CN109560907A - A kind of user equipment that be used to wirelessly communicate, the method and apparatus in base station - Google Patents
A kind of user equipment that be used to wirelessly communicate, the method and apparatus in base station Download PDFInfo
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- CN109560907A CN109560907A CN201710890302.4A CN201710890302A CN109560907A CN 109560907 A CN109560907 A CN 109560907A CN 201710890302 A CN201710890302 A CN 201710890302A CN 109560907 A CN109560907 A CN 109560907A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0048—Allocation of pilot signals, i.e. of signals known to the receiver
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/0091—Signaling for the administration of the divided path
- H04L5/0092—Indication of how the channel is divided
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/02—Arrangements for optimising operational condition
Abstract
This application discloses the method and apparatus in a kind of user equipment that be used to wirelessly communicate, base station.User equipment sends the first information and M first kind reference signal group, then sends N number of second class reference signal group and Q1A third class reference signal.Wherein, the first information indicates Q2It is a to gather relevant information;Each first kind reference signal group is belonging respectively to and only belongs to the Q in the M first kind reference signal group2A set in a set;N number of second class reference signal group and N number of first kind reference signal group correspond;Each first kind reference signal group is belonging respectively to and only belongs to Q in N number of first kind reference signal group1A set in a set, the Q1A set is the Q2Q in a set1It is a, the Q1A set and the Q1A third class reference signal corresponds.The above method can reduce the expense of third class reference signal.
Description
Technical field
This application involves the transmission method of the wireless signal in wireless communication system and device, especially support Cellular Networks
The transmission method and device of wireless signal in wireless communication system.
Background technique
In a wireless communication system, reference signal is always to guarantee one of the necessary means of communication quality.With traditional LTE
(Long Term Evolution, long term evolution) system is compared, and NR (New Radio, novel radio telecommunication) system should prop up
Low-frequency range (<6GHz) is held, high band (>6GHz) also to be supported to transmit.In high band, shadow of the phase error to channel estimating performance
Sound can not be ignored, therefore beg in 3GPP (3rd Generation Partner Project, third generation cooperative partner program) NR
Have agreed to send PTRS (Phase-Tracking Reference Signal, Phase Tracking reference signal) in for connecing
Receiving end carries out Phase Tracking, promotes precision of channel estimation by carrying out phase compensation in channel estimation.
It has agreed to configure one or two DMRS to UE (User Equipment, user equipment) in 3GPPNR discussion
(Demodulation Reference Signal, demodulated reference signal) port set, a port PTRS and a DMRS port
A DMRS port in group is related, and in a given RB (Resource Block, resource block), the port the PTRS quilt
It is carried on the corresponding subcarrier of the DMRS port.PTRS also with MCS (the Modulation and that matches to sub-data transmission
Coding Scheme, modulation coding scheme) it is related with scheduling bandwidth, the value of only MCS and scheduling bandwidth is in a certain range
When, PTRS is just sent, PTRS is not otherwise sent.
Summary of the invention
Inventors discovered through research that PTRS port number is related with the number of DMRS port group, also make with transmission DMRS
Oscillator number on radio-frequency channel is related.If the radio-frequency channel for forming the analog beam in two DMRS port groups is total
With the same oscillator, then the two DMRS port groups, which can correspond to the identical port PTRS, both realizes Phase Tracking to reach
The purpose of pilot-frequency expense is saved again.Otherwise, the two DMRS port groups must correspond to the different ports PTRS.Therefore, how really
It is desirable which DMRS port group PTRS port number corresponding to fixed multiple DMRS port groups and each port PTRS, which correspond to,
It solves the problems, such as.
In view of the above-mentioned problems, this application discloses a solution.It should be noted that in the absence of conflict,
The feature in embodiment and embodiment in the UE (User Equipment, user equipment) of the application can be applied to base station
In, vice versa.Further, in the absence of conflict, the feature in embodiments herein and embodiment can be any
It is combined with each other.
