CN103095419B - Feedback configuration method based on Physical Uplink Shared Channel, apparatus and system - Google Patents
Feedback configuration method based on Physical Uplink Shared Channel, apparatus and system Download PDFInfo
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- CN103095419B CN103095419B CN201110334683.0A CN201110334683A CN103095419B CN 103095419 B CN103095419 B CN 103095419B CN 201110334683 A CN201110334683 A CN 201110334683A CN 103095419 B CN103095419 B CN 103095419B
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/0001—Systems modifying transmission characteristics according to link quality, e.g. power backoff
- H04L1/0023—Systems modifying transmission characteristics according to link quality, e.g. power backoff characterised by the signalling
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Abstract
The invention provides a kind of feedback configuration method based on Physical Uplink Shared Channel, apparatus and system, this method includes:Network side notifies receiving side to feed back the CSI of one or more nodes using the frequency-hopping mode based on Physical Resource Block and/or Physical Resource Block pair in the subframe of one or more Uplink Shared Channels by fixed form in high-level signaling or standard or physical layer signaling;Receive the CSI of one or more nodes;Detect the CSI of one or more nodes.This invention ensures that PUCCH capacity under existing standards, in turn ensures that CSI accuracy.
Description
Technical field
The present invention relates to the communications field, in particular to a kind of feedback configuration side based on Physical Uplink Shared Channel
Method, apparatus and system.
Background technology
Long Term Evolution (Long Term Evolution, abbreviation LTE) system after it experienced the several versions of R 8/9/10,
Prepare the research technologies of R 11 successively again.The current products of part R 8 progressively start commercialization, and R9 and R10 need further product programming.
R 8 and the stages of R 9 are being experienced, R 10 adds many new characteristics, for example, solved again on the basis of the above two
Adjust reference signal (Demodulation Reference Signal, referred to as DMRS), channel state information reference signals
Pilot tone characteristics such as (Channel State Information Reference Signal, referred to as CSI-RS), 8 antennas are supported
Deng transmission and feedback characteristics etc., Interference Cancellation strengthens (ehanced Inter-Cell Interference particularly between node
Cancellin, referred to as eICIC) technology is on the basis for considering R8/9ICIC, the further interference between consideration node
Avoid technology.Done for solving node of the technology of interference problem between node in the case where R 10 mainly considers homogenous networks initial stage in stage
Disturb and avoid, wherein the consideration eICIC technologies of main flow and multipoint cooperative (Coordinated Multi-point, referred to as CoMP)
Technology.CoMP as the term suggests exactly multiple nodes cooperate to one or more UE identical running time-frequency resource or it is different when
Frequency resource sends data.So technology can reduce the interference between node, improve the throughput of node edge, expand node
Covering.But it is due to discuss that the later stage considers heterogeneous network and introduces more scenes, complexity and the R10 discussion of CoMP technologies
Time restriction, it is final to determine not introducing extra CoMP standardized contents in the R10 stages, but can be examined in design CSI-RS
Consider the demand of CoMP parts to design, thus CoMP technologies after 60bis meetings with regard to not carrying out further discussion.
In R11 be discussed (Study Item, the referred to as SI) stage in initial research stage, mainly by planning scene and CoMP
Various transmission technologys determine unified assessment framework, assess to prove that CoMP technologies can be obtained by the CoMP in 2 stages
Obvious performance gain.It is to need the joint transmission (Joint in CoMP technologies being recently completed CoMP SI conclusions
Transmission, referred to as JT), dynamic node selection (Dynamic Point Selection, referred to as DPS) with/
Without muting, cooperative scheduling (Coordinated Scheduling, referred to as CS) with/without muting,
Cooperative beam excipient (Coordinated Beamforming, referred to as CB) is further studied.
Need what is considered first to be which CoMP technologies have for R8/9/10 technologies before the various technical research to CoMP
How a little differences, the control signaling including CoMP supports the notice of CoMP measuring assemblies, how to support CoMP difference transmission
The demand of technology, if UE measure and report multiple nodes channel condition information (Channel State Information,
Referred to as CSI) etc..How wherein UE measures and reports the CSI of multiple nodes to be the matter of utmost importance that CoMP technologies need to solve
One of.CoMP feedback is discussed at present can be largely classified into periodic feedback and aperiodicity feedback, aggregated channel feedback of the information
With non-polymeric feedback of channel information.So-called aggregated channel feedback of the information refers to the channel information of multiple nodes to aggregate into one
The channel information of node carries out global feedback.As measuring assembly includes two nodes, the channel information H 1 of node 1, node 2
Channel information H 2, it is channel information H=[H 1 one big that at this moment UE, which first polymerize two node channels,;H 2], then carrying out
Measurement correlation computations are simultaneously fed back.Non-polymeric feedback of channel information can be divided into separate single node feeding back and separate single node feeding back again
Control information between supernumerary segment point.So-called separate single node feeding back refers to independently measure correlation according to the channel information of each node
Calculate and feed back.Control information refers to independently enter according to the channel information of each node between so-called separate single node feeding back supernumerary segment point
Row measurement correlation computations, and calculate phase and/or amplitude information between each node and fed back.
CSI for traditional users of R 8/R 9/R 10 due to only needing to back services node, so identical
Need to consider single node capacity for periodic feedback and non-periodic feedback on carrier wave, especially for physical uplink control
Channel (Physical Uplink Control Channel, referred to as PUCCH) only needs to optimize the feedback of single node
.It is presently contemplated that coding, mixed self-adapting request retransmission (Hybrid Adaptive Request
Retransmission, referred to as HARQ) bit number etc., support 11 for a UE is maximum in a PUCCH sub-frame of uplink
The CSI feedback of bit.The composition of 11 bits is maximum it is contemplated that pre-coding matrix instruction (the Precoding Matrix of 4 bits
Indicator, referred to as PMI) and two code words 7 bits channel quality indicate (Channel Quality
Indicator, referred to as CQI) (differential feedback for considering CQI between different code words).CoMP is due to that will consider for multiple nodes
CSI feedback, it is desirable to the PUCCH capacities of N*11 bits, but current PUCCH capacity be can not meet this requirement
, so needing a set of rational feedback scheme to solve the problem of PUCCH capacity is not enough.
In order to solve that compressed feedback signaling, still, precision of the CoMP for CSI are generally used in the problem, correlation technique
There are higher requirement, particularly JT even JT-MU all to propose high requirement to CSI accuracy, so the property that compression is caused
The loss of energy may result in the decline of CoMP performance gains.
The content of the invention
The problem of accuracy for CSI can not be ensured in correlation technique while guaranteed capacity, the invention provides
A kind of feedback configuration method based on Physical Uplink Shared Channel, apparatus and system.
According to an aspect of the present invention there is provided a kind of business loading method, including:Network side by high-level signaling or
Fixed form or physical layer signaling notify receiving side to utilize base in the subframe of one or more Uplink Shared Channels in standard
The CSI of one or more nodes is fed back in the frequency-hopping mode of Physical Resource Block and/or the frequency-hopping mode of Physical Resource Block pair;Receive
The CSI of one or more nodes;Detect the CSI of one or more nodes.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side passes through in high-level signaling or standard
The lasting number of subframes N (N >=1) that fixed form is allocated to a set of PUSCH triggerings feedback of receiving side is used to refer to receiving side one
Continuous N number of subframe is used for feeding back the CSI of one or more node after secondary triggering.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and feeds back one in n+k (k >=4) subframe and later in continuous N-1 subframe
Or the CSI of multiple nodes.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side and feed back one in n+k (k >=4) subframe and later in continuous N-1 subframe
Or the CSI of multiple nodes, wherein 1 bit is used to refer to whether trigger PUSCH CSI feedback in 2 bits, 1 bit is used to refer to
Show whether frequency hopping.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
It is in n+k (k >=4) subframe and later anti-in continuous N-1 subframe that M (M >=3) bit signalling in signaling processed triggers receiving side
The CSI feedback that 1 bit in the CSI of one or more node, wherein M (M >=3) bit is used to refer to whether trigger PUSCH is presented,
M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side passes through in high-level signaling or standard
Fixed form is allocated to lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i of a set of PUSCH triggerings feedback of receiving side
>=1,1≤i≤n) being used to refer to receiving side, continuously Ni subframe is used for feeding back one or more node after once triggering
CSI。
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and feeds back one in n+k (k >=4) subframe and later in continuous Ni-1 subframe
The CSI of individual or multiple nodes, X (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side and feed back one in n+k (k >=4) subframe and later in continuous Ni-1 subframe
The CSI of individual or multiple nodes, wherein 1 bit is used to refer to whether trigger PUSCH CSI feedback in 2 bits, 1 bit is used for
Indicate whether frequency hopping, X (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
M (M >=3) bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and in later continuous Ni-1 subframe
Feed back 1 bit in the CSI of one or more node, wherein M (M >=3) bit be used to refer to whether trigger PUSCH CSI it is anti-
Feedback, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used, and X (X >=1) bit is used to refer to height
The Ni configured in layer configuration.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side passes through in high-level signaling or standard
Fixed form is allocated to the lasting number of subframes N (N >=1) of a set of PUSCH triggerings feedback of receiving side and the number of sub frames X of feedback interval
(X >=1) is used to refer to subframe of the receiving side at interval of X after once triggering and feeds back a CSI, is used for altogether in N number of subframe anti-
Present the CSI of one or more node.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
The CSI of one or more node is fed back in N number of subframe altogether.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
The CSI of one or more node is fed back in N number of subframe altogether, wherein 1 bit is used to refer to whether trigger PUSCH in 2 bits
CSI feedback, 1 bit be used to refer to whether frequency hopping.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
M (M >=3) bit signalling in signaling processed triggers receiving side and fed back once in n+k (k >=4) subframe and at interval of X subframe
CSI, fed back altogether in N number of subframe 1 bit in the CSI of one or more node, wherein M (M >=3) bit be used to refer to whether
PUSCH CSI feedback is triggered, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side passes through in high-level signaling or standard
Fixed form is allocated to lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i of a set of PUSCH triggerings feedback of receiving side
>=1,1≤i≤n) and feedback interval number of sub frames X (X >=1) be used to refer to receiving side once trigger after at interval of X subframe
A CSI is fed back, is used for feeding back the CSI of one or more node in Ni subframe altogether.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
The CSI of one or more node is fed back in Ni subframe altogether, X (X >=1) bit is used to refer to what is configured in high-rise configuration
Ni。
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
The CSI of one or more node is fed back in Ni subframe altogether, wherein 1 bit is used to refer to whether trigger PUSCH in 2 bits
CSI feedback, 1 bit be used to refer to whether frequency hopping, X (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
M (M >=3) bit signalling in signaling processed triggers receiving side and fed back once in n+k (k >=4) subframe and at interval of X subframe
CSI, feeding back 1 bit in the CSI of one or more node, wherein M (M >=3) bit in Ni subframe altogether and being used to refer to is
No triggering PUSCH CSI feedback, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used, X (X
>=1) bit be used to refer to the Ni configured in high-rise configuration.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side passes through in high-level signaling or standard
Fixed form is allocated to the lasting number of subframes N (N >=1) of a set of PUSCH triggerings feedback of receiving side and the number of sub frames of feedback interval
It is anti-that list { X1, X2 ... Xn } (Xi >=1, n >=1,1≤i≤n) is used to refer to subframe of the receiving side at interval of X after once triggering
A CSI is presented, is used for feeding back the CSI of one or more node in N number of subframe altogether.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, feeds back the CSI of one or more node altogether in N number of subframe, Y (Y >=1) bit is used to refer to configure in high-rise configuration
Xi.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, feeds back the CSI of one or more node altogether in N number of subframe, wherein whether 1 bit is used to refer to trigger in 2 bits
PUSCH CSI feedback, 1 bit be used to refer to whether frequency hopping, Y (Y >=1) bit is used to refer to the Xi configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
M (M >=3) bit signalling in signaling processed triggers receiving side and fed back once in n+k (k >=4) subframe and at interval of Xi subframe
CSI, fed back altogether in N number of subframe 1 bit in the CSI of one or more node, wherein M (M >=3) bit be used to refer to whether
PUSCH CSI feedback is triggered, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used, Y (Y >=
1) bit is used to refer to the Xi configured in high-rise configuration.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side passes through in high-level signaling or standard
Fixed form is allocated to lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i of a set of PUSCH triggerings feedback of receiving side
>=1,1≤i≤n) and the number of sub frames list { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) of feedback interval be used to refer to connect
Receive subframe of the side at interval of X after once triggering and feed back a CSI, be used for feeding back one or more section in N number of subframe altogether
The CSI of point.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, feeds back the CSI of one or more node altogether in N number of subframe, Y (Y >=1) bit is used to refer to configure in high-rise configuration
Xi, S (S >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, feeds back the CSI of one or more node altogether in N number of subframe, wherein whether 1 bit is used to refer to trigger in 2 bits
PUSCH CSI feedback, 1 bit be used to refer to whether frequency hopping, Y (Y >=1) bit is used to refer to the Xi, S configured in high-rise configuration
(S >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
M (M >=3) bit signalling in signaling processed triggers receiving side and fed back once in n+k (k >=4) subframe and at interval of Xi subframe
CSI, fed back altogether in N number of subframe 1 bit in the CSI of one or more node, wherein M (M >=3) bit be used to refer to whether
PUSCH CSI feedback is triggered, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used, Y (Y >=
1) bit is used to refer to the Xi configured in high-rise configuration, and S (S >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side is triggered by physical layer signaling and received
Side carried out in PUSCH feedbacks, and some continuous subframes that once triggering will be afterwards feedback one based on PUSCH or
The CSI of the multiple nodes of person, feeds back until network side discharges PUSCH by physical layer signaling instruction receiving side.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and later continuous subframe feeds back CSI, until
Release PUSCH feedback signalings are detected in Physical Downlink Control Channel.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and later continuous subframe feeds back CSI, until
Detected in Physical Downlink Control Channel release PUSCH feedback signalings, 1 bit be used to refer to whether frequency hopping.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and later continuous subframe feeds back CSI, until
Detected in Physical Downlink Control Channel release PUSCH feedback signalings, M (M >=3) bit be used to refer to whether frequency hopping and/or jump
Candidate's frequency pattern that frequency is used.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side is triggered by physical layer signaling and received
Side carried out in PUSCH feedbacks, and some continuous subframes that once triggering will be afterwards feedback one based on PUSCH or
The CSI of the multiple nodes of person, feeds back, network side needs logical until network side discharges PUSCH by physical layer signaling instruction receiving side
Crossing fixed form in high-level signaling or standard notifies the number of sub frames X (X >=1) of receiving side feedback interval to be used to refer to receiving side and exist
Subframe after once triggering at interval of X feeds back a CSI.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
Until detecting release PUSCH feedback signalings in Physical Downlink Control Channel.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
Until detected in Physical Downlink Control Channel release PUSCH feedback signalings, 1 bit be used to refer to whether frequency hopping.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
Until detected in Physical Downlink Control Channel release PUSCH feedback signalings, M (M >=3) bit be used to refer to whether frequency hopping
And/or candidate's frequency pattern that frequency hopping is used.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side is triggered by physical layer signaling and received
Side carried out in PUSCH feedbacks, and some continuous subframes that once triggering will be afterwards feedback one based on PUSCH or
The CSI of the multiple nodes of person, feeds back, network side needs logical until network side discharges PUSCH by physical layer signaling instruction receiving side
Cross fixed form in high-level signaling or standard notify receiving side feedback interval number of sub frames list { X1, X2 ... Xm } (Xe >=1,
M >=1,1≤e≤m) it is used to refer to a subframe feedback CSI of the receiving side at interval of Xe after once triggering.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, until detecting release PUSCH feedback signalings in Physical Downlink Control Channel, Y (Y >=1) bit is used to refer to Xi.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, until detected in Physical Downlink Control Channel release PUSCH feedback signalings, 1 bit be used to refer to whether frequency hopping, Y (Y
>=1) bit be used to refer to Xi.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, until detecting release PUSCH feedback signalings in Physical Downlink Control Channel, whether M (M >=3) bit is used to refer to jump
Candidate's frequency pattern that frequency and/or frequency hopping are used, Y (Y >=1) bit is used to refer to Xi.
According to an aspect of the present invention, a kind of business loading method is additionally provided, including:Receiving side is by receiving network side
Fixed form or physical layer signaling are informed in one or more Uplink Shared Channels in the high-level signaling or standard of transmission
In subframe one or more sections are fed back using frequency-hopping mode and/or the frequency-hopping mode of Physical Resource Block pair based on Physical Resource Block
The CSI of point;Frequency-hopping mode and/or physics based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The frequency-hopping mode of resource block pair feeds back the CSI of one or more of nodes.
