 5
- 230000003993 interaction Effects 0.000 description 4
- 230000006855 networking Effects 0.000 description 3
- 230000010267 cellular communication Effects 0.000 description 2
- 230000007774 longterm Effects 0.000 description 2
- 238000007726 management method Methods 0.000 description 2
- 230000000737 periodic effect Effects 0.000 description 2
- 238000001228 spectrum Methods 0.000 description 2
- 238000003860 storage Methods 0.000 description 2
- 230000001133 acceleration Effects 0.000 description 1
- 230000001174 ascending effect Effects 0.000 description 1
- 238000004364 calculation method Methods 0.000 description 1
- 230000001413 cellular effect Effects 0.000 description 1
- 238000011161 development Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000010365 information processing Effects 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 238000010295 mobile communication Methods 0.000 description 1
- 230000003287 optical effect Effects 0.000 description 1
- 238000004540 process dynamic Methods 0.000 description 1
- 238000011160 research Methods 0.000 description 1
- 230000009897 systematic effect Effects 0.000 description 1
Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W28/00—Network traffic management; Network resource management
- H04W28/02—Traffic management, e.g. flow control or congestion control
- H04W28/0215—Traffic management, e.g. flow control or congestion control based on user or device properties, e.g. MTC-capable devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/50—Allocation or scheduling criteria for wireless resources
- H04W72/51—Allocation or scheduling criteria for wireless resources based on terminal or device properties
Abstract
The invention discloses a kind of resource allocation method and device, including:By first kind collocation method and/or the second class collocation method, one or more groups of resources are configured;Wherein, the first kind collocation method includes:One or more ID are configured for UE, and one group of resource is configured for each ID of the UE;The second class collocation method includes:One or more resource distribution call numbers, each corresponding one group of resource of the resource distribution call number are configured for UE.
Description
Technical field
The present invention relates to moving communicating field, more particularly to a kind of resource allocation method suitable for D2D/V2V communications and
Device.
Background technology
In device-to-device (D2D, Device-to-Device) communication system, user equipment (UE, User
When thering is business to need transmission between Equipment), business datum between UE without base station forwarding, but directly by source
UE gives target UE by air interface transmission, as shown in figure 1, the Radio Link between D2D UE is referred to as side chain road
(Sidelink), D2D communication patterns have the feature for being clearly distinguishable from conventional cellular systems communication pattern, for that can apply
For the short-range communication user of D2D communication modes, D2D transmission not only saves radio spectrum resources, and reduces core
The data transfer pressure of net, system resource occupancy can be reduced, increases frequency spectrum efficiency of cellular communication system, reduces terminal transmission work(
Consumption, and largely save network operation cost.
In traditional cellular communication system, UE Radio Resource is united by evolved base station (eNB, evolved NodeB)
One control scheduling, the downlink or uplink resource that eNB instructions UE is configured, UE is according to eNB configuration instruction in corresponding descending money
The data-signal of eNB transmittings is received on source, or to eNB transmitted data signals on corresponding ascending resource.In Long Term Evolution
In (LTE, Long Term Evolution) system, eNB can neatly according to the dynamic dispatching of UE demands configure UE needed for money
Source.
In D2D communication systems, the transmission of data is directly carried out between UE, transmitting terminal UE can be according to the scheduling of network side
Configuration obtains the physics side link control channel (PSCCH, Physical Sidelink Control Channel) of D2D communications
, can also be given with physics side link shared channels (PSSCH, Physical Sidelink Shared Channel) resource
PSCCH and PSSCH resource pools in tournament selection resource carry out the transmitting of D2D Control on Communication and data message.
Car networking system refers to provide car by equipment such as the sensors, car-mounted terminal and electronic tag that are loaded on vehicle
Information, car and car (V2V, Vehicle to Vehicle), car and people (V2P, Vehicle are realized using the various communication technologys
To Person), the interconnection and interflow between car and infrastructure (V2I, Vehicle to Infrastructure), and in information
Information extracted in the network platform, shared etc. and effectively being utilized, effective management and control is carried out to vehicle and integrated service is provided
System.Car networking can realize vehicle information notifying and risk of collision early warning based on communication, by using advanced channel radio
Letter technology and generation information treatment technology, the real-time information interaction between car and car, car and trackside infrastructure is realized, informs that
This current state (including the position of vehicle, speed, acceleration, driving path) and the road environment information known, cooperation sense
Know road hazard condition, a variety of anti-collision warning informations are provided in time, prevent the generation of traffic safety accident, turn into current solution
A kind of certainly new thinking of traffic safety problem.
Recently as the development of new mobile communication technology, based on LTE system technology come to solve car networking communication be heat
One of point research.Wherein, the short-range communication between car and car can apply D2D communication modes, and one as D2D communication modes
Kind special applications.
But problems be present in above-mentioned D2D/V2V communication process:ENB is that UE dispatches Sidelink resources, or UE
When resource is selected in Sidelink resource pools, UE may be simultaneously present multiple business or multichannel data simultaneously in Sidelink
Need to transmit, and current Sidelink transmission plans do not support the configuration and use of such resource, have impact on UE data transfers
Efficiency cause service delay big, the problems such as resource distribution complexity.
The content of the invention
In order to solve the above technical problems, the embodiments of the invention provide a kind of resource allocation method and device, can realize
The parallel transmission of data, so as to improving the utilization rate of resource, reducing the time delay of business and improving the performance of system.
Resource allocation method provided in an embodiment of the present invention, including:
By first kind collocation method and/or the second class collocation method, one or more groups of resources are configured;Wherein,
The first kind collocation method includes:One or more ID are configured for user equipment (UE), and are each of the UE
The ID configures one group of resource;
The second class collocation method includes:One or more resource distribution call numbers, each resource are configured for UE
One group of resource of configuration index correspondence.
In the embodiment of the present invention, resource described in each group for be semi-statically configured or dynamic dispatching configuration.
In the embodiment of the present invention, resource described in each group includes:PSCCH resources and/or PSSCH resources.
In the embodiment of the present invention, by any one or more following mode to described in resource described in each group
PSCCH resources and/or the PSSCH resources are configured:
By indicating that channel indexes number configure the PSCCH resources and/or the PSSCH resources;
By indicating that subframe and/or resource block RB configure the PSCCH resources and/or the PSSCH resources;
The PSCCH resources and/or the PSSCH resources are configured by implicit instruction.
In the embodiment of the present invention, the configuration to resource described in each group includes following any one or more:
The MCS modes of carrying information in the resource;
Process number corresponding to the resource;
The power contorl parameters of signal are sent in the resource;
When the resource is to be semi-statically configured, the cycle of the resource is configured;
When the resource is to be semi-statically configured, the feedback control channel resource for discharging the resource is configured to indicate that.
In the embodiment of the present invention, in the first kind collocation method, when configuring multiple ID for the UE, Mei Gesuo
State resource described in corresponding one group of the configurations of ID;In the second class collocation method, multiple resource distribution indexes are configured for the UE
Number when, each corresponding one group of resource of the resource distribution call number, wherein,
Multiple sets of resources corresponding to the multiple ID or multiple resource distribution call numbers is independent.
In the embodiment of the present invention, methods described also includes:
In the first kind collocation method or the second class collocation method, believed by high-level signaling and/or physical layer
Make one or more groups of resources to UE instruction configurations.
In the embodiment of the present invention, the high-level signaling is RRC information;The physical layer signaling is DCI signalings.
In the embodiment of the present invention, in the first kind collocation method or the second class collocation method, match somebody with somebody for the UE
The ID put is:
RNTI;Or
UE identification information described in energy unique mark.
In the embodiment of the present invention, the ID for UE configurations is SPS C-RNTI.
In the embodiment of the present invention, in the second class collocation method, for the resource distribution index of UE configurations
Number it is process number, or HARQ process numbers.
It is described by first kind collocation method and/or the second class collocation method in the embodiment of the present invention, to one or more groups of
Resource is configured, including:
It is the one or more ID of UE configurations by the RRC information in the first kind collocation method, with
And resource described in one group corresponding to each ID, an ID is carried by the DCI signalings, indicates to activate to the UE
Or the resource corresponding to the release ID;
It is the one or more resources of UE configurations by the RRC information in the second class collocation method
Configuration index number, and resource described in one group corresponding to each resource distribution call number, one is carried by the DCI signalings
The individual resource distribution call number, indicate activation to the UE or discharge the resource corresponding to the resource distribution call number.
Carrying an ID in the embodiment of the present invention, in the DCI signalings includes:Pass through 8 ratios in the DCI signalings
Special or 16 bits indicate the ID;Or ID described in implicit instruction is scrambled by cyclic redundancy check (CRC) in DCI signalings;
A resource distribution call number is carried in the DCI signalings to be included:Pass through 2 bits in the DCI signalings
Or 3 bit or 4 bits indicate the resource distribution call number.
In the embodiment of the present invention, instruction activates resource described in one group corresponding to the ID or the resource distribution call number
Refer to:The UE begins to use one corresponding to the ID or the resource distribution call number after the DCI signalings are received
The group resource, carries out the reception or transmission of signal in the resource;
Indicate that resource described in one group corresponding to the release ID or the resource distribution call number refers to:The UE is connecing
After receiving the DCI signalings, resource described in one group corresponding to the ID or the resource distribution call number is stopped using, is stopped
The reception or transmission of signal are carried out in the resource.