This application discloses a kind of methods in user equipment for wireless communication characterized by comprising
It sends the first information and M first kind reference signal group, the M is greater than 1 positive integer;
Send N number of second class reference signal group and Q1A third class reference signal, the N are no more than the just whole of the M
Number, the Q1It is no more than the positive integer of the N;
Wherein, the first information indicates Q2It is a to gather relevant information, the Q2It is no less than the Q1And no more than institute
State the positive integer of M;Each first kind reference signal group is belonging respectively to and only belongs to institute in the M first kind reference signal group
State Q2A set in a set;N number of second class reference signal group and N number of first kind reference signal group correspond,
N number of first kind reference signal group is the subset of the M first kind reference signal group;N number of first kind reference signal
Each first kind reference signal group is belonging respectively to and only belongs to Q in group1A set in a set, the Q1In a set
Any one set include N number of first kind reference signal group at least one first kind reference signal group, the Q1
A set is the Q2Q in a set1It is a, the Q1A set and the Q1A third class reference signal corresponds;For
The Q1Any given set in a set, third class reference signal corresponding with the given set are associated with target ginseng
Signal group is examined, the target reference signal group includes that all corresponding first kind reference signal groups belong to the given set
Two class reference signal groups.
As one embodiment, the essence of the above method is, M first kind reference signal group is M SRS
(Sounding Reference Signal, detection reference signal) group, all SRS in each SRS group are by identical radio frequency
Channel is sent, and the SRS of different SRS groups is sent by different radio-frequency channels;The first information indicates this M SRS group being divided into Q2It is a
Gather, the corresponding radio-frequency channel of all SRS groups in the same set is total to the same oscillator;N number of second class reference signal
Group is N number of DMRS group, and N number of DMRS group is corresponding with N number of SRS group in M SRS group respectively, a corresponding DMRS group and one
A SRS group is sent in identical analog beam or identical radio-frequency channel;Q1A third class reference signal is respectively by Q1A day
The Q that line end mouth is sent1A PTRS;According to the first information, it can know that N number of SRS group is comprised in Q2Q in a set1A set
Interior and Q1Each set in a set includes which SRS group in N number of SRS group;Q1A PTRS is respectively and Q1A set pair
It answers, it is corresponding with the SRS group in this set that corresponding one PTRS and set means that this PTRS is associated with
DMRS group.It is advantageous in that using the above method, the first information is reported by UE, base station can be inferred that N number of DMRS group pair
The PTRS port number and each port PTRS answered are associated with which of N number of DMRS group group.
According to the one aspect of the application, the above method is characterized in that, the Q2The relevant information of a set includes { institute
State the index of set belonging to each of M first kind reference signal group reference signal group, the Q2In at least before
Person, set belonging to each of described M first kind reference signal group reference signal group is the Q2One of a set.
According to the one aspect of the application, the above method is characterized in that, the Q2The relevant information of a set includes { institute
State Q2The index for the first kind reference signal group that each of a set set includes, the Q2In at least the former.
According to the one aspect of the application, the above method is characterised by comprising:
Receive the second information;
Wherein, second information is used for determining the M first kind reference signal group, the transmission of second information
Prior to the transmission of the first information.
According to the one aspect of the application, the above method is characterised by comprising:
Send third information;
Receive the 4th information;
Wherein, the third information is used for determining { M, the ginseng that the M first kind reference signal group respectively includes
At least one of examine the number of signal };4th information is used for determining the M first kind reference signal group;It is described
Transmission of the transmission of the first information and the third information prior to the 4th information.
According to the one aspect of the application, the above method is characterised by comprising:
Receive the 5th information;
Wherein, the 5th information is used for determining H the 4th class reference signal groups, the M first kind reference signal
Group is the subset of the H the 4th class reference signal groups, and the H is no less than the positive integer of the M.
According to the one aspect of the application, the above method is characterised by comprising:
Receive the 6th information, the 7th information and the 8th information;
Wherein, the 6th information is used for determining N number of first object reference signal, and N number of first object is with reference to letter
Number it is belonging respectively to N number of first kind reference signal group;7th information is used for determining N number of second class reference signal
Group;8th information is used for determining the Q1A third class reference signal.
This application discloses a kind of methods in base station equipment for wireless communication characterized by comprising
It receives the first information and M first kind reference signal group, the M is greater than 1 positive integer;
Receive N number of second class reference signal group and Q1A third class reference signal, the N are no more than the just whole of the M
Number, the Q1It is no more than the positive integer of the N;
Wherein, the first information indicates Q2It is a to gather relevant information, the Q2It is no less than the Q1And no more than institute
State the positive integer of M;Each first kind reference signal group is belonging respectively to and only belongs to institute in the M first kind reference signal group
State Q2A set in a set;N number of second class reference signal group and N number of first kind reference signal group correspond,
N number of first kind reference signal group is the subset of the M first kind reference signal group;N number of first kind reference signal
Each first kind reference signal group is belonging respectively to and only belongs to Q in group1A set in a set, the Q1In a set
Any one set include N number of first kind reference signal group at least one first kind reference signal group, the Q1
A set is the Q2Q in a set1It is a, the Q1A set and the Q1A third class reference signal corresponds;For
The Q1Any given set in a set, third class reference signal corresponding with the given set are associated with target ginseng
Signal group is examined, the target reference signal group includes that all corresponding first kind reference signal groups belong to the given set
Two class reference signal groups.