Preferably, receiving side is by receiving fixed form or physical layer in the high-level signaling or standard that network side is sent
Signaling, which is informed in the subframe of one or more Uplink Shared Channels, utilizes frequency-hopping mode and/or physics based on Physical Resource Block
The CSI that the frequency-hopping mode of resource block pair feeds back one or more nodes includes:Receiving side is by receiving the high level that network side is sent
Fixed form configuration knows that the lasting number of subframes N (N >=1) of a set of PUSCH triggerings feedback is used for one in signaling or standard
Continuous N number of subframe is used for feeding back the CSI of one or more node after secondary triggering.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
Up and/or descending control signaling in 1 bit signalling trigger receiving side in n+k (k >=4) subframe and later continuous N-
The CSI of one or more node is fed back in 1 subframe.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
Up and/or descending control signaling in 2 bit signallings trigger receiving side in n+k (k >=4) subframe and later continuous N-
The CSI of one or more node is fed back in 1 subframe, wherein 1 bit is used to refer to whether trigger PUSCH CSI in 2 bits
Feedback, 1 bit be used to refer to whether frequency hopping.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
Up and/or descending control signaling in M (M >=3) bit signalling trigger receiving side and connect in n+k (k >=4) subframe and later
Feed back 1 bit in the CSI of one or more node, wherein M (M >=3) bit is used to refer to whether touch in N-1 continuous subframe
PUSCH CSI feedback is sent out, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.
Preferably, receiving side is by receiving fixed form or physical layer in the high-level signaling or standard that network side is sent
Signaling, which is informed in the subframe of one or more Uplink Shared Channels, utilizes frequency-hopping mode and/or physics based on Physical Resource Block
The CSI that the frequency-hopping mode of resource block pair feeds back one or more nodes includes:Receiving side receives the high-level signaling that network side is sent
Or lasting number of subframes list { N1, N2 ..., Nn } (Ni of a set of PUSCH triggerings feedback is known in fixed form configuration in standard
>=1, i >=1,1≤i≤n) it is used for the CSI that the continuous Ni subframe after once triggering is used for feeding back one or more node.
Preferably, receiving side is received in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later continuous Ni-1
The CSI of one or more node is fed back in individual subframe, X (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, receiving side is received in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
2 bit signallings in up and/or descending control signaling trigger receiving side in n+k (k >=4) subframe and later continuous Ni-1
The CSI of one or more node is fed back in individual subframe, wherein 1 bit is used to refer to whether trigger PUSCH CSI in 2 bits
Feedback, 1 bit be used to refer to whether frequency hopping, X (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, receiving side is received in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
It is in n+k (k >=4) subframe and later continuous that M (M >=3) bit signalling in up and/or descending control signaling triggers receiving side
Ni-1 subframe on feed back 1 bit in the CSI of one or more node, wherein M (M >=3) bit is used to refer to whether touch
PUSCH CSI feedback is sent out, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used, X (X >=1)
Bit is used to refer to the Ni configured in high-rise configuration.
Preferably, receiving side is by receiving fixed form or physical layer in the high-level signaling or standard that network side is sent
Signaling, which is informed in the subframe of one or more Uplink Shared Channels, utilizes frequency-hopping mode and/or physics based on Physical Resource Block
The CSI that the frequency-hopping mode of resource block pair feeds back one or more nodes includes:Receiving side receives the high-level signaling that network side is sent
Or lasting number of subframes N (N >=1) and the feedback interval of a set of PUSCH triggering feedback are known in fixed form configuration in standard
The subframe that number of sub frames X (X >=1) is used at interval of X after once triggering feeds back a CSI, is used for feeding back one in N number of subframe altogether
The CSI of individual or multiple nodes.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later at interval of X's
Subframe feeds back a CSI, feeds back the CSI of one or more node in N number of subframe altogether.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
2 bit signallings in up and/or descending control signaling trigger receiving side in n+k (k >=4) subframe and later at interval of X's
Subframe feeds back a CSI, the CSI of one or more node is fed back in N number of subframe altogether, wherein 1 bit is used to refer in 2 bits
Show the CSI feedback for whether triggering PUSCH, 1 bit be used to refer to whether frequency hopping.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
M (M >=3) bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and at interval of X
Subframe feed back a CSI, 1 ratio is fed back in the CSI of one or more node, wherein M (M >=3) bit in N number of subframe altogether
Spy is used to refer to whether trigger PUSCH CSI feedback, M-1 bits be used to refer to whether the candidate that frequency hopping and/or frequency hopping are used
Frequency pattern.
Preferably, receiving side is by receiving fixed form or physical layer in the high-level signaling or standard that network side is sent
Signaling, which is informed in the subframe of one or more Uplink Shared Channels, utilizes frequency-hopping mode and/or physics based on Physical Resource Block
The CSI that the frequency-hopping mode of resource block pair feeds back one or more nodes includes:Receiving side receives the high-level signaling that network side is sent
Or lasting number of subframes list { N1, N2 ..., Nn } (Ni of a set of PUSCH triggerings feedback is known in fixed form configuration in standard
>=1, i >=1,1≤i≤n) and feedback interval number of sub frames X (X >=1) be used for once trigger after at interval of X subframe feed back one
Secondary CSI, is used for feeding back the CSI of one or more node in Ni subframe altogether.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later at interval of X's
Subframe feeds back a CSI, feeds back the CSI of one or more node in Ni subframe altogether, X (X >=1) bit is used to refer to height
The Ni configured in layer configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
2 bit signallings in up and/or descending control signaling trigger receiving side in n+k (k >=4) subframe and later at interval of X's
Subframe feeds back a CSI, the CSI of one or more node is fed back in Ni subframe altogether, wherein 1 bit is used in 2 bits
Indicate whether to trigger PUSCH CSI feedback, 1 bit be used to refer to whether frequency hopping, X (X >=1) bit is used to refer to high-rise configuration
The Ni of middle configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
M (M >=3) bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and at interval of X
Subframe feed back a CSI, fed back altogether in Ni subframe 1 in the CSI of one or more node, wherein M (M >=3) bit
Bit is used to refer to whether trigger PUSCH CSI feedback, M-1 bits be used to refer to whether the time that frequency hopping and/or frequency hopping are used
Frequency pattern is selected, X (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, receiving side is by receiving fixed form or physical layer in the high-level signaling or standard that network side is sent
Signaling, which is informed in the subframe of one or more Uplink Shared Channels, utilizes frequency-hopping mode and/or physics based on Physical Resource Block
The CSI that the frequency-hopping mode of resource block pair feeds back one or more nodes includes:Receiving side receives the high-level signaling that network side is sent
Or lasting number of subframes N (N >=1) and the feedback interval of a set of PUSCH triggering feedback are known in fixed form configuration in standard
The subframe that number of sub frames list { X1, X2 ... Xn } (Xi >=1, n >=1,1≤i≤n) is used at interval of X after once triggering feeds back one
Secondary CSI, is used for feeding back the CSI of one or more node in N number of subframe altogether.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later at interval of Xi's
Subframe feeds back a CSI, feeds back the CSI of one or more node in N number of subframe altogether, Y (Y >=1) bit is used to refer to height
The Xi configured in layer configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
2 bit signallings in up and/or descending control signaling trigger receiving side in n+k (k >=4) subframe and later at interval of Xi's
Subframe feeds back a CSI, the CSI of one or more node is fed back in N number of subframe altogether, wherein 1 bit is used to refer in 2 bits
Show the CSI feedback for whether triggering PUSCH, 1 bit be used to refer to whether frequency hopping, Y (Y >=1) bit is used to refer in high-rise configuration
The Xi of configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
M (M >=3) bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and at interval of Xi
Subframe feed back a CSI, 1 ratio is fed back in the CSI of one or more node, wherein M (M >=3) bit in N number of subframe altogether
Spy is used to refer to whether trigger PUSCH CSI feedback, M-1 bits be used to refer to whether the candidate that frequency hopping and/or frequency hopping are used
Frequency pattern, Y (Y >=1) bit is used to refer to the Xi configured in high-rise configuration.
Preferably, receiving side is by receiving fixed form or physical layer in the high-level signaling or standard that network side is sent
Signaling, which is informed in the subframe of one or more Uplink Shared Channels, utilizes frequency-hopping mode and/or physics based on Physical Resource Block
The CSI that the frequency-hopping mode of resource block pair feeds back one or more nodes includes:Receiving side receives the high-level signaling that network side is sent
Or lasting number of subframes list { N1, N2 ..., Nn } (Ni of a set of PUSCH triggerings feedback is known in fixed form configuration in standard
>=1, i >=1,1≤i≤n) and feedback interval number of sub frames list { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) be used for
Subframe after once triggering at interval of X feeds back a CSI, is used for feeding back one or more node in N number of subframe altogether
CSI。
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later at interval of Xi's
Subframe feeds back a CSI, feeds back the CSI of one or more node in N number of subframe altogether, Y (Y >=1) bit is used to refer to height
The Xi configured in layer configuration, S (S >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
2 bit signallings in up and/or descending control signaling trigger receiving side in n+k (k >=4) subframe and later at interval of Xi's
Subframe feeds back a CSI, the CSI of one or more node is fed back in N number of subframe altogether, wherein 1 bit is used to refer in 2 bits
Show the CSI feedback for whether triggering PUSCH, 1 bit be used to refer to whether frequency hopping, Y (Y >=1) bit is used to refer in high-rise configuration
The Xi of configuration, S (S >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
M (M >=3) bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and at interval of Xi
Subframe feed back a CSI, 1 ratio is fed back in the CSI of one or more node, wherein M (M >=3) bit in N number of subframe altogether
Spy is used to refer to whether trigger PUSCH CSI feedback, M-1 bits be used to refer to whether the candidate that frequency hopping and/or frequency hopping are used
Frequency pattern.Y (Y >=1) bit is used to refer to the Xi configured in high-rise configuration, and S (S >=1) bit is used to refer in high-rise configuration
The Ni of configuration.
Preferably, receiving side is by receiving fixed form or physical layer in the high-level signaling or standard that network side is sent
Signaling, which is informed in the subframe of one or more Uplink Shared Channels, utilizes frequency-hopping mode and/or physics based on Physical Resource Block
The CSI that the frequency-hopping mode of resource block pair feeds back one or more nodes includes:Receiving side receives the physical layer letter that network side is sent
Order triggering carries out carrying out the feedback one based on PUSCH in PUSCH feedbacks, and some continuous subframes that once triggering will be afterwards
The CSI of individual or multiple nodes, until the physical layer signaling that receiving side receives network side transmission indicates receiving side release PUSCH
Feedback.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later continuous subframe
CSI is fed back, until detecting release PUSCH feedback signalings in Physical Downlink Control Channel.
According to another aspect of the present invention there is provided a kind of business eedle threader, including:Notification module, for passing through height
Fixed form or physical layer signaling notify receiving side in the son of one or more Uplink Shared Channels in layer signaling or standard
On frame one or more nodes are fed back using frequency-hopping mode and/or the frequency-hopping mode of Physical Resource Block pair based on Physical Resource Block
Channel condition information CSI;Receiving module, the CSI for receiving one or more nodes;Detection module, for detecting one
Or the CSI of multiple nodes.
According to another aspect of the present invention, a kind of business eedle threader is additionally provided, including:Module is known, for passing through
Fixed form or physical layer signaling are informed in one or more up in high-level signaling or standard that reception network side is sent
The frequency-hopping mode feedback one of the frequency-hopping mode based on Physical Resource Block and/or Physical Resource Block pair is utilized in the subframe of shared channel
The CSI of individual or multiple nodes;Feedback module, for being utilized in the subframe of one or more Uplink Shared Channels based on physics money
The frequency-hopping mode of source block and/or the frequency-hopping mode of Physical Resource Block pair feed back the CSI of one or more of nodes.
Reached the standard grade system there is provided a kind of business according to another aspect of the invention, including:Network side and receiving side, wherein,
Network side includes:Notification module, for notifying to receive by fixed form in high-level signaling or standard or physical layer signaling
Side utilizes frequency-hopping mode and/or Physical Resource Block based on Physical Resource Block in the subframe of one or more Uplink Shared Channels
To frequency-hopping mode feed back the channel condition information CSI of one or more nodes;Receiving module, for receiving one or more sections
The CSI of point;Detection module, the CSI for detecting one or more nodes.Receiving side includes:Module is known, for by receiving
Fixed form or physical layer signaling are informed in one or more up shared in high-level signaling or standard that network side is sent
In the subframe of channel using based on Physical Resource Block frequency-hopping mode and/or Physical Resource Block pair frequency-hopping mode feed back one or
The CSI of multiple nodes;Feedback module, Physical Resource Block is based on for being utilized in the subframe of one or more Uplink Shared Channels
Frequency-hopping mode and/or the frequency-hopping mode of Physical Resource Block pair feed back the CSI of one or more of nodes.
By the present invention, network side notifies to receive by fixed form in high-level signaling or standard or physical layer signaling
Side utilizes frequency-hopping mode and/or Physical Resource Block based on Physical Resource Block in the subframe of one or more Uplink Shared Channels
To frequency-hopping mode feed back the CSI of multiple nodes so that network side can be properly received and detect corresponding node
CSI, solving can not be while guaranteed capacity, it is ensured that the problem of CSI accuracy, both ensure that under existing standards
PUCCH capacity, in turn ensures that CSI accuracy.
Brief description of the drawings
Accompanying drawing described herein is used for providing a further understanding of the present invention, constitutes the part of the application, this hair
Bright schematic description and description is used to explain the present invention, does not constitute inappropriate limitation of the present invention.In the accompanying drawings:
Fig. 1 is the flow chart one of the feedback configuration method according to embodiments of the present invention based on Physical Uplink Shared Channel;
Fig. 2 is the flowchart 2 of the feedback configuration method according to embodiments of the present invention based on Physical Uplink Shared Channel;
Fig. 3 is the structured flowchart one of business eedle threader according to embodiments of the present invention;
Fig. 4 is the structured flowchart two of business eedle threader according to embodiments of the present invention;
Fig. 5 is that business according to embodiments of the present invention is reached the standard grade the structured flowchart of system.
Embodiment
It should be noted that in the case where not conflicting, the feature in embodiment and embodiment in the application can phase
Mutually combination.Describe the present invention in detail below with reference to the accompanying drawings and in conjunction with the embodiments.
It is a primary object of the present invention to provide a kind of feedback configuration method based on Physical Uplink Shared Channel, device and
System.The characteristics of alloing network side flexibly larger using PUSCH capacity is by configuring UE feedback signalings so as to correct
Receive and detect the CSI of corresponding node.In this embodiment, network side passes through fixation side in high-level signaling or standard
Formula or physical layer signaling notify receiving side is utilized in the subframe of one or more Uplink Shared Channels to be based on Physical Resource Block
Frequency-hopping mode and/or the frequency-hopping mode of Physical Resource Block pair feed back the CSI of multiple nodes so that network side can be correct
Receive and detect the CSI of corresponding node.
In order to achieve the above object, the invention provides a kind of feedback configuration method based on Physical Uplink Shared Channel.
Fig. 1 is the flow chart one of the feedback configuration method according to embodiments of the present invention based on Physical Uplink Shared Channel, including as follows
Step S102 to step S106.
Step S102, network side notifies receiving side by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
Frequency-hopping mode feed back the channel condition information CSI of one or more nodes.
Step S104, receives the CSI of one or more nodes.