The method for the acquisition resource distribution that another embodiment of the present invention provides, including:
By first kind collocation method and/or the second class collocation method, the configuration to one or more groups of resources is obtained;Its
In,
The first kind collocation method includes:UE obtains one or more ID of configuration, and is each ID configurations
One group of resource;
The second class collocation method includes:UE obtains one or more resource distribution call numbers of configuration, and is every
One group of resource of the individual corresponding configuration of the resource distribution call number.
In the embodiment of the present invention, resource described in each group for be semi-statically configured or dynamic dispatching configuration.
In the embodiment of the present invention, resource described in each group includes:PSCCH resources and/or PSSCH resources.
In the embodiment of the present invention, obtained by any one or more following mode to described in resource described in each group
The configuration of PSCCH resources and/or the PSSCH resources:
By indicating that channel indexes number obtain the configuration to the PSCCH resources and/or the PSSCH resources;
By indicating the configuration of subframe and/or RB acquisitions to the PSCCH resources and/or the PSSCH resources;
Configuration to the PSCCH resources and/or the PSSCH resources is obtained by implicit instruction.
In the embodiment of the present invention, the configuration to resource described in each group includes following any one or more:
The MCS modes of carrying information in the resource;
Process number corresponding to the resource;
The power contorl parameters of signal are sent in the resource;
When the resource is to be semi-statically configured, the cycle of the resource is configured;
When the resource is to be semi-statically configured, the feedback control channel resource for discharging the resource is configured to indicate that.
In the embodiment of the present invention, in the first kind collocation method, when the UE obtains multiple ID configurations, each
Resource described in corresponding one group of the configurations of the ID;In the second class collocation method, the UE obtains multiple resource distribution indexes
During number configuration, each corresponding one group of resource of the resource distribution call number, wherein,
Multiple sets of resources corresponding to the multiple ID or multiple resource distribution call numbers is independent.
In the embodiment of the present invention, methods described also includes:
In the first kind collocation method or the second class collocation method, believed by high-level signaling and/or physical layer
Order obtains one or more groups of resources of configuration.
In the embodiment of the present invention, the high-level signaling is RRC information;The physical layer signaling is DCI signalings.
In the embodiment of the present invention, in the first kind collocation method or the second class collocation method, what UE was obtained matches somebody with somebody
The ID put is:
RNTI;Or
UE identification information described in energy unique mark.
In the embodiment of the present invention, the ID for the configuration that the UE is obtained is SPS C-RNTI.
In the embodiment of the present invention, in the second class collocation method, the resource distribution for the configuration that the UE is obtained
Call number is process number, or HARQ process numbers.
It is described by first kind collocation method and/or the second class collocation method in the embodiment of the present invention, obtain to one group or
The configuration of multiple sets of resources, including:
In the first kind collocation method, the UE is obtained by the RRC information described in the one or more of configuration
ID, and resource described in one group corresponding to each ID, the ID carried according to the DCI signalings instruction, swash
Work discharges the resource corresponding to the ID;
In the second class collocation method, the UE is obtained by the RRC information described in the one or more of configuration
Resource distribution call number, and resource described in one group corresponding to each resource distribution call number, take according to the DCI signalings
Instruction with a resource distribution call number, activate or discharge the resource corresponding to the resource distribution call number.
In the embodiment of the present invention, the finger of a ID or described resource distribution call number is carried according to the DCI signalings
Show, activate the resource and refer to:The UE begins to use the ID or the resource to match somebody with somebody after the DCI signalings are received
Resource described in one group corresponding to call number is put, the reception or transmission of signal are carried out in the resource;
The instruction of a ID or described resource distribution call number is carried according to the DCI signalings, discharges the resource
Refer to:The UE is stopped using one corresponding to the ID or the resource distribution call number after the DCI signalings are received
The group resource, stop in the resource and carry out the reception or transmission of signal.
In the embodiment of the present invention, methods described also includes:
When the resource for when being semi-statically configured, the UE sends resource release information in feedback control channel resource,
To discharge the resource.
In the embodiment of the present invention, the UE uses one group of resource corresponding to the ID or described resource distribution call numbers
The feedback control channel resource in configuration sends the resource release information, and discharging the ID or described resources with instruction matches somebody with somebody
Put semi-persistent scheduling SPS resources corresponding to call number.
In the embodiment of the present invention, the UE sends the resource release information using the feedback control channel resource, and
The ID or described resource distribution call numbers corresponding to the SPS resources of release are indicated in the feedback control channel resource.
Device for allocating resources provided in an embodiment of the present invention, applied to network side, described device includes:
Dispensing unit, for by first kind collocation method and/or the second class collocation method, entering to one or more groups of resources
Row configuration;Wherein,
The first kind collocation method includes:One or more mark ID are configured for user equipment (UE), and are the UE's
Each ID configures one group of resource;
The second class collocation method includes:One or more resource distribution call numbers, each resource are configured for UE
One group of resource of configuration index correspondence.
In the embodiment of the present invention, resource described in each group for be semi-statically configured or dynamic dispatching configuration.
In the embodiment of the present invention, resource described in each group includes:PSCCH resources and/or PSSCH resources, wherein, by with
Any one or more lower mode is matched somebody with somebody to the PSCCH resources in resource described in each group and/or the PSSCH resources
Put:
By indicating that channel indexes number configure the PSCCH resources and/or the PSSCH resources;
By indicating that subframe and/or resource block RB configure the PSCCH resources and/or the PSSCH resources;
The PSCCH resources and/or the PSSCH resources are configured by implicit instruction.
In the embodiment of the present invention, the configuration to resource described in each group includes following any one or more:
The modulating-coding MCS modes of carrying information in the resource;
Process number corresponding to the resource;
The power contorl parameters of signal are sent in the resource;
When the resource is to be semi-statically configured, the cycle of the resource is configured;
When the resource is to be semi-statically configured, the feedback control channel resource for discharging the resource is configured to indicate that.
In the embodiment of the present invention, in the first kind collocation method, when configuring multiple ID for the UE, Mei Gesuo
State resource described in corresponding one group of the configurations of ID;In the second class collocation method, multiple resource distribution indexes are configured for the UE
Number when, each corresponding one group of resource of the resource distribution call number, wherein,
Multiple sets of resources corresponding to the multiple ID or multiple resource distribution call numbers is independent.
In the embodiment of the present invention, described device also includes:
Indicating member, in the first kind collocation method or the second class collocation method, passing through high-level signaling
And/or physical layer signaling indicates one or more groups of resources of configuration to the UE.
In the embodiment of the present invention, in the first kind collocation method or the second class collocation method, match somebody with somebody for the UE
The ID put is:
RNTI;Or
UE identification information described in energy unique mark.
In the embodiment of the present invention, in the second class collocation method, for the resource distribution index of UE configurations
Number it is process number, or HARQ process numbers.
In the embodiment of the present invention, the indicating member, it is additionally operable to carry an ID by DCI signalings, to the UE
Instruction activation discharges the resource corresponding to the ID, or carries a resource distribution rope by the DCI signalings
Quotation marks, indicate activation to the UE or discharge the resource corresponding to the resource distribution call number;
Wherein, indicate that resource described in one group corresponding to the activation ID or the resource distribution call number refers to:It is described
UE begins to use money described in one group corresponding to the ID or the resource distribution call number after the DCI signalings are received
Source, the reception or transmission of signal are carried out in the resource;
Indicate that resource described in one group corresponding to the release ID or the resource distribution call number refers to:The UE is connecing
After receiving the DCI signalings, resource described in one group corresponding to the ID or the resource distribution call number is stopped using, is stopped
The reception or transmission of signal are carried out in the resource.
The device for the acquisition resource distribution that another embodiment of the present invention provides, applied to user side, described device includes:
Acquiring unit, for by first kind collocation method and/or the second class collocation method, obtaining to one or more groups of moneys
The configuration in source;Wherein,
The first kind collocation method includes:Acquiring unit obtains one or more ID of configuration, and is each described
One group of resource of ID configurations;
The second class collocation method includes:Acquiring unit obtains one or more resource distribution call numbers of configuration, with
And one group of resource for the corresponding configuration of each resource distribution call number.
In the embodiment of the present invention, resource described in each group for be semi-statically configured or dynamic dispatching configuration.
In the embodiment of the present invention, resource described in each group includes:PSCCH resources and/or PSSCH resources, wherein, by with
Any one or more lower mode is obtained to the PSCCH resources in resource described in each group and/or the PSSCH resources
Configuration:
By indicating that channel indexes number configure the PSCCH resources and/or the PSSCH resources;
By indicating that subframe and/or resource block RB configure the PSCCH resources and/or the PSSCH resources;
The PSCCH resources and/or the PSSCH resources are configured by implicit instruction.