According to the one aspect of the application, the above method is characterized in that, the Q2The relevant information of a set includes { institute
State the index of set belonging to each of M first kind reference signal group reference signal group, the Q2In at least before
Person, set belonging to each of described M first kind reference signal group reference signal group is the Q2One of a set.
According to the one aspect of the application, the above method is characterized in that, the Q2The relevant information of a set includes { institute
State Q2The index for the first kind reference signal group that each of a set set includes, the Q2In at least the former.
According to the one aspect of the application, the above method is characterised by comprising:
Send the second information;
Wherein, second information is used for determining the M first kind reference signal group, the transmission of second information
Prior to the transmission of the first information.
According to the one aspect of the application, the above method is characterised by comprising:
Receive third information;
Send the 4th information;
Wherein, the third information is used for determining { M, the ginseng that the M first kind reference signal group respectively includes
At least one of examine the number of signal };4th information is used for determining the M first kind reference signal group;It is described
Transmission of the transmission of the first information and the third information prior to the 4th information.
According to the one aspect of the application, the above method is characterised by comprising:
Send the 5th information;
Wherein, the 5th information is used for determining H the 4th class reference signal groups, the M first kind reference signal
Group is the subset of the H the 4th class reference signal groups, and the H is no less than the positive integer of the M.
According to the one aspect of the application, the above method is characterised by comprising:
Send the 6th information, the 7th information and the 8th information;
Wherein, the 6th information is used for determining N number of first object reference signal, and N number of first object is with reference to letter
Number it is belonging respectively to N number of first kind reference signal group;7th information is used for determining N number of second class reference signal
Group;8th information is used for determining the Q1A third class reference signal.
This application discloses a kind of user equipmenies for wireless communication characterized by comprising
- the first transmitter module, sends the first information and M first kind reference signal group, the M be greater than 1 it is just whole
Number;Send N number of second class reference signal group and Q1A third class reference signal, the N are no more than the positive integer of the M, institute
State Q1It is no more than the positive integer of the N;
Wherein, the first information indicates Q2It is a to gather relevant information, the Q2It is no less than the Q1And no more than institute
State the positive integer of M;Each first kind reference signal group is belonging respectively to and only belongs to institute in the M first kind reference signal group
State Q2A set in a set;N number of second class reference signal group and N number of first kind reference signal group correspond,
N number of first kind reference signal group is the subset of the M first kind reference signal group;N number of first kind reference signal
Each first kind reference signal group is belonging respectively to and only belongs to Q in group1A set in a set, the Q1In a set
Any one set include N number of first kind reference signal group at least one first kind reference signal group, the Q1
A set is the Q2Q in a set1It is a, the Q1A set and the Q1A third class reference signal corresponds;For
The Q1Any given set in a set, third class reference signal corresponding with the given set are associated with target ginseng
Signal group is examined, the target reference signal group includes that all corresponding first kind reference signal groups belong to the given set
Two class reference signal groups.
As one embodiment, above-mentioned user equipment is characterized in that, the Q2It is a to gather relevant information including { described
The index of set belonging to each of M first kind reference signal group reference signal group, the Q2In at least before
Person, set belonging to each of described M first kind reference signal group reference signal group is the Q2One of a set.
As one embodiment, above-mentioned user equipment is characterized in that, the Q2It is a to gather relevant information including { described
Q2The index for the first kind reference signal group that each of a set set includes, the Q2In at least the former.
As one embodiment, above-mentioned user equipment is characterized in that, the user equipment includes:
- the first receiver module receives the second information;
Wherein, second information is used for determining the M first kind reference signal group, the transmission of second information
Prior to the transmission of the first information.
As one embodiment, above-mentioned user equipment is characterized in that, first transmitter module also sends third letter
Breath, first receiver module also receive the 4th information;The third information is used for determining the { M, the M a first
At least one of the number for the reference signal that class reference signal group respectively includes };4th information is used for determining the M
A first kind reference signal group;Transmission of the transmission of the first information and the third information prior to the 4th information.