Step S106, detects the CSI of one or more nodes.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side passes through in high-level signaling or standard
The lasting number of subframes N (N >=1) that fixed form is allocated to a set of PUSCH triggerings feedback of receiving side is used to refer to receiving side one
Continuous N number of subframe is used for feeding back the CSI of one or more node after secondary triggering.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and feeds back one in n+k (k >=4) subframe and later in continuous N-1 subframe
Or the CSI of multiple nodes.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side and feed back one in n+k (k >=4) subframe and later in continuous N-1 subframe
Or the CSI of multiple nodes, wherein 1 bit is used to refer to whether trigger PUSCH CSI feedback in 2 bits, 1 bit is used to refer to
Show whether frequency hopping.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
It is in n+k (k >=4) subframe and later anti-in continuous N-1 subframe that M (M >=3) bit signalling in signaling processed triggers receiving side
The CSI feedback that 1 bit in the CSI of one or more node, wherein M (M >=3) bit is used to refer to whether trigger PUSCH is presented,
M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side passes through in high-level signaling or standard
Fixed form is allocated to lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i of a set of PUSCH triggerings feedback of receiving side
>=1,1≤i≤n) being used to refer to receiving side, continuously Ni subframe is used for feeding back one or more node after once triggering
CSI。
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and feeds back one in n+k (k >=4) subframe and later in continuous Ni-1 subframe
The CSI of individual or multiple nodes, X (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side and feed back one in n+k (k >=4) subframe and later in continuous Ni-1 subframe
The CSI of individual or multiple nodes, wherein 1 bit is used to refer to whether trigger PUSCH CSI feedback in 2 bits, 1 bit is used for
Indicate whether frequency hopping, X (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
M (M >=3) bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and in later continuous Ni-1 subframe
Feed back 1 bit in the CSI of one or more node, wherein M (M >=3) bit be used to refer to whether trigger PUSCH CSI it is anti-
Feedback, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used, and X (X >=1) bit is used to refer to height
The Ni configured in layer configuration.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side passes through in high-level signaling or standard
Fixed form is allocated to the lasting number of subframes N (N >=1) of a set of PUSCH triggerings feedback of receiving side and the number of sub frames X of feedback interval
(X >=1) is used to refer to subframe of the receiving side at interval of X after once triggering and feeds back a CSI, is used for altogether in N number of subframe anti-
Present the CSI of one or more node.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
The CSI of one or more node is fed back in N number of subframe altogether.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
The CSI of one or more node is fed back in N number of subframe altogether, wherein 1 bit is used to refer to whether trigger PUSCH in 2 bits
CSI feedback, 1 bit be used to refer to whether frequency hopping.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
M (M >=3) bit signalling in signaling processed triggers receiving side and fed back once in n+k (k >=4) subframe and at interval of X subframe
CSI, fed back altogether in N number of subframe 1 bit in the CSI of one or more node, wherein M (M >=3) bit be used to refer to whether
PUSCH CSI feedback is triggered, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side passes through in high-level signaling or standard
Fixed form is allocated to lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i of a set of PUSCH triggerings feedback of receiving side
>=1,1≤i≤n) and feedback interval number of sub frames X (X >=1) be used to refer to receiving side once trigger after at interval of X subframe
A CSI is fed back, is used for feeding back the CSI of one or more node in Ni subframe altogether.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
The CSI of one or more node is fed back in Ni subframe altogether, X (X >=1) bit is used to refer to what is configured in high-rise configuration
Ni。
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
The CSI of one or more node is fed back in Ni subframe altogether, wherein 1 bit is used to refer to whether trigger PUSCH in 2 bits
CSI feedback, 1 bit be used to refer to whether frequency hopping, X (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
M (M >=3) bit signalling in signaling processed triggers receiving side and fed back once in n+k (k >=4) subframe and at interval of X subframe
CSI, feeding back 1 bit in the CSI of one or more node, wherein M (M >=3) bit in Ni subframe altogether and being used to refer to is
No triggering PUSCH CSI feedback, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used, X (X
>=1) bit be used to refer to the Ni configured in high-rise configuration.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side passes through in high-level signaling or standard
Fixed form is allocated to the lasting number of subframes N (N >=1) of a set of PUSCH triggerings feedback of receiving side and the number of sub frames of feedback interval
It is anti-that list { X1, X2 ... Xn } (Xi >=1, n >=1,1≤i≤n) is used to refer to subframe of the receiving side at interval of X after once triggering
A CSI is presented, is used for feeding back the CSI of one or more node in N number of subframe altogether.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, feeds back the CSI of one or more node altogether in N number of subframe, Y (Y >=1) bit is used to refer to configure in high-rise configuration
Xi.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, feeds back the CSI of one or more node altogether in N number of subframe, wherein whether 1 bit is used to refer to trigger in 2 bits
PUSCH CSI feedback, 1 bit be used to refer to whether frequency hopping, Y (Y >=1) bit is used to refer to the Xi configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
M (M >=3) bit signalling in signaling processed triggers receiving side and fed back once in n+k (k >=4) subframe and at interval of Xi subframe
CSI, fed back altogether in N number of subframe 1 bit in the CSI of one or more node, wherein M (M >=3) bit be used to refer to whether
PUSCH CSI feedback is triggered, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used, Y (Y >=
1) bit is used to refer to the Xi configured in high-rise configuration.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side passes through in high-level signaling or standard
Fixed form is allocated to lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i of a set of PUSCH triggerings feedback of receiving side
>=1,1≤i≤n) and the number of sub frames list { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) of feedback interval be used to refer to connect
Receive subframe of the side at interval of X after once triggering and feed back a CSI, be used for feeding back one or more section in N number of subframe altogether
The CSI of point.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, feeds back the CSI of one or more node altogether in N number of subframe, Y (Y >=1) bit is used to refer to configure in high-rise configuration
Xi, S (S >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, feeds back the CSI of one or more node altogether in N number of subframe, wherein whether 1 bit is used to refer to trigger in 2 bits
PUSCH CSI feedback, 1 bit be used to refer to whether frequency hopping, Y (Y >=1) bit is used to refer to the Xi, S configured in high-rise configuration
(S >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
M (M >=3) bit signalling in signaling processed triggers receiving side and fed back once in n+k (k >=4) subframe and at interval of Xi subframe
CSI, fed back altogether in N number of subframe 1 bit in the CSI of one or more node, wherein M (M >=3) bit be used to refer to whether
PUSCH CSI feedback is triggered, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used, Y (Y >=
1) bit is used to refer to the Xi configured in high-rise configuration, and S (S >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side is triggered by physical layer signaling and received
Side carried out in PUSCH feedbacks, and some continuous subframes that once triggering will be afterwards feedback one based on PUSCH or
The CSI of the multiple nodes of person, feeds back until network side discharges PUSCH by physical layer signaling instruction receiving side.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and later continuous subframe feeds back CSI, until
Release PUSCH feedback signalings are detected in Physical Downlink Control Channel.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and later continuous subframe feeds back CSI, until
Detected in Physical Downlink Control Channel release PUSCH feedback signalings, 1 bit be used to refer to whether frequency hopping.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and later continuous subframe feeds back CSI, until
Detected in Physical Downlink Control Channel release PUSCH feedback signalings, M (M >=3) bit be used to refer to whether frequency hopping and/or jump
Candidate's frequency pattern that frequency is used.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side is triggered by physical layer signaling and received
Side carried out in PUSCH feedbacks, and some continuous subframes that once triggering will be afterwards feedback one based on PUSCH or
The CSI of the multiple nodes of person, feeds back, network side needs logical until network side discharges PUSCH by physical layer signaling instruction receiving side
Crossing fixed form in high-level signaling or standard notifies the number of sub frames X (X >=1) of receiving side feedback interval to be used to refer to receiving side and exist
Subframe after once triggering at interval of X feeds back a CSI.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
Until detecting release PUSCH feedback signalings in Physical Downlink Control Channel.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
Until detected in Physical Downlink Control Channel release PUSCH feedback signalings, 1 bit be used to refer to whether frequency hopping.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
Until detected in Physical Downlink Control Channel release PUSCH feedback signalings, M (M >=3) bit be used to refer to whether frequency hopping
And/or candidate's frequency pattern that frequency hopping is used.
Preferably, network side notifies receiving side to exist by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
The channel condition information CSI that frequency-hopping mode feeds back one or more nodes includes:Network side is triggered by physical layer signaling and received
Side carried out in PUSCH feedbacks, and some continuous subframes that once triggering will be afterwards feedback one based on PUSCH or
The CSI of the multiple nodes of person, feeds back, network side needs logical until network side discharges PUSCH by physical layer signaling instruction receiving side
Cross fixed form in high-level signaling or standard notify receiving side feedback interval number of sub frames list { X1, X2 ... Xm } (Xe >=1,
M >=1,1≤e≤m) it is used to refer to a subframe feedback CSI of the receiving side at interval of Xe after once triggering.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, until detecting release PUSCH feedback signalings in Physical Downlink Control Channel, Y (Y >=1) bit is used to refer to Xi.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, until detected in Physical Downlink Control Channel release PUSCH feedback signalings, 1 bit be used to refer to whether frequency hopping, Y (Y
>=1) bit be used to refer to Xi.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, until detecting release PUSCH feedback signalings in Physical Downlink Control Channel, whether M (M >=3) bit is used to refer to jump
Candidate's frequency pattern that frequency and/or frequency hopping are used, Y (Y >=1) bit is used to refer to Xi.
Fig. 2 is the flowchart 2 of the feedback configuration method according to embodiments of the present invention based on Physical Uplink Shared Channel,
Including steps S202 to step S204.
Step S202, receiving side is by receiving fixed form or physics in the high-level signaling or standard that network side is sent
Layer signaling, which is informed in the subframe of one or more Uplink Shared Channels, utilizes frequency-hopping mode and/or thing based on Physical Resource Block
The frequency-hopping mode for managing resource block pair feeds back the CSI of one or more nodes.
Step S204, in one or more node feeding back CSI.
In correlation technique, without considering the CSI feedback of multiple nodes, and CoMP needs to consider the CSI for multiple nodes
Feedback, it is desirable to which in the PUCCH capacities of N*11 bits, the embodiment of the present invention, network side passes through in high-level signaling or standard
Fixed form or physical layer signaling notify receiving side is utilized in the subframe of one or more Uplink Shared Channels to be based on physics
The frequency-hopping mode of resource block and/or the frequency-hopping mode of Physical Resource Block pair feed back the CSI of multiple nodes, so that network side can
To be properly received and detect the CSI of corresponding node, solving can not be while guaranteed capacity, it is ensured that CSI's is accurate
The problem of spending, both ensure that the capacity of PUCCH under existing standards, in turn ensure that CSI accuracy.
Preferably, receiving side is by receiving fixed form or physical layer in the high-level signaling or standard that network side is sent
Signaling, which is informed in the subframe of one or more Uplink Shared Channels, utilizes frequency-hopping mode and/or physics based on Physical Resource Block
The CSI that the frequency-hopping mode of resource block pair feeds back one or more nodes includes:Receiving side is by receiving the high level that network side is sent
Fixed form configuration knows that the lasting number of subframes N (N >=1) of a set of PUSCH triggerings feedback is used for one in signaling or standard
Continuous N number of subframe is used for feeding back the CSI of one or more node after secondary triggering.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
Up and/or descending control signaling in 1 bit signalling trigger receiving side in n+k (k >=4) subframe and later continuous N-
The CSI of one or more node is fed back in 1 subframe.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
Up and/or descending control signaling in 2 bit signallings trigger receiving side in n+k (k >=4) subframe and later continuous N-
The CSI of one or more node is fed back in 1 subframe, wherein 1 bit is used to refer to whether trigger PUSCH CSI in 2 bits
Feedback, 1 bit be used to refer to whether frequency hopping.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
Up and/or descending control signaling in M (M >=3) bit signalling trigger receiving side and connect in n+k (k >=4) subframe and later
Feed back 1 bit in the CSI of one or more node, wherein M (M >=3) bit is used to refer to whether touch in N-1 continuous subframe
PUSCH CSI feedback is sent out, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.
Preferably, receiving side is by receiving fixed form or physical layer in the high-level signaling or standard that network side is sent
Signaling, which is informed in the subframe of one or more Uplink Shared Channels, utilizes frequency-hopping mode and/or physics based on Physical Resource Block
The CSI that the frequency-hopping mode of resource block pair feeds back one or more nodes includes:Receiving side receives the high-level signaling that network side is sent
Or lasting number of subframes list { N1, N2 ..., Nn } (Ni of a set of PUSCH triggerings feedback is known in fixed form configuration in standard
>=1, i >=1,1≤i≤n) it is used for the CSI that the continuous Ni subframe after once triggering is used for feeding back one or more node.
Preferably, receiving side is received in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later continuous Ni-1
The CSI of one or more node is fed back in individual subframe, X (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, receiving side is received in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
2 bit signallings in up and/or descending control signaling trigger receiving side in n+k (k >=4) subframe and later continuous Ni-1
The CSI of one or more node is fed back in individual subframe, wherein 1 bit is used to refer to whether trigger PUSCH CSI in 2 bits
Feedback, 1 bit be used to refer to whether frequency hopping, X (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, receiving side is received in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
It is in n+k (k >=4) subframe and later continuous that M (M >=3) bit signalling in up and/or descending control signaling triggers receiving side
Ni-1 subframe on feed back 1 bit in the CSI of one or more node, wherein M (M >=3) bit is used to refer to whether touch
PUSCH CSI feedback is sent out, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used, X (X >=1)
Bit is used to refer to the Ni configured in high-rise configuration.
Preferably, receiving side is by receiving fixed form or physical layer in the high-level signaling or standard that network side is sent
Signaling, which is informed in the subframe of one or more Uplink Shared Channels, utilizes frequency-hopping mode and/or physics based on Physical Resource Block
The CSI that the frequency-hopping mode of resource block pair feeds back one or more nodes includes:Receiving side receives the high-level signaling that network side is sent
Or lasting number of subframes N (N >=1) and the feedback interval of a set of PUSCH triggering feedback are known in fixed form configuration in standard
The subframe that number of sub frames X (X >=1) is used at interval of X after once triggering feeds back a CSI, is used for feeding back one in N number of subframe altogether
The CSI of individual or multiple nodes.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later at interval of X's
Subframe feeds back a CSI, feeds back the CSI of one or more node in N number of subframe altogether.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
2 bit signallings in up and/or descending control signaling trigger receiving side in n+k (k >=4) subframe and later at interval of X's
Subframe feeds back a CSI, the CSI of one or more node is fed back in N number of subframe altogether, wherein 1 bit is used to refer in 2 bits
Show the CSI feedback for whether triggering PUSCH, 1 bit be used to refer to whether frequency hopping.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
M (M >=3) bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and at interval of X
Subframe feed back a CSI, 1 ratio is fed back in the CSI of one or more node, wherein M (M >=3) bit in N number of subframe altogether
Spy is used to refer to whether trigger PUSCH CSI feedback, M-1 bits be used to refer to whether the candidate that frequency hopping and/or frequency hopping are used
Frequency pattern.
Preferably, receiving side is by receiving fixed form or physical layer in the high-level signaling or standard that network side is sent
Signaling, which is informed in the subframe of one or more Uplink Shared Channels, utilizes frequency-hopping mode and/or physics based on Physical Resource Block
The CSI that the frequency-hopping mode of resource block pair feeds back one or more nodes includes:Receiving side receives the high-level signaling that network side is sent
Or lasting number of subframes list { N1, N2 ..., Nn } (Ni of a set of PUSCH triggerings feedback is known in fixed form configuration in standard
>=1, i >=1,1≤i≤n) and feedback interval number of sub frames X (X >=1) be used for once trigger after at interval of X subframe feed back one
Secondary CSI, is used for feeding back the CSI of one or more node in Ni subframe altogether.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later at interval of X's
Subframe feeds back a CSI, feeds back the CSI of one or more node in Ni subframe altogether, X (X >=1) bit is used to refer to height
The Ni configured in layer configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
2 bit signallings in up and/or descending control signaling trigger receiving side in n+k (k >=4) subframe and later at interval of X's
Subframe feeds back a CSI, the CSI of one or more node is fed back in Ni subframe altogether, wherein 1 bit is used in 2 bits
Indicate whether to trigger PUSCH CSI feedback, 1 bit be used to refer to whether frequency hopping, X (X >=1) bit is used to refer to high-rise configuration
The Ni of middle configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
M (M >=3) bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and at interval of X
Subframe feed back a CSI, fed back altogether in Ni subframe 1 in the CSI of one or more node, wherein M (M >=3) bit
Bit is used to refer to whether trigger PUSCH CSI feedback, M-1 bits be used to refer to whether the time that frequency hopping and/or frequency hopping are used
Frequency pattern is selected, X (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, receiving side is by receiving fixed form or physical layer in the high-level signaling or standard that network side is sent
Signaling, which is informed in the subframe of one or more Uplink Shared Channels, utilizes frequency-hopping mode and/or physics based on Physical Resource Block
The CSI that the frequency-hopping mode of resource block pair feeds back one or more nodes includes:Receiving side receives the high-level signaling that network side is sent
Or lasting number of subframes N (N >=1) and the feedback interval of a set of PUSCH triggering feedback are known in fixed form configuration in standard
The subframe that number of sub frames list { X1, X2 ... Xn } (Xi >=1, n >=1,1≤i≤n) is used at interval of X after once triggering feeds back one
Secondary CSI, is used for feeding back the CSI of one or more node in N number of subframe altogether.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later at interval of Xi's
Subframe feeds back a CSI, feeds back the CSI of one or more node in N number of subframe altogether, Y (Y >=1) bit is used to refer to height
The Xi configured in layer configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
2 bit signallings in up and/or descending control signaling trigger receiving side in n+k (k >=4) subframe and later at interval of Xi's
Subframe feeds back a CSI, the CSI of one or more node is fed back in N number of subframe altogether, wherein 1 bit is used to refer in 2 bits
Show the CSI feedback for whether triggering PUSCH, 1 bit be used to refer to whether frequency hopping, Y (Y >=1) bit is used to refer in high-rise configuration
The Xi of configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
M (M >=3) bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and at interval of Xi
Subframe feed back a CSI, 1 ratio is fed back in the CSI of one or more node, wherein M (M >=3) bit in N number of subframe altogether
Spy is used to refer to whether trigger PUSCH CSI feedback, M-1 bits be used to refer to whether the candidate that frequency hopping and/or frequency hopping are used
Frequency pattern, Y (Y >=1) bit is used to refer to the Xi configured in high-rise configuration.