In the embodiment of the present invention, the configuration to resource described in each group includes following any one or more:
The MCS modes of carrying information in the resource;
Process number corresponding to the resource;
The power contorl parameters of signal are sent in the resource;
When the resource is to be semi-statically configured, the cycle of the resource is configured;
When the resource is to be semi-statically configured, the feedback control channel resource for discharging the resource is configured to indicate that.
In the embodiment of the present invention, in the first kind collocation method, the acquiring unit obtains multiple ID configurations
When, resource described in each corresponding one group of configurations of the ID;In the second class collocation method, the acquiring unit obtains multiple
When resource distribution call number configures, each corresponding one group of resource of the resource distribution call number, wherein,
Multiple sets of resources corresponding to the multiple ID or multiple resource distribution call numbers is independent.
In the embodiment of the present invention, the acquiring unit, it is additionally operable to match somebody with somebody in the first kind collocation method or second class
Put in method, one or more groups of resources of configuration are obtained by high-level signaling and/or physical layer signaling.
It is described to obtain list in the first kind collocation method or the second class collocation method in the embodiment of the present invention
The ID of configuration that member obtains is:
RNTI;Or
UE identification information described in energy unique mark.
In the embodiment of the present invention, in the second class collocation method, the money for the configuration that the acquiring unit obtains
Source configuration index number is process number, or HARQ process numbers.
In the embodiment of the present invention, the acquiring unit, it is additionally operable to receive DCI signalings, the DCI signalings are carried described in one
ID, instruction activates or discharged the resource corresponding to the ID, or carries a resource distribution call number, instruction activation
Or the resource corresponding to the release resource distribution call number;
Wherein, indicate that resource described in one group corresponding to the activation ID or the resource distribution call number refers to:It is described
UE begins to use money described in one group corresponding to the ID or the resource distribution call number after the DCI signalings are received
Source, the reception or transmission of signal are carried out in the resource;
Indicate that resource described in one group corresponding to the release ID or the resource distribution call number refers to:The UE is connecing
After receiving the DCI signalings, resource described in one group corresponding to the ID or the resource distribution call number is stopped using, is stopped
The reception or transmission of signal are carried out in the resource.
In the embodiment of the present invention, described device also includes:
Feedback unit, for when the resource is to be semi-statically configured, transmission resource to be released in feedback control channel resource
Information is put, to discharge the resource, wherein, the feedback unit indicates the SPS of release in the feedback control channel resource
The ID or described resource distribution call numbers corresponding to resource.
In the technical scheme of the embodiment of the present invention, by first kind collocation method and/or the second class collocation method, to one group
Or multiple sets of resources is configured;Wherein, the first kind collocation method includes:One or more marks (ID) are configured for UE, and
One group of resource is configured for each ID of the UE;The second class collocation method includes:One or more moneys are configured for UE
Source configuration index number, each corresponding one group of resource of the resource distribution call number.In this way, by configuring multigroup transmission simultaneously for UE
Resource, the parallel transmission of data is realized, reach raising resource utilization, support UE multi-services or multichannel data simultaneous transmission, drop
Low service delay and the effect for improving systematic function.
Brief description of the drawings
Accompanying drawing generally shows each embodiment discussed herein by way of example and not limitation.
Fig. 1 is D2D/V2V communication structure schematic diagrames;
Fig. 2 is the interaction schematic diagram of the embodiment of the present invention one;
Fig. 3 is the interaction schematic diagram of the embodiment of the present invention two;
Fig. 4 is the interaction schematic diagram of the embodiment of the present invention three;
Fig. 5 is the schematic flow sheet of the resource allocation method of the embodiment of the present invention;
Fig. 6 is the structure composition schematic diagram of the device for allocating resources of the embodiment of the present invention;
Fig. 7 is the structure composition schematic diagram one of the device of the acquisition resource distribution of the embodiment of the present invention;
Fig. 8 is the structure composition schematic diagram two of the device of the acquisition resource distribution of the embodiment of the present invention.
Embodiment
The characteristics of in order to more fully hereinafter understand the embodiment of the present invention and technology contents, below in conjunction with the accompanying drawings to this hair
The realization of bright embodiment is described in detail, appended accompanying drawing purposes of discussion only for reference, is not used for limiting the embodiment of the present invention.
In D2D/V2V communication systems, there is data transmitting terminal UE to be sent to send Sidelink scheduling controls on PSCCH
Information (SCI, Sidelink Control Information) processed, for indicating corresponding PSSCH resource distributions relevant information,
And Sidelink data are sent on the PSSCH indicated.
PSCCH resource pools are configured with system, wherein comprising multiple PSCCH resources, each PSCCH resources are wrapped in time domain
Containing a subframe, one or more RB pairs are included on frequency domain.D2D/V2V UE are by the blind check in PSCCH resource pools and decode
SCI information, obtain corresponding control instruction.Further, according to the instruction of SCI information, connect in indicated PSSCH resources
Receive Sidelink data messages.
Network side can use dynamic dispatching or semi-persistent scheduling to resource distributions of the D2D/V2V UE in Sidelink
(SPS, Semi-Persistent Scheduling).During using dynamic dispatching, by eNB by Downlink Control Information (DCI,
Downlink Control Information) configured PSCCH/PSSCH resources are indicated to UE, when being dispatched using SPS, lead to
Cross high-rise signal deployment semi-static parameter, and the activation or release of SPS resources indicated by DCI, to UE dispatch configuration resource and
The transmission of signal.
Network side includes the one or more in following entity:Evolved base station (eNB), relay station (RN), cell cooperative
Entity (MCE), gateway (GW), mobility management apparatus (MME), Evolved UTRAN (EUTRAN) operation pipe
Manage and safeguard (OAM) manager, below using eNB as network side entity exemplified by illustrate.
Scheduling of the network side to UE is indicated with Radio Network Temporary Identifier (RNTI, Radio Network Temporary
Identity it is) mark, UE is distinguished by RNTI.
Can be that UE dispatches multiple sets of resources when UE has the business demand of multiple types, or during larger amount of data transfer demands,
The carrying of corresponding information is realized by parallel transmission.Wherein, multiple sets of resources is configured with 2 class implementation methods, while can also be real
The configuration instruction of existing one group of resource.
Shown in reference picture 5, Fig. 5 is the schematic flow sheet of the resource allocation method of the embodiment of the present invention, as shown in figure 5, institute
Stating resource allocation method includes:
Step 501:Network side is by first kind collocation method and/or the second class collocation method, to one or more groups of resources
Configured;Wherein, the first kind collocation method includes:One or more ID are configured for UE, and are each institute of the UE
State ID and configure one group of resource;The second class collocation method includes:One or more resource distribution call numbers are configured for UE, each
The corresponding one group of resource of the resource distribution call number.
Can be that UE configures unique ID in the second class collocation method, and it is one or more for the ID configurations of the UE
Resource distribution call number, each corresponding one group of resource of the resource distribution call number.
Step 502:User side is obtained to one or more groups of by first kind collocation method and/or the second class collocation method
The configuration of resource;Wherein, the first kind collocation method includes:UE obtains one or more ID of configuration, and is each institute
State one group of resource of ID configurations;The second class collocation method includes:UE obtains one or more resource distributions index of configuration
Number, and one group of resource for the corresponding configuration of each resource distribution call number.
In the second class collocation method, UE obtains unique ID of configuration, and obtains corresponding with the ID one or more
Resource distribution call number, and one group of resource for the corresponding configuration of each resource distribution call number.
First kind collocation method
In first kind collocation method, eNB is that UE configures one or more ID, and configures one group of resource for UE each ID.
Wherein, ID refers to the identification information that can be used for this UE of unique mark between eNB and UE, can be RNTI, example
Such as UE cell RNTI (C-RNTI, Cell RNTI), semi-persistent scheduling SPS C-RNTI, or other any identification informations or
Sign.
Illustrate by taking RNTI as an example, in first kind collocation method, eNB can be that UE configures one or more RNTI, go forward side by side
Each RNTI scheduling that one step is UE configures each self-corresponding one group of resource, between multiple sets of resources configuration corresponding to multiple RNTI solely
It is vertical.
Second class collocation method
In second class collocation method, eNB is that UE configures unique ID, and configures one or more resource distribution indexes for UE
Number, for each resource distribution call number one group of resource of corresponding configuration.
Wherein, eNB identifies UE by unique ID, illustrates by taking RNTI as an example, eNB is with UE C-RNTI, or SPS C-
RNTI identifies UE, while configures one or more resource distribution call numbers for UE, and matches somebody with somebody for UE each resource distribution call number
One group of resource corresponding to putting, it is independent between multiple sets of resources corresponding to multiple resource distribution call numbers.
Wherein, resource distribution call number can be the process number of data transfer, or HARQ process numbers, with different processes
To distinguish respective resource distribution, i.e., each corresponding one group of resource of process number, UE provides according to different processes accordingly respectively
The reception or transmission of signal are carried out on source.
In the embodiment of the present invention, resource described in each group for be semi-statically configured or dynamic dispatching configuration.
In the embodiment of the present invention, resource described in each group includes:PSCCH resources and/or PSSCH resources.