As one embodiment, above-mentioned user equipment is characterized in that, first receiver module also receives the 5th letter
Breath;5th information is used for determining that H the 4th class reference signal groups, the M first kind reference signal group are the H
The subset of 4th class reference signal group, the H are no less than the positive integer of the M.
As one embodiment, above-mentioned user equipment is characterized in that, first receiver module also receives the 6th letter
Breath, the 7th information and the 8th information;6th information is used for determining N number of first object reference signal, N number of first mesh
Mark reference signal is belonging respectively to N number of first kind reference signal group;7th information is used for determining N number of second class
Reference signal group;8th information is used for determining the Q1A third class reference signal.
This application discloses a kind of base station equipments for wireless communication characterized by comprising
- the second receiver module, receives the first information and M first kind reference signal group, the M be greater than 1 it is just whole
Number;Receive N number of second class reference signal group and Q1A third class reference signal, the N are no more than the positive integer of the M, institute
State Q1It is no more than the positive integer of the N;
Wherein, the first information indicates Q2It is a to gather relevant information, the Q2It is no less than the Q1And no more than institute
State the positive integer of M;Each first kind reference signal group is belonging respectively to and only belongs to institute in the M first kind reference signal group
State Q2A set in a set;N number of second class reference signal group and N number of first kind reference signal group correspond,
N number of first kind reference signal group is the subset of the M first kind reference signal group;N number of first kind reference signal
Each first kind reference signal group is belonging respectively to and only belongs to Q in group1A set in a set, the Q1In a set
Any one set include N number of first kind reference signal group at least one first kind reference signal group, the Q1
A set is the Q2Q in a set1It is a, the Q1A set and the Q1A third class reference signal corresponds;For
The Q1Any given set in a set, third class reference signal corresponding with the given set are associated with target ginseng
Signal group is examined, the target reference signal group includes that all corresponding first kind reference signal groups belong to the given set
Two class reference signal groups.
As one embodiment, above-mentioned base station equipment is characterized in that, the Q2It is a to gather relevant information including { described
The index of set belonging to each of M first kind reference signal group reference signal group, the Q2In at least before
Person, set belonging to each of described M first kind reference signal group reference signal group is the Q2One of a set.
As one embodiment, above-mentioned base station equipment is characterized in that, the Q2It is a to gather relevant information including { described
Q2The index for the first kind reference signal group that each of a set set includes, the Q2In at least the former.
As one embodiment, above-mentioned base station equipment is characterized in that, the base station equipment includes:
- the second transmitter module sends the second information;
Wherein, second information is used for determining the M first kind reference signal group, the transmission of second information
Prior to the transmission of the first information.
As one embodiment, above-mentioned base station equipment is characterized in that, second receiver also receives third information, institute
It states the second transmitter and also sends the 4th information;The third information is used for determining { M, the M first kind reference signal
At least one of the number for the reference signal that group respectively includes };4th information is used for determining the M first kind ginseng
Examine signal group;Transmission of the transmission of the first information and the third information prior to the 4th information.
As one embodiment, above-mentioned base station equipment is characterized in that, second transmitter also sends the 5th information;Institute
It states the 5th information and is used for determining that H the 4th class reference signal groups, the M first kind reference signal group are the H the 4th
The subset of class reference signal group, the H are no less than the positive integer of the M.
As one embodiment, above-mentioned base station equipment is characterized in that, second transmitter also sends the 6th information,
Seven information and the 8th information;6th information is used for determining N number of first object reference signal, N number of first object ginseng
It examines signal and is belonging respectively to N number of first kind reference signal group;7th information is used for determining N number of second class reference
Signal group;8th information is used for determining the Q1A third class reference signal.
As one embodiment, existing public technology is compared, the application has following major technique advantage:
- reports the relevant information of the corresponding set of multiple SRS groups by UE, and base station can know that this multiple SRS group corresponds to
Radio-frequency channel oscillator between relationship, and then be inferred to pair of PTRS port number and the port PTRS and DMRS port
It should be related to.
- .PTRS port number can be less than the number of DMRS port group, so that pilot-frequency expense is reduced, lifting system performance.