Preferably, receiving side is by receiving fixed form or physical layer in the high-level signaling or standard that network side is sent
Signaling, which is informed in the subframe of one or more Uplink Shared Channels, utilizes frequency-hopping mode and/or physics based on Physical Resource Block
The CSI that the frequency-hopping mode of resource block pair feeds back one or more nodes includes:Receiving side receives the high-level signaling that network side is sent
Or lasting number of subframes list { N1, N2 ..., Nn } (Ni of a set of PUSCH triggerings feedback is known in fixed form configuration in standard
>=1, i >=1,1≤i≤n) and feedback interval number of sub frames list { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) be used for
Subframe after once triggering at interval of X feeds back a CSI, is used for feeding back one or more node in N number of subframe altogether
CSI。
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later at interval of Xi's
Subframe feeds back a CSI, feeds back the CSI of one or more node in N number of subframe altogether, Y (Y >=1) bit is used to refer to height
The Xi configured in layer configuration, S (S >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
2 bit signallings in up and/or descending control signaling trigger receiving side in n+k (k >=4) subframe and later at interval of Xi's
Subframe feeds back a CSI, the CSI of one or more node is fed back in N number of subframe altogether, wherein 1 bit is used to refer in 2 bits
Show the CSI feedback for whether triggering PUSCH, 1 bit be used to refer to whether frequency hopping, Y (Y >=1) bit is used to refer in high-rise configuration
The Xi of configuration, S (S >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
M (M >=3) bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and at interval of Xi
Subframe feed back a CSI, 1 ratio is fed back in the CSI of one or more node, wherein M (M >=3) bit in N number of subframe altogether
Spy is used to refer to whether trigger PUSCH CSI feedback, M-1 bits be used to refer to whether the candidate that frequency hopping and/or frequency hopping are used
Frequency pattern.Y (Y >=1) bit is used to refer to the Xi configured in high-rise configuration, and S (S >=1) bit is used to refer in high-rise configuration
The Ni of configuration.
Preferably, receiving side is by receiving fixed form or physical layer in the high-level signaling or standard that network side is sent
Signaling, which is informed in the subframe of one or more Uplink Shared Channels, utilizes frequency-hopping mode and/or physics based on Physical Resource Block
The CSI that the frequency-hopping mode of resource block pair feeds back one or more nodes includes:Receiving side receives the physical layer letter that network side is sent
Order triggering carries out carrying out the feedback one based on PUSCH in PUSCH feedbacks, and some continuous subframes that once triggering will be afterwards
The CSI of individual or multiple nodes, until the physical layer signaling that receiving side receives network side transmission indicates receiving side release PUSCH
Feedback.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later continuous subframe
CSI is fed back, until detecting release PUSCH feedback signalings in Physical Downlink Control Channel.
For the ease of understanding the present invention, with reference to specific embodiment, the present invention will be further elaborated.
Embodiment 1
It is assumed that UE1 is R11 user, network side is allocated to UE1 by fixed form in high-level signaling or standard
The lasting number of subframes N (N >=1) of a set of PUSCH triggerings feedback is used to refer to UE1 continuous N number of subframes after once triggering and is used for
Feed back the CSI of one or more node.When network side needs UE1 to be fed back on PUSCH, network side n-th (n >=
0) 1 bit signalling in the up and/or descending control signaling in the Physical Downlink Control Channel in individual subframe triggers UE1 in n+
The CSI of one or more node is fed back in k (k >=4) subframe and in later continuous N-1 subframe.UE1 is by receiving network
The lasting number of subframes N (N of a set of PUSCH triggerings feedback are known in fixed form configuration in high-level signaling or standard that side is sent
>=1) it is used for the CSI that continuous N number of subframe after once triggering is used for feeding back one or more node.UE1 is individual in n-th (n >=0)
The 1 bit letter in the up and/or descending control signaling in the Physical Downlink Control Channel of network side transmission is detected in subframe
Order triggering UE1 feeds back the CSI of one or more node in n+k (k >=4) subframe and later in continuous N-1 subframe.
Embodiment 2
It is assumed that UE1 is R11 user, network side is allocated to UE1 by fixed form in high-level signaling or standard
The lasting number of subframes N (N >=1) of a set of PUSCH triggerings feedback is used to refer to UE1 continuous N number of subframes after once triggering and is used for
Feed back the CSI of one or more node.It is up in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
And/or 2 bit signallings in descending control signaling trigger UE1 in n+k (k >=4) subframe and in later continuous N-1 subframe
The CSI of one or more node is fed back, wherein 1 bit is used to refer to whether trigger PUSCH CSI feedback, 1 ratio in 2 bits
Spy be used to refer to whether frequency hopping.UE1 is known by receiving fixed form configuration in the high-level signaling or standard that network side is sent
The lasting number of subframes N (N >=1) of a set of PUSCH triggerings feedback is used for continuous N number of subframe after once triggering and is used for feeding back one
Or the CSI of multiple nodes.UE1 is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
Up and/or descending control signaling in 2 bit signallings to trigger UE1 in n+k (k >=4) subframe and later continuous N-1
The CSI of one or more node is fed back in subframe, wherein in 2 bits 1 bit be used to refer to whether trigger PUSCH CSI it is anti-
Feedback, 1 bit be used to refer to whether frequency hopping.
Embodiment 3
It is assumed that UE1 is R11 user, it is assumed that UE1 is R11 user, network side by high-level signaling or
Fixed form is allocated to the lasting number of subframes N (N >=1) of UE1 a set of PUSCH triggering feedbacks and is used to refer to UE1 one in standard
Continuous N number of subframe is used for feeding back the CSI of one or more node after secondary triggering.Network side is in n-th (n >=0) individual subframe
In up and/or descending control signaling in Physical Downlink Control Channel M (M >=3) bit signalling triggering UE1 n+k (k >=
4) CSI of one or more node is fed back in subframe and later in continuous N-1 subframe, wherein 1 bit is used in M-bit
Indicate whether triggering PUSCH CSI feedback, M-1 bits are used to refer to the candidate's hopping pattern whether frequency hopping and/or frequency hopping are used
Sample.UE1 knows that a set of PUSCH triggerings are fed back by receiving fixed form configuration in the high-level signaling or standard that network side is sent
Lasting number of subframes N (N >=1) be used for continuous N number of subframe after once triggering and be used for feeding back one or more node
CSI.UE1 detects up and/or descending in the Physical Downlink Control Channel of network side transmission in n-th (n >=0) individual subframe
It is in n+k (k >=4) subframe and later anti-in continuous N-1 subframe that M (M >=3) bit signalling in control signaling triggers UE1
The CSI of one or more node is presented, 1 bit is used to refer to whether trigger PUSCH CSI feedback, M-1 ratios wherein in M-bit
Spy is used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.
Embodiment 4
It is assumed that UE1 is R11 user, network side is allocated to UE1 by fixed form in high-level signaling or standard
The lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of a set of PUSCH triggerings feedback is used to refer to
UE1 continuous Ni subframe after once triggering is used for feeding back the CSI of one or more node.Network side is individual in n-th (n >=0)
1 bit signalling in up and/or descending control signaling in Physical Downlink Control Channel in subframe triggers UE1 in n+k (k
>=CSI of one or more node 4) is fed back in subframe and later in continuous Ni-1 subframe, X (X >=1) bit use in addition
To indicate the Ni configured in high-rise configuration.Fixed form configuration is obtained in high-level signaling or standard that UE1 reception network sides are sent
Know that the lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of a set of PUSCH triggerings feedback is used for
Continuous Ni subframe is used for feeding back the CSI of one or more node after once triggering.UE1 connects in n-th (n >=0) individual subframe
The 1 bit signalling triggering UE1 received in the up and/or descending control signaling in the Physical Downlink Control Channel that network side is sent exists
The CSI of one or more node is fed back in n+k (k >=4) subframe and in later continuous Ni-1 subframe, in addition X (X >=1)
Bit is used to refer to the Ni configured in high-rise configuration.
Embodiment 5
It is assumed that UE1 is R11 user, network side is allocated to UE1 by fixed form in high-level signaling or standard
The lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of a set of PUSCH triggerings feedback is used to refer to
UE1 continuous Ni subframe after once triggering is used for feeding back the CSI of one or more node.Network side is individual in n-th (n >=0)
2 bit signallings in up and/or descending control signaling in Physical Downlink Control Channel in subframe trigger UE1 in n+k (k
>=CSI of one or more node 4) is fed back in subframe and later in continuous Ni-1 subframe, wherein 1 bit in 2 bits
Be used to refer to whether trigger PUSCH CSI feedback, 1 bit be used to refer to whether frequency hopping, in addition X (X >=1) bit be used to refer to
The Ni configured in high level configuration.Fixed form configuration is known a set of in high-level signaling or standard that UE1 reception network sides are sent
The lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of PUSCH triggering feedbacks is used for once touching
Continuous Ni subframe is used for feeding back the CSI of one or more node after hair.UE1 receives network in n-th (n >=0) individual subframe
2 bit signallings in up and/or descending control signaling in the Physical Downlink Control Channel that side is sent trigger UE1 in n+k (k
>=CSI of one or more node 4) is fed back in subframe and later in continuous Ni-1 subframe, wherein 1 bit in 2 bits
Be used to refer to whether trigger PUSCH CSI feedback, 1 bit be used to refer to whether frequency hopping, in addition X (X >=1) bit be used to refer to
The Ni configured in high level configuration.
Embodiment 6
It is assumed that UE1 is R11 user, network side is allocated to UE1 by fixed form in high-level signaling or standard
The lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of a set of PUSCH triggerings feedback is used to refer to
UE1 continuous Ni subframe after once triggering is used for feeding back the CSI of one or more node.Network side is individual in n-th (n >=0)
M (M >=3) bit signalling triggering UE1 in up and/or descending control signaling in Physical Downlink Control Channel in subframe exists
The CSI of one or more node is fed back in n+k (k >=4) subframe and in later continuous Ni-1 subframe, wherein 1 in M-bit
Bit is used to refer to whether trigger PUSCH CSI feedback, M-1 bits be used to refer to whether the time that frequency hopping and/or frequency hopping are used
Frequency pattern is selected, X (X >=1) bit is used to refer to the Ni configured in high-rise configuration in addition.UE1 connects in n-th (n >=0) individual subframe
M (M >=3) bit signalling received in the up and/or descending control signaling in the Physical Downlink Control Channel that network side is sent is touched
Send out UE1 feeds back one or more node in n+k (k >=4) subframe and later CSI, wherein M in continuous Ni-1 subframe
1 bit is used to refer to whether trigger PUSCH CSI feedback in bit, M-1 bits be used to refer to whether frequency hopping and/or frequency hopping institute
Candidate's frequency pattern of use, in addition X (X >=1) bit be used to refer to the Ni configured in high-rise configuration.
Embodiment 7
It is assumed that UE1 is R11 user, network side is allocated to UE1 by fixed form in high-level signaling or standard
The lasting number of subframes N (N >=1) of a set of PUSCH triggerings feedback and the number of sub frames X (X >=1) of feedback interval are used to refer to UE1 and existed
Subframe after once triggering at interval of X feeds back a CSI, is used for feeding back one or more node in N number of subframe altogether
CSI.1 in up and/or descending control signaling in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
Bit signalling triggers UE1 in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI, altogether in N number of subframe
Feed back the CSI of one or more node.It is up in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
And/or M (M >=3) bit signalling triggering UE1 in descending control signaling is in n+k (k >=4) subframe and anti-at interval of X subframe
Present a CSI, the CSI of one or more node is fed back in N number of subframe altogether, wherein in M-bit 1 bit be used to refer to whether
PUSCH CSI feedback is triggered, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.UE1 connects
Receive the lasting number of sub frames that a set of PUSCH triggerings feedback is known in fixed form configuration in the high-level signaling or standard of network side transmission
The subframe that mesh N (N >=1) and the number of sub frames X (X >=1) of feedback interval is used at interval of X after once triggering feeds back a CSI, always
It is used for feeding back the CSI of one or more node in N number of subframe altogether.UE1 detects that network side is sent in n-th (n >=0) individual subframe
Physical Downlink Control Channel in up and/or descending control signaling in 1 bit signalling triggering UE1 n+k (k >=4) son
A CSI is fed back with the subframe later at interval of X on frame, the CSI of one or more node is fed back in N number of subframe altogether.
Embodiment 8
It is assumed that UE1 is R11 user, network side is allocated to UE1 by fixed form in high-level signaling or standard
The lasting number of subframes N (N >=1) of a set of PUSCH triggerings feedback and the number of sub frames X (X >=1) of feedback interval are used to refer to UE1 and existed
Subframe after once triggering at interval of X feeds back a CSI, is used for feeding back one or more node in N number of subframe altogether
CSI.2 in up and/or descending control signaling in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
Bit signalling triggers UE1 in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI, altogether in N number of subframe
The CSI of one or more node is fed back, wherein 1 bit is used to refer to whether trigger PUSCH CSI feedback, 1 ratio in 2 bits
Spy be used to refer to whether frequency hopping.Fixed form configuration is known a set of in high-level signaling or standard that UE1 reception network sides are sent
The lasting number of subframes N (N >=1) of PUSCH triggering feedbacks and the number of sub frames X (X >=1) of feedback interval are used for every after once triggering
The subframe for being spaced X feeds back a CSI, is used for feeding back the CSI of one or more node in N number of subframe altogether.UE1 is in the n-th (n
2 ratios in up and/or descending control signaling in >=the Physical Downlink Control Channel that 0) detection network side is sent in individual subframe
Special signaling triggers UE1 in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI, altogether anti-in N number of subframe
The CSI of one or more node is presented, wherein 1 bit is used to refer to whether trigger PUSCH CSI feedback, 1 bit in 2 bits
Be used to refer to whether frequency hopping.
Embodiment 9
It is assumed that UE1 is R11 user.Network side is allocated to UE1 by fixed form in high-level signaling or standard
The lasting number of subframes N (N >=1) of a set of PUSCH triggerings feedback and the number of sub frames X (X >=1) of feedback interval are used to refer to UE1 and existed
Subframe after once triggering at interval of X feeds back a CSI, is used for feeding back one or more node in N number of subframe altogether
CSI.The M in up and/or descending control signaling in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
(M >=3) bit signalling triggers UE1 and feeds back a CSI in n+k (k >=4) subframe and at interval of X subframe, altogether N number of subframe
The upper CSI for feeding back one or more node, 1 bit is used to refer to whether trigger PUSCH CSI feedback, M- wherein in M-bit
1 bit is used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.UE1 receives the high-rise letter that network side is sent
Lasting number of subframes N (N >=1) and the feedback interval of a set of PUSCH triggerings feedback are known in fixed form configuration in order or standard
Number of sub frames X (X >=1) be used for once trigger after at interval of X subframe feed back a CSI, altogether N number of subframe be used for feed back
The CSI of one or more node.UE1 detects the Physical Downlink Control Channel that network side is sent in n-th (n >=0) individual subframe
In up and/or descending control signaling in M (M >=3) bit signalling trigger UE1 in n+k (k >=4) subframe and at interval of X
Subframe feed back a CSI, the CSI of one or more node is fed back in N number of subframe altogether, wherein 1 bit is used in M-bit
Indicate whether triggering PUSCH CSI feedback, M-1 bits are used to refer to the candidate's hopping pattern whether frequency hopping and/or frequency hopping are used
Sample.
Embodiment 10
It is assumed that UE1 is R11 user.Network side is allocated to UE1 by fixed form in high-level signaling or standard
Between the lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of a set of PUSCH triggerings feedback and feedback
Every number of sub frames X (X >=1) be used to refer to subframes of the UE1 at interval of X after once triggering and feed back a CSI, it is altogether sub at Ni
Frame is used for feeding back the CSI of one or more node.In Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
Up and/or descending control signaling in 1 bit signalling trigger UE1 in n+k (k >=4) subframe and later at interval of X son
Frame feeds back a CSI, feeds back the CSI of one or more node in Ni subframe altogether, X (X >=1) bit is used to refer in addition
The Ni configured in high level configuration.Fixed form configuration is known a set of in high-level signaling or standard that UE1 reception network sides are sent
The lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of PUSCH triggering feedbacks and feedback interval
The subframe that number of sub frames X (X >=1) is used at interval of X after once triggering feeds back a CSI, is used for feeding back in Ni subframe altogether
The CSI of one or more node.UE1 detects the Physical Downlink Control Channel that network side is sent in n-th (n >=0) individual subframe
In up and/or descending control signaling in 1 bit signalling trigger UE1 in n+k (k >=4) subframe and later at interval of X's
Subframe feeds back a CSI, feeds back the CSI of one or more node in Ni subframe altogether, X (X >=1) bit is used to refer in addition
Show the Ni configured in high-rise configuration.
Embodiment 11
It is assumed that UE1 is R11 user.Network side is allocated to UE1 by fixed form in high-level signaling or standard
Between the lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of a set of PUSCH triggerings feedback and feedback
Every number of sub frames X (X >=1) be used to refer to subframes of the UE1 at interval of X after once triggering and feed back a CSI, it is altogether sub at Ni
Frame is used for feeding back the CSI of one or more node.In Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
Up and/or descending control signaling in 2 bit signallings trigger UE1 in n+k (k >=4) subframe and later at interval of X son
Frame feeds back a CSI, the CSI of one or more node is fed back in Ni subframe altogether, wherein 1 bit is used to refer in 2 bits
Show the CSI feedback for whether triggering PUSCH, 1 bit be used to refer to whether frequency hopping, in addition X (X >=1) bit be used to refer to high level and match somebody with somebody
Put the Ni of middle configuration.Fixed form configuration knows that a set of PUSCH is touched in high-level signaling or standard that UE1 reception network sides are sent
Send out the lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of feedback and the number of sub frames X of feedback interval
(X >=1) be used for once trigger after at interval of X subframe feed back a CSI, altogether Ni subframe for feed back one or
The CSI of multiple nodes.UE1 detects up in the Physical Downlink Control Channel that network side is sent in n-th (n >=0) individual subframe
And/or 2 bit signallings in descending control signaling trigger UE1 and fed back in n+k (k >=4) subframe with the later subframe at interval of X
CSI, feeds back the CSI of one or more node altogether in Ni subframe, wherein in 2 bits 1 bit be used to refer to whether
Trigger PUSCH CSI feedback, 1 bit be used to refer to whether frequency hopping, in addition X (X >=1) bit be used to refer to match somebody with somebody in high-rise configuration
The Ni put.