In the embodiment of the present invention, network side is by any one or more following mode to the institute in resource described in each group
State PSCCH resources and/or the PSSCH resources are configured that (user side is obtained pair by any one or more following mode
The configuration of the PSCCH resources and/or the PSSCH resources in resource described in each group):
By indicating that channel indexes number configure the PSCCH resources and/or the PSSCH resources;
By indicating that subframe and/or RB configure the PSCCH resources and/or the PSSCH resources;
The PSCCH resources and/or the PSSCH resources are configured by implicit instruction.
In the embodiment of the present invention, the configuration to resource described in each group includes following any one or more:
The MCS modes of carrying information in the resource;
Process number corresponding to the resource;
The power contorl parameters of signal are sent in the resource;
When the resource is to be semi-statically configured, the cycle of the resource is configured;
When the resource is to be semi-statically configured, the feedback control channel resource for discharging the resource is configured to indicate that.
In the embodiment of the present invention, in the first kind collocation method, when configuring multiple ID for the UE, Mei Gesuo
State resource described in corresponding one group of the configurations of ID;In the second class collocation method, multiple resource distribution indexes are configured for the UE
Number when, each corresponding one group of resource of the resource distribution call number, wherein,
Multiple sets of resources corresponding to the multiple ID or multiple resource distribution call numbers is independent.
In the embodiment of the present invention, methods described also includes:
In the first kind collocation method or the second class collocation method, believed by high-level signaling and/or physical layer
Make one or more groups of resources to UE instruction configurations.
In the embodiment of the present invention, the high-level signaling is RRC information;The physical layer signaling is DCI signalings.
In the embodiment of the present invention, in the first kind collocation method or the second class collocation method, match somebody with somebody for the UE
The ID put is:
RNTI;Or
UE identification information described in energy unique mark.
In the embodiment of the present invention, the ID for UE configurations is semi-persistent scheduling Cell Radio Network Temporary Identifier/Identity, Cell-RNTI
(SPS C-RNTI)。
In the embodiment of the present invention, in the second class collocation method, for the resource distribution index of UE configurations
Number it is process number, or hybrid automatic repeat-request HARQ process numbers.
It is described by first kind collocation method and/or the second class collocation method in the embodiment of the present invention, to one or more groups of
Resource is configured, including:
In the first kind collocation method, pass through the wireless heterogeneous networks (RRC, Radio Resource
Control) message is that the UE configures one or more ID, and resource described in one group corresponding to each ID, is led to
Cross the DCI signalings and carry an ID, indicate activation to the UE or discharge the resource corresponding to the ID;
It is the one or more resources of UE configurations by the RRC information in the second class collocation method
Configuration index number, and resource described in one group corresponding to each resource distribution call number, one is carried by the DCI signalings
The individual resource distribution call number, indicate activation to the UE or discharge the resource corresponding to the resource distribution call number.
Carrying an ID in the embodiment of the present invention, in the DCI signalings includes:Pass through 8 ratios in the DCI signalings
Special or 16 bits indicate the ID;Or pass through CRC (CRC, Cyclic Redundancy in DCI signalings
Check ID described in mode implicit instruction);
A resource distribution call number is carried in the DCI signalings to be included:Pass through 2 bits in the DCI signalings
Or 3 bit or 4 bits indicate the resource distribution call number.
In the embodiment of the present invention, instruction activates resource described in one group corresponding to the ID or the resource distribution call number
Refer to:The UE begins to use one corresponding to the ID or the resource distribution call number after the DCI signalings are received
The group resource, carries out the reception or transmission of signal in the resource;
Indicate that resource described in one group corresponding to the release ID or the resource distribution call number refers to:The UE is connecing
After receiving the DCI signalings, resource described in one group corresponding to the ID or the resource distribution call number is stopped using, is stopped
The reception or transmission of signal are carried out in the resource.
In the embodiment of the present invention, for user side, a ID or described resource is carried according to the DCI signalings
The instruction of configuration index number, activate the resource and refer to:The UE begins to use the ID after the DCI signalings are received
Or resource described in one group corresponding to the resource distribution call number, the reception or transmission of signal are carried out in the resource;
The instruction of a ID or described resource distribution call number is carried according to the DCI signalings, discharges the resource
Refer to:The UE is stopped using one corresponding to the ID or the resource distribution call number after the DCI signalings are received
The group resource, stop in the resource and carry out the reception or transmission of signal.
When the resource for when being semi-statically configured, the UE sends resource release information in feedback control channel resource,
To discharge the resource.
The UE uses described anti-in one group of resource distribution corresponding to the ID or described resource distribution call numbers
Present control channel resource and send the resource release information, discharged with instruction corresponding to the ID or described resource distribution call numbers
Semi-persistent scheduling SPS resources.
The UE sends the resource release information using the feedback control channel resource, and believes in the feedback control
The ID or described resource distribution call numbers corresponding to the SPS resources of release are indicated in road resource.
In the above-mentioned first kind and the second class collocation method, one group of money is configured according to different ID or resource distribution call number
Source, wherein one group of described resource refers to that UE carries out signal reception or transmits required related resource configuration, specifically include:
Each group of resource includes PSCCH resources and/or PSSCH resources.Wherein, the PSCCH resources included in one group of resource
For a PSCCH channel resource, comprising a subframe in time domain, and one in PSCCH resource pools in the subframe or
Multiple RB pairs;The PSSCH resources included in one group of resource are included in a subframe in time domain, and the PSSCH in the subframe
RB pairs of one or more of resource pool.Or a sub-channels resource is included in one group of resource, included in the sub-channel resource
Predefined or pre-configured PSCCH resources and PSSCH resources.
In dynamic dispatching, PSCCH the and/or PSSCH resources included in above-mentioned one group of resource only use for once transmission,
According to eNB scheduling instruction in corresponding PSCCH resources and/or PSSCH resources, UE carries out the reception or transmission of signal.
In SPS scheduling, PSCCH the and/or PSSCH resources included in above-mentioned one group of resource are reused by the cycle, root
Indicated according to eNB scheduling in corresponding PSCCH resources and/or PSSCH resources, UE carries out periodic signal reception or hair
Send.
Further, eNB includes to the PSCCH resources and/or the indicating mode of PSSCH resources that are included in one group of resource:
By indicating that channel indexes number configure PSCCH resources and/or PSSCH resources, according to PSCCH resource pools and/or
PSSCH resource pools configure, and corresponding PSCCH resources and/or PSSCH resources have one-to-one channel indexes number, and eNB refers to UE
Show the channel indexes number of scheduled PSCCH resources and/or PSSCH resources, after UE receives eNB configured information, according to institute
The channel indexes number of instruction can determine that configured PSCCH resources and/or PSSCH resources;
By indicating that subframe and/or the resource block RB configurations PSCCH resources and/or PSSCH resources, eNB pass through instruction
The subframe and/or RB that PSCCH resources and/or PSSCH resources include, UE resources are configured, after UE receives eNB configured information,
According to indicated subframe and/or RB, you can it is determined that the PSCCH resources and/or PSSCH resources that are configured;
PSCCH the and/or PSSCH resources are configured by implicit instruction, eNB is by other signalings or parameter, by predetermined
The implicit association relation of justice, PSCCH resources and/or PSSCH resources are indicated to UE, such as according to where UE ID or DCI signalings
The information such as physical resource position, determine the PSCCH resource associated with the physical resource position where UE ID or DCI signalings
And/or PSSCH resources, carry out implicit instruction so as to realize to UE.After UE receives eNB configured information, according to the hidden of determination
Formula incidence relation can determine that configured PSCCH resources and/or PSSCH resources.
Further, the configuration to each group of resource indicates, except the time domain to PSCCH resources and/or PSSCH resources
And/or beyond frequency domain resource instruction, in addition to it is following any one or more:
The modulation coding mode MCS of carrying information in this group of resource.Indicate the PSCCH resources included in this group of resource
And/or in PSSCH resources, the MCS grades of information processing.
Process number corresponding to this group of resource.Process number corresponding to the information in this group of transmitted over resources is indicated, it is more when existing
During group resource distribution, every group of resource transmission can correspond to identical or different process number.
The power contorl parameters of signal are sent in this group of resource.When scheduled resource, which is used for UE, sends signal, eNB
The power that instruction UE sends signal in the PSCCH resources and/or PSSCH resources configured can be configured by power contorl parameters.
When this group of resource is that SPS is dispatched, the cycle of this group of resource is indicated.In SPS scheduling, eNB is configured by UE
PSCCH resources and/or PSSCH resources have periodically, and eNB need to indicate corresponding resource period, available resource period to UE
Value includes [20,40,80,100,160,200,320] ms etc..In SPS scheduling, PSCCH resources that eNB is configured and/or
PSSCH resources are reused by the cycle configured, and UE is carried out periodically according to the periodic quantity configured in corresponding resource
Signal receive or send.
When this group of resource is that SPS is dispatched, eNB is the feedback control channel money that UE is configured to indicate that this group of resource of release
Source.When eNB is that UE dispatches SPS transmission resources, UE periodically uses the transmission of configured resource progress signal, when UE number
According to being sent, then need to discharge this SPS resource.ENB is that UE configures corresponding feedback control channel resource, for carrying UE's
Release message, UE is set to indicate institute to eNB by sending SPS resource release messages to eNB on the feedback control channel configured
The SPS resources release of configuration.