Detailed description of the invention
By reading referring to the detailed description of non-limiting embodiments in the following drawings, other spies of the application
Sign, objects and advantages will become more apparent:
Fig. 1 shows the first information of one embodiment according to the application, M first kind reference signal group, and N number of second
Class reference signal group and Q1The flow chart of a third class reference signal;
Fig. 2 shows the schematic diagrames according to the network architecture of one embodiment of the application;
Fig. 3 shows the reality of the radio protocol architecture of the user plane and control plane according to one embodiment of the application
Apply the schematic diagram of example;
Fig. 4 shows the schematic diagram of enode and UE according to one embodiment of the application;
Fig. 5 shows the flow chart of the wireless transmission of one embodiment according to the application;
Fig. 6 shows the flow chart of the wireless transmission of another embodiment according to the application;
Fig. 7 shows the Q of one embodiment according to the application2A schematic diagram for gathering relevant information;
Fig. 8 shows the Q of another embodiment according to the application2A schematic diagram for gathering relevant information;
Fig. 9 shows the Q of one embodiment according to the application1A set, Q2A set, N number of first kind reference signal
Group, N number of second class reference signal group and Q1The schematic diagram of the relationship of a third class reference signal;
Figure 10 A-10D respectively illustrates N number of second class reference signal group and Q of one embodiment according to the application1It is a
The associated schematic diagram of third class reference signal;
Figure 11 shows the structural block diagram for the processing unit in user equipment of one embodiment according to the application;
Figure 12 shows the structural block diagram for the processing unit in base station equipment of one embodiment according to the application.
Specific embodiment
It is described in further detail below in conjunction with technical solution of the attached drawing to the application, it should be noted that do not rushing
In the case where prominent, the feature in embodiments herein and embodiment can be arbitrarily combined with each other.
Embodiment 1
Embodiment 1 illustrates the first information, M first kind reference signal group, N number of second class reference signal group and Q1A
The flow chart of three classes reference signal, as shown in Fig. 1.
In embodiment 1, the user equipment in the application sends the first information and M first kind reference signal group,
The M is greater than 1 positive integer;Then N number of second class reference signal group and Q are sent1A third class reference signal, the N are
No more than the positive integer of the M, the Q1It is no more than the positive integer of the N.Wherein, the first information indicates Q2A set
Relevant information, the Q2It is no less than the Q1And it is not more than the positive integer of the M;In the M first kind reference signal group
Each first kind reference signal group is belonging respectively to and only belongs to the Q2A set in a set;N number of second class
Reference signal group and N number of first kind reference signal group correspond, and N number of first kind reference signal group is the M first
The subset of class reference signal group;In N number of first kind reference signal group each first kind reference signal group be belonging respectively to and
Only belong to Q1A set in a set, the Q1Any one set in a set includes N number of first kind with reference to letter
At least one first kind reference signal group in number group, the Q1A set is the Q2Q in a set1It is a, the Q1A collection
It closes and the Q1A third class reference signal corresponds;For the Q1Any given set in a set gives with described
Gather corresponding third class reference signal and be associated with target reference signal group, the target reference signal group includes all correspondences
First kind reference signal group belong to the second class reference signal group of the given set.
As one embodiment, the first information is carried by higher level signaling.
As one embodiment, the first information is by RRC (Radio Resource Control, wireless heterogeneous networks)
Signaling bear.
As one embodiment, the first information is an IE (Information in a RRC signaling
Element, information unit) all or part of.
As one embodiment, the first information is by MAC (Medium Access Control, media access control)
CE (Control Element, control unit) signaling bear.
As one embodiment, the first information is semi-statically configured.
As one embodiment, the first information is dynamic configuration.
As one embodiment, the first information is carried by physical layer signaling.
As one embodiment, the first information is by UCI (ascending control information, Uplink Control
Information) signaling bear.
As one embodiment, the first information is a domain (field) in a UCI signaling, and the domain includes
Positive integer bit.
As one embodiment, the first information (can be used to carry physical layer by upstream physical layer data channel
The up channel of data) carrying.
As one embodiment, the first information is by PUSCH (Physical Uplink Shared Channel, object
Manage Uplink Shared Channel) carrying.
As one embodiment, the first information is carried by sPUSCH (short PUSCH, short PUSCH).
As one embodiment, the first information is held by NR-PUSCH (New Radio PUSCH, new wireless PUSCH)
It carries.
As one embodiment, the first information is held by NB-PUSCH (Narrow Band PUSCH, narrowband PUSCH)
It carries.
As one embodiment, the first information (can be only used in carrying physics by upstream physical layer control channel
The up channel of layer signaling) carrying.
As one embodiment, the first information is by PUCCH (Physical Uplink Control Channel, object
Manage uplink control channel) carrying.
As one embodiment, the first information is carried by sPUCCH (short PUCCH, short PUCCH).