Embodiment 12
It is assumed that UE1 is R11 user.Network side is allocated to UE1 by fixed form in high-level signaling or standard
Between the lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of a set of PUSCH triggerings feedback and feedback
Every number of sub frames X (X >=1) be used to refer to subframes of the UE1 at interval of X after once triggering and feed back a CSI, it is altogether sub at Ni
Frame is used for feeding back the CSI of one or more node.In Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
Up and/or descending control signaling in M (M >=3) bit signalling trigger UE1 in n+k (k >=4) subframe and at interval of X's
Subframe feeds back a CSI, feeds back the CSI of one or more node in Ni subframe altogether, wherein 1 bit is used in M-bit
Indicate whether triggering PUSCH CSI feedback, M-1 bits are used to refer to the candidate's hopping pattern whether frequency hopping and/or frequency hopping are used
Sample, in addition X (X >=1) bit be used to refer to the Ni configured in high-rise configuration.UE1 receive network side send high-level signaling or
In standard fixed form configuration know a set of PUSCH triggering feedback lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1,
I >=1,1≤i≤n) and feedback interval number of sub frames X (X >=1) be used for once trigger after at interval of X subframe feedback once
CSI, is used for feeding back the CSI of one or more node in Ni subframe altogether.UE1 detects net in n-th (n >=0) individual subframe
M (M >=3) bit signalling triggering UE1 in up and/or descending control signaling in the Physical Downlink Control Channel that network side is sent
A CSI is fed back in n+k (k >=4) subframe and at interval of X subframe, one or more section is fed back in Ni subframe altogether
The CSI of point, 1 bit is used to refer to whether trigger PUSCH CSI feedback wherein in M-bit, and whether M-1 bits are used to refer to jump
Frequency and/or candidate's frequency pattern for being used of frequency hopping, in addition X (X >=1) bit be used to refer to the Ni configured in high-rise configuration.
Embodiment 13
It is assumed that UE1 is R11 user.Network side is allocated to UE1 by fixed form in high-level signaling or standard
The lasting number of subframes N (N >=1) of a set of PUSCH triggering feedback and feedback interval number of sub frames list { X1, X2 ... Xn } (Xi >=
1, n >=1,1≤i≤n) a subframe feedback CSIs of the UE at interval of X after once triggering is used to refer to, used altogether in N number of subframe
To feed back the CSI of one or more node.It is upper in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
Row and/or descending control signaling in 1 bit signalling trigger UE1 in n+k (k >=4) subframe and later at interval of Xi subframe
A CSI is fed back, the CSI of one or more node is fed back in N number of subframe altogether, Y (Y >=1) bit is used to refer to height in addition
The Xi configured in layer configuration.Fixed form configuration is known a set of in high-level signaling or standard that UE1 reception network sides are sent
The lasting number of subframes N (N >=1) of PUSCH triggering feedbacks and number of sub frames list { X1, X2 ... Xn } (Xi >=1, n of feedback interval
>=1,1≤i≤n) it is used for the subframe CSI of feedback at interval of X after once triggering, it is used for feeding back one in N number of subframe altogether
The CSI of individual or multiple nodes.UE1 is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
Up and/or descending control signaling in 1 bit signalling trigger UE1 in n+k (k >=4) subframe and later at interval of Xi's
Subframe feeds back a CSI, feeds back the CSI of one or more node in N number of subframe altogether, Y (Y >=1) bit is used to refer in addition
Show the Xi configured in high-rise configuration.
Embodiment 14
It is assumed that UE1 is R11 user.Network side is allocated to UE1 by fixed form in high-level signaling or standard
The lasting number of subframes N (N >=1) of a set of PUSCH triggering feedback and feedback interval number of sub frames list { X1, X2 ... Xn } (Xi >=
1, n >=1,1≤i≤n) a subframe feedback CSIs of the UE at interval of X after once triggering is used to refer to, used altogether in N number of subframe
To feed back the CSI of one or more node.It is upper in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
Row and/or descending control signaling in 2 bit signallings trigger UE1 in n+k (k >=4) subframe and later at interval of Xi subframe
Feed back a CSI, the CSI of one or more node is fed back in N number of subframe altogether, wherein in 2 bits 1 bit be used to refer to be
No triggering PUSCH CSI feedback, 1 bit be used to refer to whether frequency hopping, in addition Y (Y >=1) bit be used to refer in high-rise configuration
The Xi of configuration.Fixed form configuration knows that a set of PUSCH triggerings are anti-in high-level signaling or standard that UE1 reception network sides are sent
The lasting number of subframes N (N >=1) of feedback and the number of sub frames list { X1, X2 ... Xn } (Xi >=1, n >=1,1≤i≤n) of feedback interval
A CSI is fed back for the subframe at interval of X after once triggering, is used for feeding back one or more section in N number of subframe altogether
The CSI of point.UE1 detected in n-th (n >=0) individual subframe network side send Physical Downlink Control Channel in it is up and/or under
2 bit signallings in row control signaling trigger UE1 and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, feeds back the CSI of one or more node altogether in N number of subframe, wherein whether 1 bit is used to refer to trigger in 2 bits
PUSCH CSI feedback, 1 bit be used to refer to whether frequency hopping, in addition Y (Y >=1) bit be used to refer to what is configured in high-rise configuration
Xi。
Embodiment 15
It is assumed that UE1 is R11 user.Network side is allocated to UE1 by fixed form in high-level signaling or standard
The lasting number of subframes N (N >=1) of a set of PUSCH triggering feedback and feedback interval number of sub frames list { X1, X2 ... Xn } (Xi >=
1, n >=1,1≤i≤n) a subframe feedback CSIs of the UE at interval of X after once triggering is used to refer to, used altogether in N number of subframe
To feed back the CSI of one or more node.It is upper in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
M (M >=3) bit signalling in row and/or descending control signaling triggers UE1 in n+k (k >=4) subframe and at interval of Xi
Frame feeds back a CSI, feeds back the CSI of one or more node in N number of subframe altogether, wherein 1 bit is used to refer in M-bit
Whether PUSCH CSI feedback is triggered, and M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used,
Other Y (Y >=1) bit is used to refer to the Xi configured in high-rise configuration.UE1 receives high-level signaling or the standard that network side is sent
The lasting number of subframes N (N >=1) of a set of PUSCH triggerings feedback and the subframe ordered series of numbers of feedback interval are known in middle fixed form configuration
The subframe that table { X1, X2 ... Xn } (Xi >=1, n >=1,1≤i≤n) is used at interval of X after once triggering feeds back a CSI, always
It is used for feeding back the CSI of one or more node in N number of subframe altogether.UE1 detects that network side is sent in n-th (n >=0) individual subframe
Physical Downlink Control Channel in up and/or descending control signaling in M (M >=3) bit signalling trigger UE1 in n+k (k
>=CSI 4) is fed back in subframe and at interval of Xi subframe, the CSI of one or more node is fed back in N number of subframe altogether,
1 bit is used to refer to whether trigger PUSCH CSI feedback wherein in M-bit, M-1 bits be used to refer to whether frequency hopping and/or jump
Candidate's frequency pattern for being used of frequency, in addition Y (Y >=1) bit be used to refer to the Xi configured in high-rise configuration.
Embodiment 16
It is assumed that UE1 is R11 user.Network side is allocated to UE1 by fixed form in high-level signaling or standard
Between the lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of a set of PUSCH triggerings feedback and feedback
Every number of sub frames list { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) be used to refer to UE once trigger after at interval of X's
Subframe feeds back a CSI, is used for feeding back the CSI of one or more node in N number of subframe altogether.Network side is in n-th (n >=0)
1 bit signalling in up and/or descending control signaling in Physical Downlink Control Channel in individual subframe triggers UE1 in n+k
A CSI is fed back with the subframe later at interval of Xe in (k >=4) subframe, one or more node is fed back in N number of subframe altogether
CSI.Y (Y >=1) bit is used to refer to the Xe configured in high-rise configuration, and S (X >=1) bit is used to refer in high-rise configuration in addition
The Ni of configuration.Fixed form configuration knows that a set of PUSCH triggerings are anti-in high-level signaling or standard that UE1 reception network sides are sent
The lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of feedback and the number of sub frames list of feedback interval
The subframe that { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) is used at interval of X after once triggering feeds back a CSI, altogether
It is used for feeding back the CSI of one or more node in N number of subframe.UE1 detects what network side was sent in n-th (n >=0) individual subframe
1 bit signalling in up and/or descending control signaling in Physical Downlink Control Channel triggers UE1 in n+k (k >=4) subframe
The upper and later subframe at interval of Xe feeds back a CSI, feeds back the CSI of one or more node in N number of subframe altogether.Y(Y
>=1) bit be used to refer to the Xe configured in high-rise configuration, S (X >=1) bit is used to refer to the Ni configured in high-rise configuration in addition.
Embodiment 17
It is assumed that UE1 is R11 user.Network side is allocated to UE1 by fixed form in high-level signaling or standard
Between the lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of a set of PUSCH triggerings feedback and feedback
Every number of sub frames list { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) be used to refer to UE once trigger after at interval of X's
Subframe feeds back a CSI, is used for feeding back the CSI of one or more node in N number of subframe altogether.Network side is in n-th (n >=0)
2 bit signallings in up and/or descending control signaling in Physical Downlink Control Channel in individual subframe trigger UE1 in n+k
A CSI is fed back with the subframe later at interval of Xe in (k >=4) subframe, one or more node is fed back in N number of subframe altogether
CSI, wherein 1 bit is used to refer to whether trigger PUSCH CSI feedback in 2 bits, 1 bit be used to refer to whether frequency hopping.Y
(Y >=1) bit is used to refer to the Xe configured in high-rise configuration, and S (X >=1) bit is used to refer to what is configured in high-rise configuration in addition
Ni.Holding for a set of PUSCH triggering feedbacks is known in fixed form configuration in high-level signaling or standard that UE1 reception network sides are sent
Continuous number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) and the number of sub frames list of feedback interval X1,
X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) be used for once trigger after at interval of X subframe feed back a CSI, altogether in N
Individual subframe is used for feeding back the CSI of one or more node.UE1 detects the thing that network side is sent in n-th (n >=0) individual subframe
Manage 2 bit signallings in the up and/or descending control signaling in down control channel and trigger UE1 in n+k (k >=4) subframe
The subframe at interval of Xe feeds back a CSI later, the CSI of one or more node is fed back in N number of subframe altogether, wherein 2
1 bit is used to refer to whether trigger PUSCH CSI feedback in bit, 1 bit be used to refer to whether frequency hopping.Y (Y >=1) bit is used
To indicate the Xe configured in high-rise configuration, S (X >=1) bit is used to refer to the Ni configured in high-rise configuration in addition.
Embodiment 18
It is assumed that UE1 is R11 user.Network side is allocated to UE1 by fixed form in high-level signaling or standard
Between the lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of a set of PUSCH triggerings feedback and feedback
Every number of sub frames list { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) be used to refer to UE once trigger after at interval of X's
Subframe feeds back a CSI, is used for feeding back the CSI of one or more node in N number of subframe altogether.Network side is in n-th (n >=0)
M (M >=3) bit signalling triggering UE1 in up and/or descending control signaling in Physical Downlink Control Channel in individual subframe
A CSI is fed back in n+k (k >=4) subframe and at interval of Xe subframe, one or more section is fed back in N number of subframe altogether
The CSI of point, 1 bit is used to refer to whether trigger PUSCH CSI feedback wherein in M-bit, and whether M-1 bits are used to refer to jump
Candidate's frequency pattern that frequency and/or frequency hopping are used.Y (Y >=1) bit is used to refer to the Xe configured in high-rise configuration, in addition S (X
>=1) bit be used to refer to the Ni configured in high-rise configuration.UE1 is received to be fixed in the high-level signaling or standard of network side transmission
Mode configures lasting number of subframes list { N1, N2 ..., the Nn } (Ni >=1, i >=1,1≤i for knowing a set of PUSCH triggerings feedback
≤ n) and feedback interval number of sub frames list { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) be used for it is every after once triggering
The subframe for being spaced X feeds back a CSI, is used for feeding back the CSI of one or more node in N number of subframe altogether.UE1 is in the n-th (n
M (the M in up and/or descending control signaling in >=the Physical Downlink Control Channel that 0) detection network side is sent in individual subframe
>=3) bit signalling triggering UE1 is in n+k (k >=4) subframe and at interval of an Xe subframe CSI of feedback, altogether in N number of subframe
The CSI of one or more node is fed back, 1 bit is used to refer to whether trigger PUSCH CSI feedback, M-1 wherein in M-bit
Bit is used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.Y (Y >=1) bit is used to refer to high-rise configuration
The Xe of middle configuration, in addition S (X >=1) bit be used to refer to the Ni configured in high-rise configuration.
Embodiment 19
It is assumed that UE1 is R11 user.Network side triggers UE1 by physical layer signaling and carries out PUSCH feedbacks, and
Carry out the CSI for feeding back one or more node based on PUSCH afterwards in some continuous subframes that once triggering will be, until
Network side indicates that UE1 discharges PUSCH feedbacks by physical layer signaling.Physical down of the network side in n-th (n >=0) individual subframe
1 bit signalling triggering UE1 in up and/or descending control signaling in control channel is in n+k (k >=4) subframe with after
Continuous subframe feedback CSI, until detecting release PUSCH feedback signalings in Physical Downlink Control Channel.UE1 receives network
The physical layer signaling triggering that side is sent carried out in PUSCH feedbacks, and some continuous subframes that once triggering will be afterwards
The CSI for feeding back one or more node based on PUSCH, until the UE1 physical layer signalings for receiving network side transmission are indicated
UE1 release PUSCH feedbacks.UE1 detects upper in the Physical Downlink Control Channel that network side is sent in n-th (n >=0) individual subframe
1 bit signalling in row and/or descending control signaling triggers UE1 in n+k (k >=4) subframe and later continuous subframe feedbacks
CSI, until detecting release PUSCH feedback signalings in Physical Downlink Control Channel.
Embodiment 20
It is assumed that UE1 is R11 user.Network side triggers UE1 by physical layer signaling and carries out PUSCH feedbacks, and
Carry out the CSI for feeding back one or more node based on PUSCH afterwards in some continuous subframes that once triggering will be, until
Network side indicates that UE1 discharges PUSCH feedbacks by physical layer signaling.Physical down of the network side in n-th (n >=0) individual subframe
1 bit signalling triggering UE1 in up and/or descending control signaling in control channel is in n+k (k >=4) subframe with after
Continuous subframe feedback CSI, until detecting release PUSCH feedback signalings in Physical Downlink Control Channel, 1 bit is used in addition
To indicate whether frequency hopping.UE1 receives the physical layer signaling triggering progress PUSCH feedbacks that network side is sent, and once triggering will
The CSI for feeding back one or more node based on PUSCH is carried out in some continuous subframes afterwards, until UE1 is received
The physical layer signaling that network side is sent indicates UE1 release PUSCH feedbacks.UE1 detects that network side is sent out in n-th (n >=0) individual subframe
1 bit signalling in up and/or descending control signaling in the Physical Downlink Control Channel sent triggers UE1 in n+k (k >=4)
With continuous subframe feedback CSI later in subframe, PUSCH feedback letters are discharged until being detected in Physical Downlink Control Channel
Order, in addition 1 bit be used to refer to whether frequency hopping.
Embodiment 21
It is assumed that UE1 is R11 user.Network side triggers UE1 by physical layer signaling and carries out PUSCH feedbacks, and
Carry out the CSI for feeding back one or more node based on PUSCH afterwards in some continuous subframes that once triggering will be, until
Network side indicates that UE1 discharges PUSCH feedbacks by physical layer signaling.Physical down of the network side in n-th (n >=0) individual subframe
1 bit signalling triggering UE1 in up and/or descending control signaling in control channel is in n+k (k >=4) subframe with after
Continuous subframe feedback CSI, until detecting release PUSCH feedback signalings in Physical Downlink Control Channel, M-bit is used in addition
To indicate whether candidate's frequency pattern that frequency hopping and/or frequency hopping are used.UE1 receives the physical layer signaling triggering that network side is sent
Carried out in PUSCH feedbacks, and some continuous subframes that once triggering will be afterwards feedback one based on PUSCH or
The CSI of multiple nodes, until the UE1 physical layer signalings for receiving network side transmission indicate UE1 release PUSCH feedbacks.Based on power
Profit requires 26, network side detected in n-th (n >=0) individual subframe up in the Physical Downlink Control Channel that network side is sent and/
Or 1 bit signalling in descending control signaling triggers UE1 in n+k (k >=4) subframe and later continuous subframe feeds back CSI, directly
To detected in Physical Downlink Control Channel release PUSCH feedback signalings, in addition M-bit be used to refer to whether frequency hopping and/or
Candidate's frequency pattern that frequency hopping is used.