Using in first kind resource allocation method and/or the second class collocation method, to UE configure the signaling bag of instruction
High-level signaling and/or physical layer signaling are included, is specifically included:
By high-level signaling RRC information, configured resource is indicated to UE;Or
Configured resource is indicated to UE by physical layer DCI;Or
By partial information of the RRC information into UE instruction resource distributions, then by DCI signalings resource distribution is indicated to UE
In remaining information, complete resource distribution is indicated to UE by RRC information and DCI signalings.For example, in SPS scheduling,
Configuration instruction UE one or more ID in RRC information, or one or more resource distribution call numbers, and each ID or every
Resource period corresponding to individual resource distribution call number, process number, feedback control channel resource, power contorl parameters, then pass through DCI
Signaling instruction activation discharges configured SPS resources, and specific PSCCH resources and/or PSSCH resources, MCS.
When indicating one group of resource of activation or release by DCI signalings:
An ID is carried in DCI signalings, is specifically included:This ID is indicated in DCI signalings, passes through 8bits or 16bits
Indicating bit is indicated;Or scrambled in DCI signalings by cyclic redundancy check (CRC), implicit instruction id information;
A resource distribution call number is carried in DCI signalings, is specifically included, resource distribution index is indicated in DCI signalings
Number, indicate this resource distribution call number by 2 or 3 or 4bits indicating bits.
Further, indicate that one group of resource corresponding to the activation ID or the resource distribution call number is by DCI
Refer to, eNB indicates that one group of resource corresponding to this ID or this resource distribution call number begins to use by DCI to UE.UE is being received
To after the DCI signalings of instruction activation, begin to use in DCI corresponding to the ID or resource distribution call number of instruction or implicit indication
One group of resource, the reception or transmission of signal are carried out in the resource;
Indicate that one group of resource corresponding to the release ID or the resource distribution call number refers to that eNB passes through by DCI
DCI indicates that one group of resource corresponding to this ID or this resource distribution call number is stopped using to UE.UE is receiving instruction release
DCI signalings after, stop using in DCI one group of resource corresponding to the ID or resource distribution call number of instruction or implicit indication,
Stop in the resource and carry out the reception or transmission of signal.
The DCI of example one indicates multi-process dynamic BTS configuration
ENB, to UE dynamic configuration multiple sets of resources, different process numbers is indicated by DCI, in fact using the second class collocation method
Existing UE multi-process data transfer.
As shown in Fig. 2 eNB identifies and indicated the resource that UE is configured with the unique C-RNTI scramblings DCI CRC of UE.
On subframe #2 and subframe #3, eNB sends DCI message to UE respectively, wherein the configured information included is:
PSCCH resources and PSSCH resource distributions;
MCS;
Power contorl parameters;
HARQ process numbers.
Wherein, the PSCCH resources and PSSCH resources that are configured in the DCI that subframe #2 is sent are the resource on subframe #7,
The HARQ process numbers of instruction are #3;The PSCCH resources and PSSCH resources configured in the DCI that subframe #3 is sent is subframe #10
On resource, the HARQ process numbers of instruction are #5.Then indicated according to eNB scheduling, UE makes on subframe #7 and subframe #10 respectively
With the resource and relevant parameter configured, the transmission of signal is carried out, realizes multi-process transmission.
The RRC of example two indicates multigroup SPS configurations, DCI instruction activation
ENB dispatches multigroup SPS resources using first kind collocation method to UE, is indicated by RRC information and DCI signalings, real
Existing UE multi-process data transfer.
As shown in figure 3, eNB is that UE configures multiple SPS C-RNTI by RRC information, and each SPS C-RNTI are configured
One group of resource, every group of resource distribution include:
SPS resource periods;
Power contorl parameters;
For indicating the feedback control channel resource of release.
Further, eNB scrambles DCI CRC by SPS C-RNTI, identifies and indicate the resource that UE is configured.
ENB scrambles DCI CRC by SPS C-RNTI A, and instruction activates resource corresponding to UE SPS C-RNTI A, and
Indicated in DCI:
SPS is activated;
PSCCH resources and PSSCH resource distributions;
MCS;
Indicated, configured corresponding to UE activation SPS C-RNTI A, wherein the SPS cycles configured are according to eNB scheduling
40ms, MCS grade are 5, and according to eNB configuration, UE carries out cyclical signal in the PSCCH/PSSCH resources of instruction by 40ms
Transmission.
Similar, eNB scrambles DCI CRC by SPS C-RNTI B, and instruction is activated corresponding to UE SPS C-RNTI B
Resource, wherein the SPS cycles configured are 100ms, MCS grades are 3, according to eNB configuration, PSCCH/PSSCHs of the UE in instruction
The transmission of cyclical signal is carried out in resource by 100ms.
After transmission after a while, eNB scrambles DCI CRC, instruction release UE SPS by SPS C-RNTI A
Resource corresponding to C-RNTI A, SPS releases are indicated by activation/release indicating bit in DCI, then UE releases according to eNB instruction
Resource corresponding to putting SPS C-RNTI A, the signal stopped in respective resources are sent.
The RRC of example three indicates multigroup SPS configurations, the release of UE feedback resources
ENB dispatches multigroup SPS resources using the second class collocation method to UE, is indicated by RRC information and DCI signalings, real
Existing UE multi-process data transfer.
As shown in figure 4, eNB is that UE configures multiple process numbers by RRC information, and one group of money is configured to each process number
Source, every group of resource distribution include:
SPS resource periods;
Power contorl parameters;
For indicating the feedback control channel resource of release.
Further, eNB identifies and indicated the resource that UE is configured by indicating corresponding process number in DCI.
ENB indicates process number #1 in DCI, configures and activates corresponding resource, is indicated in DCI:
SPS is activated;
PSCCH resources and PSSCH resource distributions;
MCS;
Indicated according to eNB scheduling, configured corresponding to UE activation process numbers #1, wherein the SPS cycles configured are 40ms,
MCS grades are 5, and according to eNB configuration, UE is carried out the hair of cyclical signal in the PSCCH/PSSCH resources of instruction by 40ms
Send.
Similar, for eNB by indicating process number #3, instruction activates UE corresponding resource, wherein the SPS cycles configured are
100ms, MCS grade are 3, and according to eNB configuration, UE carries out periodicity letter in the PSCCH/PSSCH resources of instruction by 100ms
Number transmission.
After transmission after a while, the business datum that UE is carried in process number #3 resource be sent, it is necessary to
Corresponding resource is discharged to eNB notices.Then UE is using the feedback control channel resource included in process number #3 resource distributions, to
ENB sends release message, resource corresponding to instruction release process number #3, and the signal stopped in respective resources is sent.
Fig. 6 be the embodiment of the present invention device for allocating resources structure composition schematic diagram, the device for allocating resources application
In network side, described device includes:
Dispensing unit 61, for by first kind collocation method and/or the second class collocation method, to one or more groups of resources
Configured;Wherein,
The first kind collocation method includes:One or more mark ID are configured for UE, and are each described of the UE
ID configures one group of resource;
The second class collocation method includes:One or more resource distribution call numbers, each resource are configured for UE
One group of resource of configuration index correspondence.
In the embodiment of the present invention, resource described in each group for be semi-statically configured or dynamic dispatching configuration.
In the embodiment of the present invention, resource described in each group includes:PSCCH resources and/or PSSCH resources.
In the embodiment of the present invention, by any one or more following mode to described in resource described in each group
PSCCH resources and/or the PSSCH resources are configured:
By indicating that channel indexes number configure the PSCCH resources and/or the PSSCH resources;
By indicating that subframe and/or RB configure the PSCCH resources and/or the PSSCH resources;
The PSCCH resources and/or the PSSCH resources are configured by implicit instruction.
In the embodiment of the present invention, the configuration to resource described in each group includes following any one or more:
The MCS modes of carrying information in the resource;
Process number corresponding to the resource;
The power contorl parameters of signal are sent in the resource;
When the resource is to be semi-statically configured, the cycle of the resource is configured;
When the resource is to be semi-statically configured, the feedback control channel resource for discharging the resource is configured to indicate that.
In the embodiment of the present invention, in the first kind collocation method, when configuring multiple ID for the UE, Mei Gesuo
State resource described in corresponding one group of the configurations of ID;In the second class collocation method, multiple resource distribution indexes are configured for the UE
Number when, each corresponding one group of resource of the resource distribution call number, wherein,
Multiple sets of resources corresponding to the multiple ID or multiple resource distribution call numbers is independent.
In the embodiment of the present invention, described device also includes:Indicating member 62, in the first kind collocation method or institute
State in the second class collocation method, indicate one or more groups of institutes of configuration to the UE by high-level signaling and/or physical layer signaling
State resource.
In the embodiment of the present invention, the high-level signaling is RRC information;The physical layer signaling is DCI signalings.
In the embodiment of the present invention, in the first kind collocation method or the second class collocation method, match somebody with somebody for the UE
The ID put is:
Radio Network Temporary Identifier RNTI;Or
UE identification information described in energy unique mark.