As one embodiment, the first information is held by NR-PUCCH (New Radio PUCCH, new wireless PUCCH)
It carries.
As one embodiment, the first information is held by NB-PUCCH (Narrow Band PUCCH, narrowband PUCCH)
It carries.
As one embodiment, any one first kind reference signal group in the M first kind reference signal group is equal
It is made of SRS.
As one embodiment, any one second class reference signal group in N number of second class reference signal group is equal
It is made of DMRS.
As one embodiment, any one second class reference signal group in N number of second class reference signal group is sent
In whole antenna ports of all reference signals be considered as QCL (Quasi Co-Located, quasi- co-located).
As one embodiment, the second class of any two reference letter in N number of second class reference signal group is sent respectively
The antenna port of number group is considered not being QCL.
As one embodiment, if the wireless signal large-scale fading parameter energy experienced that an antenna port is sent
It is used to be inferred to the wireless signal large-scale fading parameter experienced of another antenna port transmission, the two antenna ports
It is considered as QCL.
As one embodiment, if the wireless signal large-scale fading parameter experienced that an antenna port is sent is not
It can be used to be inferred to the wireless signal large-scale fading parameter experienced of another antenna port transmission, the two antenna ends
Mouth is considered not being QCL.
As one embodiment, the large-scale fading parameter includes that { Doppler (Doppler) extends (Spread), more
At least one of Pu Le slides (shift) }.
As one embodiment, the large-scale fading parameter includes maximum multipath delay.
As one embodiment, in any one first kind reference signal group in the M first kind reference signal group
All reference signals all sent by identical radio-frequency channel.
As one embodiment, any two first kind reference signal group is not by the M first kind reference signal group
Same radio-frequency channel is sent.
As one embodiment, at least two first kind reference signal groups in the M first kind reference signal group
It sends radio-frequency channel and shares the same oscillator.
As one embodiment, the Q1Less than the Q2。
As one embodiment, the N is less than the M.
As one embodiment, the Q2Any one set in a set includes the M first kind reference signal
At least one first kind reference signal in group.
As one embodiment, the Q2The transmission for all reference signals that any one set in a set includes is penetrated
Frequency channel shares the same oscillator.
As one embodiment, the Q2A set respectively corresponds Q2A oscillator.
As one embodiment, the Q2A set respectively corresponds Q2A antenna port.
As one embodiment, the M is equal to 2, the Q2Equal to 1 or 2.
As one embodiment, the M is equal to 2, and the first information is carried by 1 bit signalling.
As one embodiment, the Q1A third class reference signal is by Q1A PTRS composition.
As one embodiment, the Q1The antenna port number of a third class reference signal is 1.
As one embodiment, the third class reference signal, which is associated with target reference signal group and refers to, sends described the
One antenna port of three classes reference signal and an antenna port of the transmission target reference signal group are by identical antenna
It sends, and corresponding identical precoding vector.
As one embodiment, the third class reference signal is associated with target reference signal group and refers to the third class
It is experienced small that reference signal small scale channel fading parameters experienced can be used to be inferred to the target reference signal group
Scale channel fading parameters.
As one embodiment, the third class reference signal is associated with target reference signal group and refers to the third class
Reference signal can be used to compensate for the phase noise of target reference signal group.
Embodiment 2
Embodiment 2 illustrates the schematic diagram of the network architecture, as shown in Fig. 2.