Embodiment 22
It is assumed that UE1 is R11 user.Network side triggers UE1 by physical layer signaling and carries out PUSCH feedbacks, and
Carry out the CSI for feeding back one or more node based on PUSCH afterwards in some continuous subframes that once triggering will be, until
Network side indicates that UE1 discharges PUSCH feedbacks by physical layer signaling.Network side is needed by fixed in high-level signaling or standard
Mode notifies the number of sub frames X (X >=1) of UE1 feedback intervals to be used to refer to subframes of the UE at interval of X after once triggering and feed back once
CSI.1 in up and/or descending control signaling in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
Bit signalling triggers UE1 in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI, until in physical down
Release PUSCH feedback signalings are detected in control channel.UE1 receives the physical layer signaling triggering progress PUSCH that network side is sent
The feedback based on PUSCH one or more node is carried out in feedback, and some continuous subframes that once triggering will be afterwards
CSI, until network side pass through physical layer signaling indicate UE1 discharge PUSCH feedback.UE1 also needs to receive network side configuration
Fixed form knows that the number of sub frames X (X >=1) of feedback interval is used for after once triggering at interval of X in high-level signaling or standard
Subframe feed back a CSI.UE1 is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
1 bit signalling in up and/or descending control signaling triggers UE1 in n+k (k >=4) subframe and later subframes at interval of X
A CSI is fed back, until detecting release PUSCH feedback signalings in Physical Downlink Control Channel.
Embodiment 23
It is assumed that UE1 is R11 user.Network side triggers UE1 by physical layer signaling and carries out PUSCH feedbacks, and
Carry out the CSI for feeding back one or more node based on PUSCH afterwards in some continuous subframes that once triggering will be, until
Network side indicates that UE1 discharges PUSCH feedbacks by physical layer signaling.Network side is needed by fixed in high-level signaling or standard
Mode notifies the number of sub frames X (X >=1) of UE1 feedback intervals to be used to refer to subframes of the UE at interval of X after once triggering and feed back once
CSI.1 in up and/or descending control signaling in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
Bit signalling triggers UE1 in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI, until in physical down
Detected in control channel release PUSCH feedback signalings, in addition 1 bit be used to refer to whether frequency hopping.UE1 receives network side and sent
Physical layer signaling triggering carry out PUSCH feedbacks, and once triggering will be afterwards some continuous subframes in be based on
The CSI of one or more node of PUSCH feedback, until network side is anti-by physical layer signaling instruction UE1 releases PUSCH
Feedback.UE1 also needs to receive fixed form in the high-level signaling or standard of network side configuration and knows the number of sub frames X (X of feedback interval
>=the subframe 1) being used at interval of X after once triggering feeds back a CSI.UE1 detects network side in n-th (n >=0) individual subframe
In up and/or descending control signaling in the Physical Downlink Control Channel of transmission 1 bit signalling triggering UE1 n+k (k >=
4) subframe at interval of X feeds back a CSI in subframe and later, until detecting release in Physical Downlink Control Channel
PUSCH feedback signalings, in addition 1 bit be used to refer to whether frequency hopping.
Embodiment 24
It is assumed that UE1 is R11 user.Network side triggers UE1 by physical layer signaling and carries out PUSCH feedbacks, and
Carry out the CSI for feeding back one or more node based on PUSCH afterwards in some continuous subframes that once triggering will be, until
Network side indicates that UE1 discharges PUSCH feedbacks by physical layer signaling.Network side is needed by fixed in high-level signaling or standard
Mode notifies the number of sub frames X (X >=1) of UE1 feedback intervals to be used to refer to subframes of the UE at interval of X after once triggering and feed back once
CSI.1 in up and/or descending control signaling in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
Bit signalling triggers UE1 in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI, until in physical down
Detect release PUSCH feedback signalings in control channel, M-bit is used to refer to whether frequency hopping and/or frequency hopping are used in addition
Candidate's frequency pattern.UE1 receives the physical layer signaling triggering that network side sends and carries out PUSCH feedbacks, and once triggering will be
The CSI for feeding back one or more node based on PUSCH is carried out in later some continuous subframes, until network side passes through thing
Manage layer signaling and indicate UE1 release PUSCH feedbacks.UE1 also needs to fix in the high-level signaling or standard of reception network side configuration
Mode knows that the subframe that the number of sub frames X (X >=1) of feedback interval is used at interval of X after once triggering feeds back a CSI.UE1 exists
Detected in n-th (n >=0) individual subframe in the up and/or descending control signaling in the Physical Downlink Control Channel that network side is sent
1 bit signalling trigger UE1 the subframe at interval of X feed back a CSI in n+k (k >=4) subframe and later, until in physics
Release PUSCH feedback signalings are detected in down control channel, M-bit is used to refer to whether frequency hopping and/or frequency hopping are adopted in addition
Candidate's frequency pattern.
Embodiment 25
It is assumed that UE1 is R11 user.Network side triggers UE1 by physical layer signaling and carries out PUSCH feedbacks, and
Carry out the CSI for feeding back one or more node based on PUSCH afterwards in some continuous subframes that once triggering will be, until
Network side indicates that UE1 discharges PUSCH feedbacks by physical layer signaling.Network side is needed by fixed in high-level signaling or standard
Mode notifies the number of sub frames list { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) of UE1 feedback intervals to be used to refer to UE one
Subframe after secondary triggering at interval of Xe feeds back a CSI.Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
In up and/or descending control signaling in 1 bit signalling trigger UE1 in n+k (k >=4) subframe and later at interval of Xe
Subframe feed back a CSI, until detected in Physical Downlink Control Channel release PUSCH feedback signalings, additionally need Y ratios
Spy is used to refer to Xe.UE1 receives the physical layer signaling triggering that network side sends and carries out PUSCH feedbacks, and once triggering will be
The CSI for feeding back one or more node based on PUSCH is carried out in later some continuous subframes, until network side passes through thing
Manage layer signaling and indicate UE1 release PUSCH feedbacks.UE1 also needs to fix in the high-level signaling or standard of reception network side transmission
Mode knows that the number of sub frames list { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) of feedback interval is used to refer to UE once
Subframe after triggering at interval of Xe feeds back a CSI.UE1 is detected in n-th (n >=0) individual subframe under the physics that network side is sent
1 bit signalling in up and/or descending control signaling in row control channel trigger UE1 in n+k (k >=4) subframe and with
The subframe at interval of Xe feeds back a CSI afterwards, until release PUSCH feedback signalings are detected in Physical Downlink Control Channel,
Additionally need Y bit and be used to refer to Xe.
Embodiment 26
It is assumed that UE1 is R11 user.Network side triggers UE1 by physical layer signaling and carries out PUSCH feedbacks, and
Carry out the CSI for feeding back one or more node based on PUSCH afterwards in some continuous subframes that once triggering will be, until
Network side indicates that UE1 discharges PUSCH feedbacks by physical layer signaling.Network side is needed by fixed in high-level signaling or standard
Mode notifies the number of sub frames list { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) of UE1 feedback intervals to be used to refer to UE one
Subframe after secondary triggering at interval of Xe feeds back a CSI.Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
In up and/or descending control signaling in 1 bit signalling trigger UE1 in n+k (k >=4) subframe and later at interval of Xe
Subframe feed back a CSI, until detected in Physical Downlink Control Channel release PUSCH feedback signalings.1 bit is used to refer to
Show whether frequency hopping, additionally need Y bit and be used to refer to Xe.UE1 receives the physical layer signaling triggering progress PUSCH that network side is sent
The feedback based on PUSCH one or more node is carried out in feedback, and some continuous subframes that once triggering will be afterwards
CSI, until network side pass through physical layer signaling indicate UE1 discharge PUSCH feedback.UE1 also needs to receive what network side was sent
In high-level signaling or standard fixed form know feedback interval number of sub frames list { X1, X2 ... Xm } (Xe >=1, m >=1,1≤
E≤m) it is used to refer to a subframe feedback CSIs of the UE at interval of Xe after once triggering.UE1 is examined in n-th (n >=0) individual subframe
The 1 bit signalling triggering UE1 surveyed in the up and/or descending control signaling in the Physical Downlink Control Channel that network side is sent exists
A CSI is fed back with the subframe later at interval of Xe in n+k (k >=4) subframe, until being detected in Physical Downlink Control Channel
Discharge PUSCH feedback signalings.1 bit be used to refer to whether frequency hopping, additionally need Y bit and be used to refer to Xe.
Embodiment 27
It is assumed that UE1 is R11 user.Network side triggers UE1 by physical layer signaling and carries out PUSCH feedbacks, and
Carry out the CSI for feeding back one or more node based on PUSCH afterwards in some continuous subframes that once triggering will be, until
Network side indicates that UE1 discharges PUSCH feedbacks by physical layer signaling.Network side is needed by fixed in high-level signaling or standard
Mode notifies the number of sub frames list { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) of UE1 feedback intervals to be used to refer to UE one
Subframe after secondary triggering at interval of Xe feeds back a CSI.Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
In up and/or descending control signaling in 1 bit signalling trigger UE1 in n+k (k >=4) subframe and later at interval of Xe
Subframe feed back a CSI, until detected in Physical Downlink Control Channel release PUSCH feedback signalings.M-bit is used to refer to
Show the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used, additionally need Y bit and be used to refer to Xe.UE1 receives network side
The physical layer signaling triggering of transmission carries out carrying out base in PUSCH feedbacks, and some continuous subframes that once triggering will be afterwards
In the CSI of one or more node of PUSCH feedback, until network side is anti-by physical layer signaling instruction UE1 releases PUSCH
Feedback.UE1 also needs to receive fixed form in the high-level signaling that network side sends or standard and knows the subframe ordered series of numbers of feedback interval
Table { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) is used to refer to subframes of the UE at interval of Xe after once triggering and feeds back one
Secondary CSI.UE1 detects up and/or descending in the Physical Downlink Control Channel that network side is sent in n-th (n >=0) individual subframe
1 bit signalling in control signaling triggers UE1 in n+k (k >=4) subframe and the later subframe at interval of Xe feeds back a CSI,
Until detecting release PUSCH feedback signalings in Physical Downlink Control Channel.M-bit be used to refer to whether frequency hopping and/or jump
Candidate's frequency pattern that frequency is used, additionally needs Y bit and is used to refer to Xe.
It should be noted that can be in such as one group computer executable instructions the step of the flow of accompanying drawing is illustrated
Performed in computer system, and, although logical order is shown in flow charts, but in some cases, can be with not
The order being same as herein performs shown or described step.
The embodiments of the invention provide a kind of business eedle threader, the device can be used for realizing above-mentioned method.Fig. 3 is
The structured flowchart one of business eedle threader according to embodiments of the present invention, as shown in figure 3, including notification module 32, receiving module
34 and detection module 36.Its structure is described in detail below.
Notification module 32, for notifying receiving side by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
Frequency-hopping mode feed back the channel condition information CSI of one or more nodes;Receiving module 34, is connected to notification module 32, uses
In the content notified according to notification module 32, the CSI of one or more nodes is received;Detection module, is connected to receiving module
34, the CSI for detecting one or more nodes.
Preferably, fixed form node passes through in high-level signaling or standard in the high-level signaling of notification module 32 or standard
The lasting number of subframes N (N >=1) that fixed form is allocated to a set of PUSCH triggerings feedback of receiving side is used to refer to receiving side one
Continuous N number of subframe is used for feeding back the CSI of one or more node after secondary triggering.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and feeds back one in n+k (k >=4) subframe and later in continuous N-1 subframe
Or the CSI of multiple nodes.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side and feed back one in n+k (k >=4) subframe and later in continuous N-1 subframe
Or the CSI of multiple nodes, wherein 1 bit is used to refer to whether trigger PUSCH CSI feedback in 2 bits, 1 bit is used to refer to
Show whether frequency hopping.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
It is in n+k (k >=4) subframe and later anti-in continuous N-1 subframe that M (M >=3) bit signalling in signaling processed triggers receiving side
The CSI of one or more node is presented, 1 bit is used to refer to whether trigger PUSCH CSI feedback, M-1 ratios wherein in M-bit
Spy is used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.
Preferably, notification module 32 is allocated to a set of PUSCH of receiving side by fixed form in high-level signaling or standard
The lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of triggering feedback is used to refer to receiving side one
Continuous Ni subframe is used for feeding back the CSI of one or more node after secondary triggering.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and feeds back one in n+k (k >=4) subframe and later in continuous Ni-1 subframe
The CSI of individual or multiple nodes, in addition X (X >=1) bit be used to refer to the Ni configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side and feed back one in n+k (k >=4) subframe and later in continuous Ni-1 subframe
The CSI of individual or multiple nodes, wherein 1 bit is used to refer to whether trigger PUSCH CSI feedback in 2 bits, 1 bit is used for
Indicate whether frequency hopping.Other X (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
M (M >=3) bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and in later continuous Ni-1 subframe
The CSI of one or more node is fed back, 1 bit is used to refer to whether trigger PUSCH CSI feedback, M-1 wherein in M-bit
Bit is used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.Other X (X >=1) bit is used to refer to high level
The Ni configured in configuration.
Preferably, notification module 32 is allocated to a set of PUSCH of receiving side by fixed form in high-level signaling or standard
Trigger the lasting number of subframes N (N >=1) of feedback and the number of sub frames X (X >=1) of feedback interval is used to refer to receiving side and once touched
Subframe after hair at interval of X feeds back a CSI, is used for feeding back the CSI of one or more node in N number of subframe altogether.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
The CSI of one or more node is fed back in N number of subframe altogether.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
The CSI of one or more node is fed back in N number of subframe altogether, wherein 1 bit is used to refer to whether trigger PUSCH in 2 bits
CSI feedback, 1 bit be used to refer to whether frequency hopping.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
M (M >=3) bit signalling in signaling processed triggers receiving side and fed back once in n+k (k >=4) subframe and at interval of X subframe
CSI, feeds back the CSI of one or more node altogether in N number of subframe, whether 1 bit is used to refer to trigger wherein in M-bit
PUSCH CSI feedback, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.
Preferably, notification module 32 is allocated to a set of PUSCH of receiving side by fixed form in high-level signaling or standard
Trigger the lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of feedback and the number of sub frames of feedback interval
X (X >=1) is used to refer to subframe of the receiving side at interval of X after once triggering and feeds back a CSI, is used for altogether in Ni subframe
Feed back the CSI of one or more node.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
The CSI of one or more node is fed back in Ni subframe altogether.Other X (X >=1) bit is used to refer to configure in high-rise configuration
Ni.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
The CSI of one or more node is fed back in Ni subframe altogether, wherein 1 bit is used to refer to whether trigger PUSCH in 2 bits
CSI feedback, 1 bit be used to refer to whether frequency hopping.Other X (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
M (M >=3) bit signalling in signaling processed triggers receiving side and fed back once in n+k (k >=4) subframe and at interval of X subframe
CSI, feeds back the CSI of one or more node altogether in Ni subframe, whether 1 bit is used to refer to trigger wherein in M-bit
PUSCH CSI feedback, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.Other X (X >=
1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, notification module 32 is allocated to a set of PUSCH of receiving side by fixed form in high-level signaling or standard
Trigger the lasting number of subframes N (N >=1) of feedback and number of sub frames list { X1, X2 ... Xn } (Xi >=1, n >=1,1 of feedback interval
≤ i≤n) a subframe feedback CSI of the receiving side at interval of X after once triggering is used to refer to, it is used for altogether in N number of subframe anti-
Present the CSI of one or more node.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, feeds back the CSI of one or more node altogether in N number of subframe.Other Y (Y >=1) bit is used to refer in high-rise configuration
The Xi of configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, feeds back the CSI of one or more node altogether in N number of subframe, wherein whether 1 bit is used to refer to trigger in 2 bits
PUSCH CSI feedback, 1 bit be used to refer to whether frequency hopping.Other Y (Y >=1) bit is used to refer to what is configured in high-rise configuration
Xi。
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
M (M >=3) bit signalling in signaling processed triggers receiving side and fed back once in n+k (k >=4) subframe and at interval of Xi subframe
CSI, feeds back the CSI of one or more node altogether in N number of subframe, whether 1 bit is used to refer to trigger wherein in M-bit
PUSCH CSI feedback, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.Other Y (Y >=
1) bit is used to refer to the Xi configured in high-rise configuration.