In the embodiment of the present invention, the ID for UE configurations is SPS C-RNTI.
In the embodiment of the present invention, in the second class collocation method, for the resource distribution index of UE configurations
Number it is process number, or HARQ process numbers.
It is described by first kind collocation method and/or the second class collocation method in the embodiment of the present invention, to one or more groups of
Resource is configured, including:
It is the one or more ID of UE configurations by the RRC information in the first kind collocation method, with
And resource described in one group corresponding to each ID, and an ID is further carried by the DCI signalings, with to described
UE instructions activation discharges the resource corresponding to the ID;
It is the one or more resources of UE configurations by the RRC information in the second class collocation method
Configuration index number, and resource described in one group corresponding to each resource distribution call number, and further believed by the DCI
Order carries a resource distribution call number, to indicate activation to the UE or discharge corresponding to the resource distribution call number
The resource.
Carrying an ID in the embodiment of the present invention, in the DCI signalings includes:Pass through 8 ratios in the DCI signalings
Special or 16 bits indicate the ID;Or ID described in implicit instruction is scrambled by cyclic redundancy check (CRC) in DCI signalings;
A resource distribution call number is carried in the DCI signalings to be included:Pass through 2 bits in the DCI signalings
Or 3 bit or 4 bits indicate the resource distribution call number.
In the embodiment of the present invention, the indicating member 62, it is additionally operable to carry an ID by DCI signalings, to described
UE instructions activation discharges the resource corresponding to the ID, or carries a resource distribution by the DCI signalings
Call number, indicate activation to the UE or discharge the resource corresponding to the resource distribution call number.
Indicate that resource described in one group corresponding to the activation ID or the resource distribution call number refers to:The UE is connecing
After receiving the DCI signalings, begin to use resource described in one group corresponding to the ID or the resource distribution call number, in institute
State the reception or transmission that signal is carried out in resource;
Indicate that resource described in one group corresponding to the release ID or the resource distribution call number refers to:The UE is connecing
After receiving the DCI signalings, resource described in one group corresponding to the ID or the resource distribution call number is stopped using, is stopped
The reception or transmission of signal are carried out in the resource.
It will be appreciated by those skilled in the art that each unit in device for allocating resources shown in Fig. 6 realizes that function can join
Understand according to the associated description of foregoing resource allocation method.The function of each unit in device for allocating resources shown in Fig. 6 can lead to
Cross the program run on processor and realize, can also be realized by specific logic circuit.
Fig. 7 be the embodiment of the present invention acquisition resource distribution device structure composition schematic diagram one, the acquisition resource
The device of configuration is applied to user side, and described device includes:
Acquiring unit 71, for by first kind collocation method and/or the second class collocation method, obtaining to one or more groups of
The configuration of resource;Wherein,
The first kind collocation method includes:Acquiring unit 71 obtains one or more ID of configuration, and is each institute
State one group of resource of ID configurations;
The second class collocation method includes:Acquiring unit 71 obtains one or more resource distribution call numbers of configuration,
And one group of resource for the corresponding configuration of each resource distribution call number.
Transmission unit 72, for carrying out the transmission of data or the reception of data by one or more groups of resources.
Fig. 8 be the embodiment of the present invention acquisition resource distribution device structure composition schematic diagram two, the acquisition resource
The device of configuration is applied to user side, and described device includes:
Acquiring unit 81, for by first kind collocation method and/or the second class collocation method, obtaining to one or more groups of
The configuration of resource;Wherein,
The first kind collocation method includes:Acquiring unit 81 obtains one or more ID of configuration, and is each institute
State one group of resource of ID configurations;
The second class collocation method includes:Acquiring unit 81 obtains one or more resource distribution call numbers of configuration,
And one group of resource for the corresponding configuration of each resource distribution call number.
Transmission unit 82, for carrying out the transmission of data or the reception of data by one or more groups of resources.
Feedback unit 83, for when the resource is to be semi-statically configured, resource to be sent in feedback control channel resource
Information is discharged, to discharge the resource.
Resource described in each group for be semi-statically configured or dynamic dispatching configuration.
In the embodiment of the present invention, resource described in each group includes:PSCCH resources and/or PSSCH resources.
In the embodiment of the present invention, obtained by any one or more following mode to described in resource described in each group
The configuration of PSCCH resources and/or the PSSCH resources:
By indicating that channel indexes number obtain the configuration to the PSCCH resources and/or the PSSCH resources;
By indicating the configuration of subframe and/or RB acquisitions to the PSCCH resources and/or the PSSCH resources;
Configuration to the PSCCH resources and/or the PSSCH resources is obtained by implicit instruction.
In the embodiment of the present invention, the configuration to resource described in each group includes following any one or more:
The MCS modes of carrying information in the resource;
Process number corresponding to the resource;
The power contorl parameters of signal are sent in the resource;
When the resource is to be semi-statically configured, the cycle of the resource is configured;
When the resource is to be semi-statically configured, the feedback control channel resource for discharging the resource is configured to indicate that.
In the embodiment of the present invention, in the first kind collocation method, the acquiring unit 81 obtains multiple ID and matched somebody with somebody
When putting, resource described in each corresponding one group of configurations of the ID;In the second class collocation method, the acquiring unit 81 obtains
During multiple resource distribution call number configurations, each corresponding one group of resource of the resource distribution call number, wherein,
Multiple sets of resources corresponding to the multiple ID or multiple resource distribution call numbers is independent.
In the embodiment of the present invention, methods described also includes:
In the first kind collocation method or the second class collocation method, believed by high-level signaling and/or physical layer
Order obtains one or more groups of resources of configuration.
In the embodiment of the present invention, the high-level signaling is RRC information;The physical layer signaling is DCI signalings.
In the embodiment of the present invention, in the first kind collocation method or the second class collocation method, acquiring unit 81
The ID of the configuration of acquisition is:
RNTI;Or
UE identification information described in energy unique mark.
In the embodiment of the present invention, the ID for the configuration that the acquiring unit 81 obtains is SPS C-RNTI.
In the embodiment of the present invention, in the second class collocation method, configuration that the acquiring unit 81 obtains it is described
Resource distribution call number is process number, or HARQ process numbers.
In the embodiment of the present invention, the acquiring unit 71, it is additionally operable in the first kind collocation method, the UE passes through
The RRC information obtains one or more ID of configuration, and resource described in one group corresponding to each ID, according to institute
An ID of DCI signalings carrying instruction is stated, activates or discharges the resource corresponding to the ID;
In the second class collocation method, the UE is obtained by the RRC information described in the one or more of configuration
Resource distribution call number, and resource described in one group corresponding to each resource distribution call number, take according to the DCI signalings
Instruction with a resource distribution call number, activate or discharge the resource corresponding to the resource distribution call number.
The acquiring unit 81, is additionally operable to receive DCI signalings, and the DCI signalings carry an ID, instruction activation or
The resource corresponding to the ID is discharged, or carries a resource distribution call number, instruction activates or discharged the money
The resource corresponding to the configuration index number of source.
In the embodiment of the present invention, the finger of a ID or described resource distribution call number is carried according to the DCI signalings
Show, activate the resource and refer to:The UE begins to use the ID or the resource to match somebody with somebody after the DCI signalings are received
Resource described in one group corresponding to call number is put, the reception or transmission of signal are carried out in the resource;
The instruction of a ID or described resource distribution call number is carried according to the DCI signalings, discharges the resource
Refer to:The UE is stopped using one corresponding to the ID or the resource distribution call number after the DCI signalings are received
The group resource, stop in the resource and carry out the reception or transmission of signal.
In the embodiment of the present invention, methods described also includes:
When the resource for when being semi-statically configured, the UE sends resource release information in feedback control channel resource,
To discharge the resource.
In the embodiment of the present invention, the UE uses one group of resource corresponding to the ID or described resource distribution call numbers
The feedback control channel resource in configuration sends the resource release information, and discharging the ID or described resources with instruction matches somebody with somebody
Put semi-persistent scheduling SPS resources corresponding to call number.
In the embodiment of the present invention, the UE sends the resource release information using the feedback control channel resource, and
The ID or described resource distribution call numbers corresponding to the SPS resources of release are indicated in the feedback control channel resource.
It will be appreciated by those skilled in the art that shown in Fig. 7, Fig. 8 acquisition resource distribution device in each unit reality
Existing function can refer to the associated description of foregoing resource allocation method and understand.The device of acquisition resource distribution shown in Fig. 7, Fig. 8
In the function of each unit can be realized by running on the program on processor, also can be by specific logic circuit and reality
It is existing.
It should be understood by those skilled in the art that, embodiments of the invention can be provided as method, system or computer program
Product.Therefore, the shape of the embodiment in terms of the present invention can use hardware embodiment, software implementation or combination software and hardware
Formula.Moreover, the present invention can use the computer for wherein including computer usable program code in one or more to use storage
The form for the computer program product that medium is implemented on (including but is not limited to magnetic disk storage and optical memory etc.).