Attached drawing 2 illustrates LTE (Long-Term Evolution, long term evolution), LTE-A (Long-Term
Evolution Advanced, enhance long term evolution) and future 5G system the network architecture 200.LTE network framework 200 can claim
For EPS (Evolved Packet System, evolved packet system) 200.EPS 200 may include one or more UE
(User Equipment, user equipment) 201, E-UTRAN-NR (evolution UMTS Terrestrial Radio Access Network network-is new wireless)
202,5G-CN (5G-CoreNetwork, 5G core net)/EPC (Evolved Packet Core, evolution block core) 210,
HSS (Home Subscriber Server, home signature user server) 220 and Internet service 230.Wherein, UMTS pairs
Answer universal mobile telecommunications service (Universal Mobile Telecommunications System).EPS can connect with other
Enter network interconnection, but in order to not show these entity/interfaces simply.As shown in Fig. 2, EPS offer packet-switched services, however institute
The technical staff in category field will be apparent that each conception of species presented through the application, which extends to, provides circuit switched service
Network.E-UTRAN-NR includes NR node B (gNB) 203 and other gNB204.GNB203 provides user and control towards UE201
Plane protocol terminations processed.GNB203 can be connected to other gNB204 via X2 interface (for example, backhaul).GNB203 is alternatively referred to as base
It stands, base transceiver station, radio base station, radio transceiver, transceiver function, set of basic (BSS), extended service set
Close (ESS), TRP (transmitting and receiving point) or some other suitable term.GNB203 is provided for UE201 and is connect to 5G-CN/EPC210
Access point.The example of UE201 includes cellular phone, smart phone, session initiation protocol (SIP) phone, laptop computer, a
Personal digital assistant (PDA), satelline radio, global positioning system, multimedia device, video-unit, digital audio-frequency player (example
Such as, MP3 player), camera, game console, unmanned plane, aircraft, narrowband Physical Network equipment, machine type communication device,
Land craft, automobile, wearable device or any other like functional device.Those skilled in the art can also incite somebody to action
UE201 be known as mobile station, subscriber stations, mobile unit, subscriber unit, radio-cell, remote unit, mobile device, wireless device,
Wireless communication device, remote-control device, mobile subscriber stations, access terminal, mobile terminal, wireless terminal, remote terminal, hand-held set,
User agent, mobile client, client or some other suitable term.GNB203 is connected to 5G-CN/ by S1 interface
EPC210.5G-CN/EPC210 include MME 211, other MME214, S-GW (Service Gateway, gateway) 212 with
And P-GW (Packet Date Network Gateway, grouped data network gateway) 213.MME211 be processing UE201 with
The control node of signaling between 5G-CN/EPC210.Generally, MME211 provides carrying and connection management.All User IPs
(Internet Protocal, Internet Protocol) packet is transmitted by S-GW212, and S-GW212 is itself coupled to P-GW213.P-
GW213 provides the distribution of UE IP address and other functions.P-GW213 is connected to Internet service 230.Internet service 230 is wrapped
It includes operator and corresponds to the Internet protocol service, specifically may include internet, Intranet, IMS (IP Multimedia
Subsystem, IP multimedia subsystem) and PS streaming service (PSS).
As one embodiment, the UE201 corresponds to the user equipment in the application.
As one embodiment, the gNB203 corresponds to the base station in the application.
Embodiment 3
Embodiment 3 illustrates user plane and controls the schematic diagram of the embodiment of the radio protocol architecture of plane, such as attached drawing 3
It is shown.
Attached drawing 3 is schematic diagram of the explanation for the embodiment of user plane and the radio protocol architecture for controlling plane, attached
Fig. 3 shows the radio protocol architecture for being used for UE and gNB: layer 1, layer 2 and layer 3 with three layers.1 (L1 layers) of layer are lowermost layer and reality
Apply various PHY (physical layer) signal processing function.L1 layers are referred to as PHY301 herein.Layer 2 (L2 layers) 305 PHY301 it
On, and be responsible for passing through link of the PHY301 between UE and gNB.In user plane, L2 layer 305 includes MAC (Medium
Access Control, media access control) sublayer 302, RLC (Radio Link Control, radio link layer control association
View) sublayer 303 and PDCP (Packet Data Convergence Protocol, Packet Data Convergence Protocol) sublayer 304, this
A little layer terminates at the gNB on network side.Although it is not shown, but UE can have several upper layers on L2 layer 305, wrap
The network layer (for example, IP layers) terminated at the P-GW213 on network side and the other end for terminating at connection are included (for example, distal end
UE, server etc.) at application layer.The multichannel that PDCP sublayer 304 is provided between different radio carrying and logic channel is multiple
With.PDCP sublayer 304 also provides the header compressed for upper layer data packet to reduce radio transmitting expense, by encrypting number
Safety is provided according to packet, and the handover to UE provided between gNB is supported.Rlc sublayer 303 provides top layer data
The Segmentation and Reassembly of packet fills, re-emitting for lost data packets and reordering to compensate the nothing as caused by HARQ for data packet
Sequence receives.Media access control sublayer 302 provides the multiplexing between logical AND transport channel.Media access control sublayer 302 is also responsible for dividing between UE
With the various radio resources (for example, resource block) in a cell.Media access control sublayer 302 is also responsible for HARQ operation.In control plane
In, the radio protocol architecture for UE and gNB is substantially the same for physical layer 301 and L2 layer 305, but is not used for
Control the header compressed function of plane.Control plane further include in layer 3 (L3 layers) RRC (Radio Resource Control,
Radio resource control) sublayer 306.RRC sublayer 306 be responsible for obtain radio resource (that is, radio bearer) and using gNB with
RRC signaling between UE configures lower layer.