Preferably, notification module 32 is allocated to a set of PUSCH of receiving side by fixed form in high-level signaling or standard
Trigger the lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of feedback and the number of sub frames of feedback interval
It is anti-that list { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) is used to refer to subframe of the receiving side at interval of X after once triggering
A CSI is presented, is used for feeding back the CSI of one or more node in N number of subframe altogether.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, feeds back the CSI of one or more node altogether in N number of subframe.Y (Y >=1) bit is used to refer to configure in high-rise configuration
Xi, in addition S (X >=1) bit be used to refer to the Ni configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
2 bit signallings in signaling processed trigger receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, feeds back the CSI of one or more node altogether in N number of subframe, wherein whether 1 bit is used to refer to trigger in 2 bits
PUSCH CSI feedback, 1 bit be used to refer to whether frequency hopping.Y (Y >=1) bit is used to refer to the Xi configured in high-rise configuration, separately
Outer S (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
M (M >=3) bit signalling in signaling processed triggers receiving side and fed back once in n+k (k >=4) subframe and at interval of Xi subframe
CSI, feeds back the CSI of one or more node altogether in N number of subframe, whether 1 bit is used to refer to trigger wherein in M-bit
PUSCH CSI feedback, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.Y (Y >=1) compares
Spy is used to refer to the Xi configured in high-rise configuration, and S (X >=1) bit is used to refer to the Ni configured in high-rise configuration in addition.
Preferably, notification module 32 triggers receiving side by physical layer signaling and carries out PUSCH feedbacks, and once triggering will
The CSI for feeding back one or more node based on PUSCH is carried out in some continuous subframes afterwards, until network side passes through
Physical layer signaling indicates receiving side release PUSCH feedbacks.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and later continuous subframe feeds back CSI, until
Release PUSCH feedback signalings are detected in Physical Downlink Control Channel.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and later continuous subframe feeds back CSI, until
Release PUSCH feedback signalings are detected in Physical Downlink Control Channel.Other 1 bit be used to refer to whether frequency hopping.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and later continuous subframe feeds back CSI, until
Release PUSCH feedback signalings are detected in Physical Downlink Control Channel.Other M-bit be used to refer to whether frequency hopping and/or frequency hopping
The candidate's frequency pattern used.
Preferably, notification module 32 triggers receiving side by physical layer signaling and carries out PUSCH feedbacks, and once triggering will
The CSI for feeding back one or more node based on PUSCH is carried out in some continuous subframes afterwards, until network side passes through
Physical layer signaling indicates receiving side release PUSCH feedbacks.Network side needs logical by fixed form in high-level signaling or standard
Know that the number of sub frames X (X >=1) of receiving side feedback interval is used to refer to subframe of the receiving side at interval of X after once triggering and feeds back one
Secondary CSI.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
Until detecting release PUSCH feedback signalings in Physical Downlink Control Channel.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
Until detecting release PUSCH feedback signalings in Physical Downlink Control Channel.Other 1 bit be used to refer to whether frequency hopping.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side in n+k (k >=4) subframe and the later subframe at interval of X feeds back a CSI,
Until detecting release PUSCH feedback signalings in Physical Downlink Control Channel.Other M-bit be used to refer to whether frequency hopping and/
Or candidate's frequency pattern that frequency hopping is used.
Preferably, notification module 32 triggers receiving side by physical layer signaling and carries out PUSCH feedbacks, and once triggering will
The CSI for feeding back one or more node based on PUSCH is carried out in some continuous subframes afterwards, until network side passes through
Physical layer signaling indicates receiving side release PUSCH feedbacks.Network side needs logical by fixed form in high-level signaling or standard
Know that the number of sub frames list { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) of receiving side feedback interval is used to refer to receiving side and existed
Subframe after once triggering at interval of Xe feeds back a CSI.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, until detecting release PUSCH feedback signalings in Physical Downlink Control Channel, additionally needs Y bit and is used to refer to Xi.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, until detecting release PUSCH feedback signalings in Physical Downlink Control Channel.1 bit be used to refer to whether frequency hopping, separately
It is outer to need Y bit to be used to refer to Xi.
Preferably, the up and/or descending control in Physical Downlink Control Channel of the network side in n-th (n >=0) individual subframe
1 bit signalling in signaling processed triggers receiving side and fed back once with the later subframe at interval of Xi in n+k (k >=4) subframe
CSI, until detecting release PUSCH feedback signalings in Physical Downlink Control Channel.M-bit be used to refer to whether frequency hopping and/
Or candidate's frequency pattern that frequency hopping is used, additionally need Y bit and be used to refer to Xi.
The embodiments of the invention provide another business eedle threader, the device can be used for realizing above-mentioned method.Fig. 4
It is the structured flowchart two of business eedle threader according to embodiments of the present invention, as shown in figure 4, including knowing module 42 and feedback mould
Block 44.Its structure is described in detail below.
Module 42 is known, for fixed form or physics in the high-level signaling or standard by receiving network side transmission
Layer signaling, which is informed in the subframe of one or more Uplink Shared Channels, utilizes frequency-hopping mode and/or thing based on Physical Resource Block
The frequency-hopping mode for managing resource block pair feeds back the CSI of one or more nodes;Feedback module 44, is connected to and knows module 42, be used for
According to the content that module 42 is known is known, utilized in the subframe of one or more Uplink Shared Channels based on Physical Resource Block
The frequency-hopping mode of frequency-hopping mode and/or Physical Resource Block pair feeds back the CSI of one or more of nodes.
Preferably, know that module 42 is obtained by receiving fixed form configuration in the high-level signaling or standard that network side is sent
Know that the lasting number of subframes N (N >=1) of a set of PUSCH triggerings feedback is used for continuous N number of subframe after once triggering and is used for feeding back one
The CSI of individual or multiple nodes.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
Up and/or descending control signaling in 1 bit signalling trigger receiving side in n+k (k >=4) subframe and later continuous N-
The CSI of one or more node is fed back in 1 subframe.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
Up and/or descending control signaling in 2 bit signallings trigger receiving side in n+k (k >=4) subframe and later continuous N-
The CSI of one or more node is fed back in 1 subframe, wherein 1 bit is used to refer to whether trigger PUSCH CSI in 2 bits
Feedback, 1 bit be used to refer to whether frequency hopping.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
Up and/or descending control signaling in M (M >=3) bit signalling trigger receiving side and connect in n+k (k >=4) subframe and later
The CSI of one or more node is fed back in N-1 continuous subframe, 1 bit is used to refer to whether trigger wherein in M-bit
PUSCH CSI feedback, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.
Preferably, know that module 42 is obtained by receiving fixed form configuration in the high-level signaling or standard that network side is sent
Know that the lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) of a set of PUSCH triggerings feedback is used for
Continuous Ni subframe is used for feeding back the CSI of one or more node after once triggering.
Preferably, receiving side is received in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later continuous Ni-1
The CSI of one or more node is fed back in individual subframe, X (X >=1) bit is used to refer to the Ni configured in high-rise configuration in addition.
Preferably, receiving side is received in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
2 bit signallings in up and/or descending control signaling trigger receiving side in n+k (k >=4) subframe and later continuous Ni-1
The CSI of one or more node is fed back in individual subframe, wherein 1 bit is used to refer to whether trigger PUSCH CSI in 2 bits
Feedback, 1 bit be used to refer to whether frequency hopping.Other X (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, receiving side is received in n-th (n >=0) individual subframe in the Physical Downlink Control Channel of network side transmission
It is in n+k (k >=4) subframe and later continuous that M (M >=3) bit signalling in up and/or descending control signaling triggers receiving side
Ni-1 subframe on feed back the CSI of one or more node, 1 bit is used to refer to whether trigger PUSCH wherein in M-bit
CSI feedback, M-1 bits are used to refer to the candidate's frequency pattern whether frequency hopping and/or frequency hopping are used.Other X (X >=1) ratios
Spy is used to refer to the Ni configured in high-rise configuration.
Preferably, know that module 42 is obtained by receiving fixed form configuration in the high-level signaling or standard that network side is sent
Know that the lasting number of subframes N (N >=1) of a set of PUSCH triggerings feedback and the number of sub frames X (X >=1) of feedback interval are used for once touching
Subframe after hair at interval of X feeds back a CSI, is used for feeding back the CSI of one or more node in N number of subframe altogether.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later at interval of X's
Subframe feeds back a CSI, feeds back the CSI of one or more node in N number of subframe altogether.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
2 bit signallings in up and/or descending control signaling trigger receiving side in n+k (k >=4) subframe and later at interval of X's
Subframe feeds back a CSI, the CSI of one or more node is fed back in N number of subframe altogether, wherein 1 bit is used to refer in 2 bits
Show the CSI feedback for whether triggering PUSCH, 1 bit be used to refer to whether frequency hopping.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
M (M >=3) bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and at interval of X
Subframe feed back a CSI, the CSI of one or more node is fed back in N number of subframe altogether, wherein 1 bit is used in M-bit
Indicate whether triggering PUSCH CSI feedback, M-1 bits are used to refer to the candidate's hopping pattern whether frequency hopping and/or frequency hopping are used
Sample.
Preferably, know that module 42 is obtained by receiving fixed form configuration in the high-level signaling or standard that network side is sent
Know lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) and the feedback of a set of PUSCH triggerings feedback
The subframe that the number of sub frames X (X >=1) at interval is used at interval of X after once triggering feeds back a CSI, is used altogether in Ni subframe
To feed back the CSI of one or more node.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later at interval of X's
Subframe feeds back a CSI, feeds back the CSI of one or more node in Ni subframe altogether.Other X (X >=1) bit is used to refer to
Show the Ni configured in high-rise configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
2 bit signallings in up and/or descending control signaling trigger receiving side in n+k (k >=4) subframe and later at interval of X's
Subframe feeds back a CSI, the CSI of one or more node is fed back in Ni subframe altogether, wherein 1 bit is used in 2 bits
Indicate whether trigger PUSCH CSI feedback, 1 bit be used to refer to whether frequency hopping.Other X (X >=1) bit is used to refer to high level
The Ni configured in configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
M (M >=3) bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and at interval of X
Subframe feed back a CSI, the CSI of one or more node is fed back in Ni subframe altogether, wherein in M-bit 1 bit use
To indicate whether the CSI feedback for triggering PUSCH, M-1 bits are used to refer to the candidate's frequency hopping whether frequency hopping and/or frequency hopping are used
Pattern.Other X (X >=1) bit is used to refer to the Ni configured in high-rise configuration.
Preferably, know that module 42 is obtained by receiving fixed form configuration in the high-level signaling or standard that network side is sent
Know the lasting number of subframes N (N >=1) of a set of PUSCH triggerings feedback and number of sub frames list { X1, X2 ... Xn } (Xi of feedback interval
>=1, n >=1,1≤i≤n) it is used for the subframe CSI of feedback at interval of X after once triggering, it is used for altogether in N number of subframe anti-
Present the CSI of one or more node.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later at interval of Xi's
Subframe feeds back a CSI, feeds back the CSI of one or more node in N number of subframe altogether.Other Y (Y >=1) bit is used to refer to
Show the Xi configured in high-rise configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
2 bit signallings in up and/or descending control signaling trigger receiving side in n+k (k >=4) subframe and later at interval of Xi's
Subframe feeds back a CSI, the CSI of one or more node is fed back in N number of subframe altogether, wherein 1 bit is used to refer in 2 bits
Show the CSI feedback for whether triggering PUSCH, 1 bit be used to refer to whether frequency hopping.Other Y (Y >=1) bit is used to refer to high level and matched somebody with somebody
Put the Xi of middle configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
M (M >=3) bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and at interval of Xi
Subframe feed back a CSI, the CSI of one or more node is fed back in N number of subframe altogether, wherein 1 bit is used in M-bit
Indicate whether triggering PUSCH CSI feedback, M-1 bits are used to refer to the candidate's hopping pattern whether frequency hopping and/or frequency hopping are used
Sample.Other Y (Y >=1) bit is used to refer to the Xi configured in high-rise configuration.
Preferably, know that module 42 is obtained by receiving fixed form configuration in the high-level signaling or standard that network side is sent
Know lasting number of subframes list { N1, N2 ..., Nn } (Ni >=1, i >=1,1≤i≤n) and the feedback of a set of PUSCH triggerings feedback
The number of sub frames list { X1, X2 ... Xm } (Xe >=1, m >=1,1≤e≤m) at interval is used for the subframe at interval of X after once triggering
A CSI is fed back, is used for feeding back the CSI of one or more node in N number of subframe altogether.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later at interval of Xi's
Subframe feeds back a CSI, feeds back the CSI of one or more node in N number of subframe altogether.Y (Y >=1) bit is used to refer to height
The Xi that configures in layer configuration, in addition S (X >=1) bit be used to refer to the Ni configured in high-rise configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
2 bit signallings in up and/or descending control signaling trigger receiving side in n+k (k >=4) subframe and later at interval of Xi's
Subframe feeds back a CSI, the CSI of one or more node is fed back in N number of subframe altogether, wherein 1 bit is used to refer in 2 bits
Show the CSI feedback for whether triggering PUSCH, 1 bit be used to refer to whether frequency hopping.Y (Y >=1) bit is used to refer in high-rise configuration
The Xi of configuration, in addition S (X >=1) bit be used to refer to the Ni configured in high-rise configuration.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
M (M >=3) bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and at interval of Xi
Subframe feed back a CSI, the CSI of one or more node is fed back in N number of subframe altogether, wherein 1 bit is used in M-bit
Indicate whether triggering PUSCH CSI feedback, M-1 bits are used to refer to the candidate's hopping pattern whether frequency hopping and/or frequency hopping are used
Sample.Y (Y >=1) bit is used to refer to the Xi configured in high-rise configuration, and S (X >=1) bit is used to refer to match somebody with somebody in high-rise configuration in addition
The Ni put.
Preferably, know that module 42 carries out PUSCH feedbacks by receiving the physical layer signaling triggering that network side is sent, and
Carry out the CSI for feeding back one or more node based on PUSCH afterwards in some continuous subframes that once triggering will be, until
The physical layer signaling that receiving side receives network side transmission indicates receiving side release PUSCH feedbacks.
Preferably, receiving side is detected in n-th (n >=0) individual subframe in the Physical Downlink Control Channel that network side is sent
1 bit signalling in up and/or descending control signaling triggers receiving side in n+k (k >=4) subframe and later continuous subframe
CSI is fed back, until detecting release PUSCH feedback signalings in Physical Downlink Control Channel.
Reached the standard grade system the embodiments of the invention provide a kind of business, the system can be used for realizing above-mentioned method.Fig. 5 is
Business according to embodiments of the present invention is reached the standard grade the structured flowchart of system, as shown in figure 5, including network side and receiving side, wherein, net
Network side includes:Notification module 32, receiving module 34, detection module 36;Receiving side includes:Know module 42 and feedback module 44.
Its structure is described in detail below.
Notification module 32, for notifying receiving side by fixed form in high-level signaling or standard or physical layer signaling
Frequency-hopping mode and/or Physical Resource Block pair based on Physical Resource Block are utilized in the subframe of one or more Uplink Shared Channels
Frequency-hopping mode feed back the channel condition information CSI of one or more nodes;Receiving module 34, is connected to notification module 32, uses
After being notified according to notification module 32, the CSI of one or more nodes is received;Detection module 36, is connected to receiving module 34,
CSI for detecting one or more nodes.Module 42 is known, for by receiving high-level signaling or mark that network side is sent
Fixed form or physical layer signaling, which are informed in the subframe of one or more Uplink Shared Channels, in standard utilizes based on physics money
The frequency-hopping mode of source block and/or the frequency-hopping mode of Physical Resource Block pair feed back the CSI of one or more nodes;Node feeding back module
44, it is connected to and knows module 42, for according to the content that module 42 is known is known, in the son of one or more Uplink Shared Channels
It is one or more of using the frequency-hopping mode feedback of the frequency-hopping mode based on Physical Resource Block and/or Physical Resource Block pair on frame
The CSI of node.
It should be noted that the business eedle threader and system described in device embodiment and system embodiment correspond to it is upper
The embodiment of the method stated, its concrete implementation process had carried out detailed description in embodiment of the method, will not be repeated here.
In summary, there is provided a kind of feedback based on Physical Uplink Shared Channel according to the abovementioned embodiments of the present invention
Collocation method, apparatus and system.By the present invention, network side passes through fixed form or physical layer in high-level signaling or standard
Signal receiving side in the subframe of one or more Uplink Shared Channels using based on Physical Resource Block frequency-hopping mode and/
Or the frequency-hopping mode of Physical Resource Block pair feeds back the CSI of multiple nodes, so that network side can be properly received and detect
Go out the CSI of corresponding node, the present invention both ensure that the capacity of PUCCH under existing standards, and in turn ensure that CSI accuracy.
Obviously, those skilled in the art should be understood that above-mentioned each module of the invention or each step can be with general
Computing device realize that they can be concentrated on single computing device, or be distributed in multiple computing devices and constituted
Network on, alternatively, the program code that they can be can perform with computing device be realized, it is thus possible to they are stored
Performed in the storage device by computing device, either they are fabricated to respectively each integrated circuit modules or by they
In multiple modules or step single integrated circuit module is fabricated to realize.So, the present invention is not restricted to any specific
Hardware and software is combined.
The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the invention, for the skill of this area
For art personnel, the present invention can have various modifications and variations.Within the spirit and principles of the invention, that is made any repaiies
Change, equivalent substitution, improvement etc., should be included in the scope of the protection.