The present invention is the flow with reference to method according to embodiments of the present invention, equipment (system) and computer program product
Figure and/or block diagram describe.It should be understood that can be by every first-class in computer program instructions implementation process figure and/or block diagram
Journey and/or the flow in square frame and flow chart and/or block diagram and/or the combination of square frame.These computer programs can be provided
The processors of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing devices is instructed to produce
A raw machine so that produced by the instruction of computer or the computing device of other programmable data processing devices for real
The device for the function of being specified in present one flow of flow chart or one square frame of multiple flows and/or block diagram or multiple square frames.
These computer program instructions, which may be alternatively stored in, can guide computer or other programmable data processing devices with spy
Determine in the computer-readable memory that mode works so that the instruction being stored in the computer-readable memory, which produces, to be included referring to
Make the manufacture of device, the command device realize in one flow of flow chart or multiple flows and/or one square frame of block diagram or
The function of being specified in multiple square frames.
These computer program instructions can be also loaded into computer or other programmable data processing devices so that counted
Series of operation steps is performed on calculation machine or other programmable devices to produce computer implemented processing, so as in computer or
The instruction performed on other programmable devices is provided for realizing in one flow of flow chart or multiple flows and/or block diagram one
The step of function of being specified in individual square frame or multiple square frames.
The foregoing is only a preferred embodiment of the present invention, is not intended to limit the scope of the present invention.
Claims (49)
1. a kind of resource allocation method, it is characterised in that methods described includes:
By first kind collocation method and/or the second class collocation method, one or more groups of resources are configured;Wherein,
The first kind collocation method includes:One or more mark ID are configured for user equipment (UE), and are each of the UE
The ID configures one group of resource;
The second class collocation method includes:One or more resource distribution call numbers, each resource distribution are configured for UE
The corresponding one group of resource of call number.
2. resource allocation method according to claim 1, it is characterised in that resource described in each group to be semi-statically configured or
Dynamic dispatching configures.
3. resource allocation method according to claim 1, it is characterised in that resource described in each group includes:Physics side chain
Road control channel PSCCH resources and/or physics side link shared channels PSSCH resources.
4. resource allocation method according to claim 3, it is characterised in that pass through any one or more following mode pair
The PSCCH resources and/or the PSSCH resources in resource described in each group are configured:
By indicating that channel indexes number configure the PSCCH resources and/or the PSSCH resources;
By indicating that subframe and/or resource block RB configure the PSCCH resources and/or the PSSCH resources;
The PSCCH resources and/or the PSSCH resources are configured by implicit instruction.
5. resource allocation method according to claim 1, it is characterised in that configuration to resource described in each group include with
Under it is any one or more:
The modulating-coding MCS modes of carrying information in the resource;
Process number corresponding to the resource;
The power contorl parameters of signal are sent in the resource;
When the resource is to be semi-statically configured, the cycle of the resource is configured;
When the resource is to be semi-statically configured, the feedback control channel resource for discharging the resource is configured to indicate that.
6. resource allocation method according to claim 1, it is characterised in that in the first kind collocation method, for institute
When stating the UE multiple ID of configuration, resource described in each corresponding one group of configurations of the ID;In the second class collocation method, it is
When the UE configures multiple resource distribution call numbers, each corresponding one group of resource of the resource distribution call number, wherein,
Multiple sets of resources corresponding to the multiple ID or multiple resource distribution call numbers is independent.
7. resource allocation method according to claim 1, it is characterised in that methods described also includes:
In the first kind collocation method or the second class collocation method, by high-level signaling and/or physical layer signaling to
One or more groups of resources of the UE instructions configuration.
8. resource allocation method according to claim 7, it is characterised in that the high-level signaling is wireless heterogeneous networks
RRC information;The physical layer signaling is Downlink Control Information DCI signalings.
9. resource allocation method according to claim 1, it is characterised in that in the first kind collocation method or described
In two class collocation methods, the ID for UE configurations is:
Radio Network Temporary Identifier RNTI;Or
UE identification information described in energy unique mark.
10. resource allocation method according to claim 9, it is characterised in that the ID for being UE configurations is partly to hold
Continuous property scheduling Cell Radio Network Temporary Identifier/Identity, Cell-RNTI SPS C-RNTI.
11. resource allocation method according to claim 1, it is characterised in that in the second class collocation method, for institute
The resource distribution call number for stating UE configurations is process number, or hybrid automatic repeat-request HARQ process numbers.
12. resource allocation method according to claim 8, it is characterised in that it is described by first kind collocation method and/or
One or more groups of resources are configured by the second class collocation method, including:
It is the one or more ID of UE configurations by the RRC information in the first kind collocation method, and often
Resource described in one group corresponding to the individual ID, an ID is carried by the DCI signalings, indicate activation to the UE or release
Put the resource corresponding to the ID;
It is the one or more resource distributions of UE configurations by the RRC information in the second class collocation method
Call number, and resource described in one group corresponding to each resource distribution call number, an institute is carried by the DCI signalings
Resource distribution call number is stated, activation is indicated to the UE or discharges the resource corresponding to the resource distribution call number.
13. resource allocation method according to claim 12, it is characterised in that
An ID is carried in the DCI signalings to be included:In the DCI signalings institute is indicated by 8 bits or 16 bits
State ID;Or ID described in implicit instruction is scrambled by cyclic redundancy check (CRC) in DCI signalings;
A resource distribution call number is carried in the DCI signalings to be included:Compared in the DCI signalings by 2 bits or 3
Special or 4 bits indicate the resource distribution call number.
14. resource allocation method according to claim 12, it is characterised in that
Indicate that resource described in one group corresponding to the activation ID or the resource distribution call number refers to:The UE is being received
After the DCI signalings, begin to use resource described in one group corresponding to the ID or the resource distribution call number, in the money
The reception or transmission of signal are carried out on source;
Indicate that resource described in one group corresponding to the release ID or the resource distribution call number refers to:The UE is being received
After the DCI signalings, stop using the ID or the resource distribution call number corresponding to resource described in one group, stop at institute
State the reception or transmission that signal is carried out in resource.
A kind of 15. method for obtaining resource distribution, it is characterised in that methods described includes:
By first kind collocation method and/or the second class collocation method, the configuration to one or more groups of resources is obtained;Wherein,
The first kind collocation method includes:UE obtains one or more ID of configuration, and one for each ID configurations
Group resource;
The second class collocation method includes:UE obtains one or more resource distribution call numbers of configuration, and is each institute
State one group of resource of the corresponding configuration of resource distribution call number.
16. the method according to claim 15 for obtaining resource distribution, it is characterised in that resource described in each group is half quiet
State configures or dynamic dispatching configuration.
17. the method according to claim 15 for obtaining resource distribution, it is characterised in that resource described in each group includes:
PSCCH resources and/or PSSCH resources.
18. it is according to claim 17 obtain resource distribution method, it is characterised in that by it is following any one or it is more
Kind mode obtains the configuration to the PSCCH resources and/or the PSSCH resources in resource described in each group:
By indicating that channel indexes number obtain the configuration to the PSCCH resources and/or the PSSCH resources;
By indicating the configuration of subframe and/or RB acquisitions to the PSCCH resources and/or the PSSCH resources;
Configuration to the PSCCH resources and/or the PSSCH resources is obtained by implicit instruction.
19. the method according to claim 15 for obtaining resource distribution, it is characterised in that match somebody with somebody to resource described in each group
Put including following any one or more:
The MCS modes of carrying information in the resource;
Process number corresponding to the resource;
The power contorl parameters of signal are sent in the resource;
When the resource is to be semi-statically configured, the cycle of the resource is configured;
When the resource is to be semi-statically configured, the feedback control channel resource for discharging the resource is configured to indicate that.
20. the method according to claim 15 for obtaining resource distribution, it is characterised in that in the first kind collocation method
In, when the UE obtains multiple ID configurations, resource described in each corresponding one group of configurations of the ID;Configured in second class
In method, when the UE obtains multiple resource distribution call number configurations, each corresponding one group of resource of the resource distribution call number,
Wherein,
Multiple sets of resources corresponding to the multiple ID or multiple resource distribution call numbers is independent.
21. the method according to claim 15 for obtaining resource distribution, it is characterised in that methods described also includes:
In the first kind collocation method or the second class collocation method, obtained by high-level signaling and/or physical layer signaling
The one or more groups of resources that must be configured.
22. the method according to claim 21 for obtaining resource distribution, it is characterised in that the high-level signaling disappears for RRC
Breath;The physical layer signaling is DCI signalings.
23. the method according to claim 15 for obtaining resource distribution, it is characterised in that in the first kind collocation method
Or in the second class collocation method, the ID for the configuration that UE is obtained is:
RNTI;Or
UE identification information described in energy unique mark.
24. the method according to claim 23 for obtaining resource distribution, it is characterised in that the institute for the configuration that the UE is obtained
It is SPS C-RNTI to state ID.
25. the method according to claim 15 for obtaining resource distribution, it is characterised in that in the second class collocation method
In, the resource distribution call number of the configuration that the UE is obtained is process number, or HARQ process numbers.