Claims (21)
1. a kind of feedback configuration method based on Physical Uplink Shared Channel, it is characterised in that including:
Network side notifies receiving side one or more by fixed form in high-level signaling or standard or physical layer signaling
The frequency-hopping mode based on Physical Resource Block and/or the frequency hopping side based on Physical Resource Block pair are utilized in the subframe of Uplink Shared Channel
Formula feeds back the channel condition information CSI of one or more nodes;
Receive the CSI of one or more of nodes;
Detect the CSI of one or more of nodes.
2. according to the method described in claim 1, it is characterised in that network side passes through fixed form in high-level signaling or standard
Or physical layer signaling notifies receiving side to be utilized in the subframe of one or more Uplink Shared Channels based on Physical Resource Block
The CSI that frequency-hopping mode and/or frequency-hopping mode based on Physical Resource Block pair feed back one or more nodes includes:The network side
The lasting subframe of a set of PUSCH triggerings feedback of the receiving side is allocated to by fixed form in the high-level signaling or standard
Number N is used to refer to the receiving side continuous N number of subframe after once triggering and is used for feeding back one or more of sections
The CSI of point, wherein N >=1.
3. according to the method described in claim 1, it is characterised in that network side passes through fixed form in high-level signaling or standard
Or physical layer signaling notifies receiving side to be utilized in the subframe of one or more Uplink Shared Channels based on Physical Resource Block
The CSI that frequency-hopping mode and/or frequency-hopping mode based on Physical Resource Block pair feed back one or more nodes includes:The network side
The lasting subframe of a set of PUSCH triggerings feedback of the receiving side is allocated to by fixed form in the high-level signaling or standard
Number list { N1, N2 ..., Nn } is used to refer to the receiving side continuous Ni subframes after once triggering and is used for feeding back institute
The CSI of one or more node is stated, wherein, Ni >=1, n >=1,1≤i≤n.
4. according to the method described in claim 1, it is characterised in that network side passes through fixed form in high-level signaling or standard
Or physical layer signaling notifies receiving side to be utilized in the subframe of one or more Uplink Shared Channels based on Physical Resource Block
The CSI that frequency-hopping mode and/or frequency-hopping mode based on Physical Resource Block pair feed back one or more nodes includes:The network side
The lasting subframe of a set of PUSCH triggerings feedback of the receiving side is allocated to by fixed form in the high-level signaling or standard
The number of sub frames X of number N and feedback interval is used to refer to the subframe of the receiving side at interval of X after once triggering and feeds back one
The secondary CSI, is used for feeding back the CSI of one or more of nodes in N number of subframe altogether, wherein, N >=1, X
≥1。
5. according to the method described in claim 1, it is characterised in that network side passes through fixed form in high-level signaling or standard
Or physical layer signaling notifies receiving side to be utilized in the subframe of one or more Uplink Shared Channels based on Physical Resource Block
The CSI that frequency-hopping mode and/or frequency-hopping mode based on Physical Resource Block pair feed back one or more nodes includes:The network side
The lasting subframe of a set of PUSCH triggerings feedback of the receiving side is allocated to by fixed form in the high-level signaling or standard
The number of sub frames X of number list { N1, N2 ..., Nn } and feedback interval is used to refer to the sons of the UE at interval of X after once triggering
Frame feeds back the once CSI, is used for feeding back the CSI of one or more of nodes in the Ni subframes altogether, its
In, Ni >=1, n >=1,1≤i≤n, X >=1.
6. according to the method described in claim 1, it is characterised in that network side passes through fixed form in high-level signaling or standard
Or physical layer signaling notifies receiving side to be utilized in the subframe of one or more Uplink Shared Channels based on Physical Resource Block
The CSI that frequency-hopping mode and/or frequency-hopping mode based on Physical Resource Block pair feed back one or more nodes includes:The network side
The lasting subframe of a set of PUSCH triggerings feedback of the receiving side is allocated to by fixed form in the high-level signaling or standard
The number of sub frames list { X1, X2 ... Xn } of number N and feedback interval is used to refer to the receiving side after once triggering at interval of X
The subframe feedback once CSI, be used for feeding back described in one or more of nodes in N number of subframe altogether
CSI, wherein, N >=1, Xe >=1, n >=1,1≤e≤n.
7. according to the method described in claim 1, it is characterised in that network side passes through fixed form in high-level signaling or standard
Or physical layer signaling notifies receiving side to be utilized in the subframe of one or more Uplink Shared Channels based on Physical Resource Block
The CSI that frequency-hopping mode and/or frequency-hopping mode based on Physical Resource Block pair feed back one or more nodes includes:The network side
The lasting subframe of a set of PUSCH triggerings feedback of the receiving side is allocated to by fixed form in the high-level signaling or standard
Number list { N1, N2 ..., Nn } and the number of sub frames list { X1, X2 ... Xm } of feedback interval are used to refer to the receiving side one
At interval of the X subframe feedback once CSI after secondary triggering, altogether N number of subframe be used for feeding back it is one or
The CSI of the multiple nodes of person, wherein, Ni >=1, n >=1,1≤i≤n, Xe >=1, m >=1,1≤e≤m.
8. according to the method described in claim 1, it is characterised in that network side passes through fixed form in high-level signaling or standard
Or physical layer signaling notifies receiving side to be utilized in the subframe of one or more Uplink Shared Channels based on Physical Resource Block
The CSI that frequency-hopping mode and/or frequency-hopping mode based on Physical Resource Block pair feed back one or more nodes includes:The network side
The receiving side is triggered by the physical layer signaling and carries out PUSCH feedbacks, and that once triggering will be afterwards is some continuous
The CSI of the one or more of nodes of feedback based on PUSCH is carried out in the subframe, until the network side passes through
The physical layer signaling indicates the receiving side release PUSCH feedbacks.
9. according to the method described in claim 1, it is characterised in that network side passes through fixed form in high-level signaling or standard
Or physical layer signaling notifies receiving side to be utilized in the subframe of one or more Uplink Shared Channels based on Physical Resource Block
The CSI that frequency-hopping mode and/or frequency-hopping mode based on Physical Resource Block pair feed back one or more nodes includes:The network side
The receiving side is triggered by the physical layer signaling and carries out PUSCH feedbacks, and that once triggering will be afterwards is some continuous
The CSI of the one or more of nodes of feedback based on PUSCH is carried out in the subframe, until the network side passes through
The physical layer signaling indicates the receiving side release PUSCH feedbacks, the network side need by the high-level signaling or
Fixed form notifies the number of sub frames X of the receiving side feedback interval is used to refer to the receiving side every after once triggering in standard
The subframe for being spaced X feeds back the once CSI, wherein, X >=1.
10. according to the method described in claim 1, it is characterised in that network side passes through fixation side in high-level signaling or standard
Formula or physical layer signaling notify receiving side is utilized in the subframe of one or more Uplink Shared Channels to be based on Physical Resource Block
Frequency-hopping mode and/or frequency-hopping mode based on Physical Resource Block pair feed back the CSI of one or more nodes and include:The network
Side triggers the receiving side by the physical layer signaling and carries out PUSCH feedbacks, and if involvement that once triggering will be afterwards
Continue the CSI that the one or more of nodes of feedback based on PUSCH are carried out in the subframe, until the network side is logical
Cross the physical layer signaling and indicate the receiving side release PUSCH feedbacks, the network side need by the high-level signaling or
Fixed form notifies the number of sub frames list { X1, X2 ... Xm } of the receiving side feedback interval to be used to refer to described connect in person's standard
Receive the subframe of the side at interval of Xi after once triggering and feed back the once CSI, wherein, Xe >=1, m >=1,1≤e≤m.
11. a kind of feedback configuration method based on Physical Uplink Shared Channel, it is characterised in that including:
Receiving side is informed in by receiving fixed form or physical layer signaling in the high-level signaling or standard that network side is sent
Using the frequency-hopping mode based on Physical Resource Block and/or based on Physical Resource Block in the subframe of one or more Uplink Shared Channels
To frequency-hopping mode feed back the CSI of one or more nodes;
Using the frequency-hopping mode based on Physical Resource Block and/or based on physics in the subframe of one or more Uplink Shared Channels
The frequency-hopping mode of resource block pair feeds back the CSI of one or more of nodes.
12. method according to claim 11, it is characterised in that receiving side is by receiving the high-level signaling that network side is sent
Or fixed form or physical layer signaling are informed in the subframe of one or more Uplink Shared Channels using being based in standard
The frequency-hopping mode of Physical Resource Block and/or frequency-hopping mode based on Physical Resource Block pair feed back the CSI bags of one or more nodes
Include:The receiving side knows one by receiving fixed form configuration in the high-level signaling or standard that the network side is sent
The lasting number of subframes N of set PUSCH triggering feedbacks is used for continuous N number of subframe after once triggering and is used for feeding back one
Or the CSI of multiple nodes, wherein, N >=1.
13. method according to claim 11, it is characterised in that receiving side is by receiving the high-level signaling that network side is sent
Or fixed form or physical layer signaling are informed in the subframe of one or more Uplink Shared Channels using being based in standard
The frequency-hopping mode of Physical Resource Block and/or frequency-hopping mode based on Physical Resource Block pair feed back the CSI bags of one or more nodes
Include:Fixed form configuration is known a set of in the high-level signaling or standard that the receiving side reception network side is sent
The lasting number of subframes list { N1, N2 ..., Nn } that PUSCH triggerings are fed back is used for after once triggering described in continuous Ni
Subframe is used for feeding back the CSI of one or more of nodes, wherein, Ni >=1, n >=1,1≤i≤n.
14. method according to claim 11, it is characterised in that receiving side is by receiving the high-level signaling that network side is sent
Or fixed form or physical layer signaling are informed in the subframe of one or more Uplink Shared Channels using being based in standard
The frequency-hopping mode of Physical Resource Block and/or frequency-hopping mode based on Physical Resource Block pair feed back the CSI bags of one or more nodes
Include:Fixed form configuration is known a set of in the high-level signaling or standard that the receiving side reception network side is sent
The lasting number of subframes N of PUSCH triggering feedbacks and the number of sub frames X of feedback interval are used for after once triggering at interval of described in X
Subframe feeds back the once CSI, is used for feeding back the CSI of one or more of nodes in N number of subframe altogether, its
In, N >=1, X >=1.
15. method according to claim 11, it is characterised in that receiving side is by receiving the high-level signaling that network side is sent
Or fixed form or physical layer signaling are informed in the subframe of one or more Uplink Shared Channels using being based in standard
The frequency-hopping mode of Physical Resource Block and/or frequency-hopping mode based on Physical Resource Block pair feed back the CSI bags of one or more nodes
Include:Fixed form configuration is known a set of in the high-level signaling or standard that the receiving side reception network side is sent
The lasting number of subframes list { N1, N2 ..., Nn } of PUSCH triggering feedbacks and the number of sub frames X of feedback interval are used for once triggering
The subframe at interval of X feeds back the once CSI afterwards, is used for feeding back one or more of in the Ni subframes altogether
The CSI of node, wherein, Ni >=1, n >=1,1≤i≤n, X >=1.
16. method according to claim 11, it is characterised in that receiving side is by receiving the high-level signaling that network side is sent
Or fixed form or physical layer signaling are informed in the subframe of one or more Uplink Shared Channels using being based in standard
The frequency-hopping mode of Physical Resource Block and/or frequency-hopping mode based on Physical Resource Block pair feed back the CSI bags of one or more nodes
Include:Fixed form configuration is known a set of in the high-level signaling or standard that the receiving side reception network side is sent
The lasting number of subframes N and feedback interval of PUSCH triggering feedbacks number of sub frames list { X1, X2 ... Xn } are used for once triggering
The subframe at interval of X feeds back the once CSI afterwards, is used for feeding back one or more of in N number of subframe altogether
The CSI of node, wherein, N >=1, Xe >=1, n >=1,1≤i≤n.
17. method according to claim 11, it is characterised in that receiving side is by receiving the high-level signaling that network side is sent
Or fixed form or physical layer signaling are informed in the subframe of one or more Uplink Shared Channels using being based in standard
The frequency-hopping mode of Physical Resource Block and/or frequency-hopping mode based on Physical Resource Block pair feed back the CSI bags of one or more nodes
Include:Fixed form configuration is known a set of in the high-level signaling or standard that the receiving side reception network side is sent
The lasting number of subframes list { N1, N2 ..., Nn } of PUSCH triggering feedbacks and number of sub frames list { X1, the X2 ... of feedback interval
Xm } the once CSI is fed back for the subframe at interval of X after once triggering, it is used for feeding back in N number of subframe altogether
The CSI of one or more of nodes, wherein, Ni >=1, n >=1,1≤i≤n, Xe >=1, m >=1,1≤e≤m.
18. method according to claim 11, it is characterised in that receiving side is by receiving the high-level signaling that network side is sent
Or fixed form or physical layer signaling are informed in the subframe of one or more Uplink Shared Channels using being based in standard
The frequency-hopping mode of Physical Resource Block and/or frequency-hopping mode based on Physical Resource Block pair feed back the CSI bags of one or more nodes
Include:The receiving side receives the physical layer signaling triggering progress PUSCH feedbacks that the network side is sent, and once triggers
Carry out the CSI of the one or more of nodes of feedback based on PUSCH afterwards in some continuous subframes that will be,
Until the physical layer signaling that the receiving side receives the network side transmission indicates that the receiving side release PUSCH is anti-
Feedback.
19. a kind of feedback configuration device based on Physical Uplink Shared Channel, it is characterised in that including:
Notification module, for notifying receiving side at one by fixed form in high-level signaling or standard or physical layer signaling
Or using the frequency-hopping mode based on Physical Resource Block in the subframe of multiple Uplink Shared Channels and/or based on Physical Resource Block pair
Frequency-hopping mode feeds back the channel condition information CSI of one or more nodes;
Receiving module, the CSI for receiving one or more of nodes;
Detection module, the CSI for detecting one or more of nodes.
20. a kind of feedback configuration device based on Physical Uplink Shared Channel, it is characterised in that including:
Module is known, for fixed form or physical layer signaling in the high-level signaling or standard by receiving network side transmission
It is informed in the subframe of one or more Uplink Shared Channels using the frequency-hopping mode based on Physical Resource Block and/or based on physics
The frequency-hopping mode of resource block pair feeds back the CSI of one or more nodes;
Feedback module, for utilizing the frequency-hopping mode based on Physical Resource Block in the subframe of one or more Uplink Shared Channels
And/or the frequency-hopping mode based on Physical Resource Block pair feeds back the CSI of one or more of nodes.
21. a kind of feedback configuration system based on Physical Uplink Shared Channel, it is characterised in that including network side and receiving side;
Wherein, the network side includes:
Notification module, for notifying receiving side at one by fixed form in high-level signaling or standard or physical layer signaling
Or using the frequency-hopping mode based on Physical Resource Block in the subframe of multiple Uplink Shared Channels and/or based on Physical Resource Block pair
Frequency-hopping mode feeds back the channel condition information CSI of one or more nodes;
Receiving module, the CSI for receiving one or more of nodes;
Detection module, the CSI for detecting one or more of nodes;
The receiving side includes:
Module is known, for fixed form or institute in the high-level signaling or standard by receiving the network side transmission
State physical layer signaling be informed in the subframe of one or more Uplink Shared Channels utilize based on the Physical Resource Block and/
Or the frequency-hopping mode of the Physical Resource Block pair feeds back the CSI of one or more of nodes;
Feedback module, for utilizing the frequency-hopping mode based on Physical Resource Block in the subframe of one or more Uplink Shared Channels
And/or the frequency-hopping mode based on Physical Resource Block pair feeds back the CSI of one or more of nodes.
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CN105393486B (en) * | 2014-06-27 | 2019-07-23 | 华为技术有限公司 | The transmission method and device of PUSCH |
CN106549694A (en) * | 2015-09-18 | 2017-03-29 | 电信科学技术研究院 | The method of reseptance of channel condition information, feedback method, device, base station and terminal |
CN107888265B (en) * | 2016-09-30 | 2019-08-23 | 中兴通讯股份有限公司 | The feedback method and device of channel information, terminal, base station |
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CN101867447A (en) * | 2010-04-30 | 2010-10-20 | 中兴通讯股份有限公司 | Feedback method of channel state information and terminal |
CN101911523A (en) * | 2008-01-08 | 2010-12-08 | Lg电子株式会社 | Method for transmitting and receiving channel state information periodically or aperiodically |
CN102047603A (en) * | 2008-03-31 | 2011-05-04 | 爱立信电话股份有限公司 | Method and arrangements in a telecommunications system |
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CN101911523A (en) * | 2008-01-08 | 2010-12-08 | Lg电子株式会社 | Method for transmitting and receiving channel state information periodically or aperiodically |
CN102047603A (en) * | 2008-03-31 | 2011-05-04 | 爱立信电话股份有限公司 | Method and arrangements in a telecommunications system |
CN101867447A (en) * | 2010-04-30 | 2010-10-20 | 中兴通讯股份有限公司 | Feedback method of channel state information and terminal |
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