26. the method according to claim 22 for obtaining resource distribution, it is characterised in that described to pass through first kind configuration side
Method and/or the second class collocation method, obtain the configuration to one or more groups of resources, including:
In the first kind collocation method, the UE obtains one or more ID of configuration by the RRC information, with
And resource described in one group corresponding to each ID, the ID carried according to the DCI signalings instruction, activate or release
Put the resource corresponding to the ID;
In the second class collocation method, the UE obtains one or more resources of configuration by the RRC information
Configuration index number, and resource described in one group corresponding to each resource distribution call number, one is carried according to the DCI signalings
The instruction of the individual resource distribution call number, activate or discharge the resource corresponding to the resource distribution call number.
27. the method according to claim 26 for obtaining resource distribution, it is characterised in that
The instruction of a ID or described resource distribution call number is carried according to the DCI signalings, the resource is activated and refers to:
The UE begins to use one group of institute corresponding to the ID or the resource distribution call number after the DCI signalings are received
Resource is stated, the reception or transmission of signal are carried out in the resource;
The instruction of a ID or described resource distribution call number is carried according to the DCI signalings, the resource is discharged and refers to:
The UE stops using one group of institute corresponding to the ID or the resource distribution call number after the DCI signalings are received
Resource is stated, stops in the resource and carries out the reception or transmission of signal.
28. the method according to claim 19 for obtaining resource distribution, it is characterised in that methods described also includes:
When the resource for when being semi-statically configured, the UE sends resource release information in feedback control channel resource, to release
Put the resource.
29. resource allocation method according to claim 28, it is characterised in that the UE uses the ID or described resources
The feedback control channel resource in one group of resource distribution corresponding to configuration index number sends the resource release information,
Semi-persistent scheduling SPS resources corresponding to the ID or described resource distribution call numbers are discharged with instruction.
30. resource allocation method according to claim 28, it is characterised in that the UE uses the feedback control channel
Resource sends resource release information, and indicates in the feedback control channel resource institute corresponding to the SPS resources of release
State ID or described resource distribution call numbers.
31. a kind of device for allocating resources, it is characterised in that applied to network side, described device includes:
Dispensing unit, for by first kind collocation method and/or the second class collocation method, matching somebody with somebody to one or more groups of resources
Put;Wherein,
The first kind collocation method includes:One or more mark ID are configured for user equipment (UE), and are each of the UE
The ID configures one group of resource;
The second class collocation method includes:One or more resource distribution call numbers, each resource distribution are configured for UE
The corresponding one group of resource of call number.
32. device for allocating resources according to claim 31, it is characterised in that resource described in each group is to be semi-statically configured
Or dynamic dispatching configuration.
33. device for allocating resources according to claim 31, it is characterised in that resource described in each group includes:PSCCH is provided
Source and/or PSSCH resources, wherein, by any one or more following mode to the PSCCH in resource described in each group
Resource and/or the PSSCH resources are configured:
By indicating that channel indexes number configure the PSCCH resources and/or the PSSCH resources;
By indicating that subframe and/or resource block RB configure the PSCCH resources and/or the PSSCH resources;
The PSCCH resources and/or the PSSCH resources are configured by implicit instruction.
34. device for allocating resources according to claim 31, it is characterised in that the configuration to resource described in each group includes
It is any one or more below:
The modulating-coding MCS modes of carrying information in the resource;
Process number corresponding to the resource;
The power contorl parameters of signal are sent in the resource;
When the resource is to be semi-statically configured, the cycle of the resource is configured;
When the resource is to be semi-statically configured, the feedback control channel resource for discharging the resource is configured to indicate that.
35. device for allocating resources according to claim 31, it is characterised in that in the first kind collocation method, be
When the UE configures multiple ID, resource described in each corresponding one group of configurations of the ID;In the second class collocation method,
When configuring multiple resource distribution call numbers for the UE, each corresponding one group of resource of the resource distribution call number, wherein,
Multiple sets of resources corresponding to the multiple ID or multiple resource distribution call numbers is independent.
36. device for allocating resources according to claim 31, it is characterised in that described device also includes:
Indicating member, in the first kind collocation method or the second class collocation method, by high-level signaling and/or
Physical layer signaling indicates one or more groups of resources of configuration to the UE.
37. device for allocating resources according to claim 31, it is characterised in that in the first kind collocation method or described
In second class collocation method, the ID for UE configurations is:
RNTI;Or
UE identification information described in energy unique mark.
38. device for allocating resources according to claim 31, it is characterised in that in the second class collocation method, be
The resource distribution call number of UE configuration is process number, or HARQ process numbers.
39. device for allocating resources according to claim 36, it is characterised in that
The indicating member, it is additionally operable to carry an ID by DCI signalings, indicates activation to the UE or discharge the ID
The corresponding resource, or a resource distribution call number is carried by the DCI signalings, indicate to activate to the UE
Or the resource corresponding to the release resource distribution call number;
Wherein, indicate that resource described in one group corresponding to the activation ID or the resource distribution call number refers to:The UE exists
After receiving the DCI signalings, begin to use resource described in one group corresponding to the ID or the resource distribution call number,
The reception or transmission of signal are carried out in the resource;
Indicate that resource described in one group corresponding to the release ID or the resource distribution call number refers to:The UE is being received
After the DCI signalings, stop using the ID or the resource distribution call number corresponding to resource described in one group, stop at institute
State the reception or transmission that signal is carried out in resource.
40. a kind of device for obtaining resource distribution, it is characterised in that applied to user side, described device includes:
Acquiring unit, for by first kind collocation method and/or the second class collocation method, obtaining to one or more groups of resources
Configuration;Wherein,
The first kind collocation method includes:Acquiring unit obtains one or more ID of configuration, and matches somebody with somebody for each ID
The one group of resource put;
The second class collocation method includes:Acquiring unit obtains one or more resource distribution call numbers of configuration, Yi Jiwei
One group of resource of each corresponding configuration of the resource distribution call number.
41. the device according to claim 40 for obtaining resource distribution, it is characterised in that resource described in each group is half quiet
State configures or dynamic dispatching configuration.
42. the device according to claim 40 for obtaining resource distribution, it is characterised in that resource described in each group includes:
PSCCH resources and/or PSSCH resources, wherein, obtained by any one or more following mode in resource described in each group
The PSCCH resources and/or the PSSCH resources configuration:
By indicating that channel indexes number configure the PSCCH resources and/or the PSSCH resources;
By indicating that subframe and/or resource block RB configure the PSCCH resources and/or the PSSCH resources;
The PSCCH resources and/or the PSSCH resources are configured by implicit instruction.
43. the device according to claim 40 for obtaining resource distribution, it is characterised in that match somebody with somebody to resource described in each group
Put including following any one or more:
The MCS modes of carrying information in the resource;
Process number corresponding to the resource;
The power contorl parameters of signal are sent in the resource;
When the resource is to be semi-statically configured, the cycle of the resource is configured;
When the resource is to be semi-statically configured, the feedback control channel resource for discharging the resource is configured to indicate that.
44. the device according to claim 40 for obtaining resource distribution, it is characterised in that in the first kind collocation method
In, when the acquiring unit obtains multiple ID configurations, resource described in each corresponding one group of configurations of the ID;Described second
In class collocation method, when the acquiring unit obtains multiple resource distribution call number configurations, each resource distribution call number
Corresponding one group of resource, wherein,
Multiple sets of resources corresponding to the multiple ID or multiple resource distribution call numbers is independent.
45. the device according to claim 40 for obtaining resource distribution, it is characterised in that the acquiring unit, be additionally operable to
In the first kind collocation method or the second class collocation method, matched somebody with somebody by high-level signaling and/or physical layer signaling
The one or more groups of resources put.
46. the device according to claim 40 for obtaining resource distribution, it is characterised in that in the first kind collocation method
Or in the second class collocation method, the ID for the configuration that the acquiring unit obtains is:
RNTI;Or
UE identification information described in energy unique mark.
47. the device according to claim 40 for obtaining resource distribution, it is characterised in that in the second class collocation method
In, the resource distribution call number of the configuration that the acquiring unit obtains is process number, or HARQ process numbers.
48. the device according to claim 45 for obtaining resource distribution, it is characterised in that
The acquiring unit, it is additionally operable to receive DCI signalings, the DCI signalings carry an ID, instruction activation or release institute
The resource corresponding to ID is stated, or carries a resource distribution call number, instruction activates or discharged the resource distribution
The resource corresponding to call number;
Wherein, indicate that resource described in one group corresponding to the activation ID or the resource distribution call number refers to:The UE exists
After receiving the DCI signalings, begin to use resource described in one group corresponding to the ID or the resource distribution call number,
The reception or transmission of signal are carried out in the resource;
Indicate that resource described in one group corresponding to the release ID or the resource distribution call number refers to:The UE is being received
After the DCI signalings, stop using the ID or the resource distribution call number corresponding to resource described in one group, stop at institute
State the reception or transmission that signal is carried out in resource.
49. the method according to claim 40 for obtaining resource distribution, it is characterised in that described device also includes:
Feedback unit, for when the resource is to be semi-statically configured, resource release letter to be sent in feedback control channel resource
Breath, to discharge the resource, wherein, the feedback unit indicates the SPS resources of release in the feedback control channel resource
The corresponding ID or described resource distribution call numbers.
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