The user equipment of the radio protocol architecture suitable for the application as one embodiment, in attached drawing 3.
The base station of the radio protocol architecture suitable for the application as one embodiment, in attached drawing 3.
As one embodiment, the first information in the application is created on the RRC sublayer 306.
As one embodiment, the first information in the application is created on the media access control sublayer 302.
As one embodiment, the first information in the application is created on the PHY301.
As one embodiment, the M first kind reference signal group in the application is created on the PHY301.
As one embodiment, N number of second class reference signal group in the application is created on the PHY301.
The Q as one embodiment, in the application1A third class reference signal is created on the PHY301.
As one embodiment, second information in the application is created on the RRC sublayer 306.
As one embodiment, second information in the application is created on the media access control sublayer 302.
As one embodiment, second information in the application is created on the PHY301.
As one embodiment, the third information in the application is created on the RRC sublayer 306.
As one embodiment, the third information in the application is created on the media access control sublayer 302.
As one embodiment, the third information in the application is created on the PHY301.
As one embodiment, the 4th information in the application is created on the RRC sublayer 306.
As one embodiment, the 4th information in the application is created on the media access control sublayer 302.
As one embodiment, the 4th information in the application is created on the PHY301.
As one embodiment, the 5th information in the application is created on the RRC sublayer 306.
As one embodiment, the 5th information in the application is created on the media access control sublayer 302.
As one embodiment, the 6th information in the application is created on the PHY301.
As one embodiment, the 7th information in the application is created on the PHY301.
As one embodiment, the 8th information in the application is created on the PHY301.
Embodiment 4
Embodiment 4 illustrates enode and the schematic diagram of UE, as shown in Fig. 4.
Attached drawing 4 is the block diagram of the gNB410 communicated within the access network with UE450.In DL (Downlink, downlink), come
It provides from the upper layer packets of core network to controller/processor 475.Controller/processor 475 implements L2 layers of functionality.
In DL, controller/processor 475 provides header compressed, encryption, packet segmentation and reorders, between logical AND transport channel
Multiplexing, and based on the measurement of various priority to the radio resources allocation of UE450.Controller/processor 475 is also responsible for
HARQ operation, lost package re-emit, and to the signaling of UE450.Transmited processor 416 is implemented for L1 layers (that is, physics
Layer) various signal processing functions.Signal processing function includes decoding and is interleaved to promote the forward error correction at UE450
(FEC) and based on various modulation schemes (for example, binary phase shift keying (BPSK), quadrature phase shift keying (QPSK), M phase shift key
Control (M-PSK), M quadrature amplitude modulation (M-QAM)) mapping to signal cluster.It will then be divided through decoding and modulated symbol
For parallel stream.Every one stream is then mapped to multicarrier subcarrier, in the time and/or frequency domain with reference signal (for example, leading
Frequently it multiplexes, and is then combined using fast Fourier inverse transformation (IFFT) to generate carrying time domain multicarrier symbol)
Number stream physical channel.Multicarrier flows through space predecoded to generate multiple spatial flows.Each spatial flow is then via transmitter
418 are provided to different antennae 420.Each transmitter 418 is to modulate RF carrier wave for the additional space stream of transmitting.At UE450,
Each receiver 454 receives signal by its respective antenna 452.Each receiver 454 restores the information being modulated in RF carrier wave,
And it provides information into and receives processor 456.Receive the various signal processing functions that processor 456 implements L1 layers.Reception processing
Device 456 executes spatial manipulation to restore any spatial flow using UE450 as destination to information.If multiple spatial flows with
UE450 is destination, then it can be combined in single multicarrier symbol stream by reception processor 456.Receive processor 456 with
Multicarrier symbol stream is transformed into frequency domain from time domain using Fast Fourier Transform (FFT) afterwards.Frequency-region signal includes being used for overloading
The independent multicarrier symbol stream of each subcarrier of wave signal.Symbol and reference signal on each subcarrier are to pass through determination
Restored by the most probable signal constellation points of gNB410 transmitting and demodulated, and generates soft decision.Described in subsequent decoding and release of an interleave
Soft decision is to restore on the physical channel by the data of gNB410 original transmitted and control signal.Then by data and control signal
Controller/processor 459 is provided.Controller/processor 459 implements L2 layers.Controller/processor can be with storage program code
It is associated with the memory 460 of data.Memory 460 can be described as computer-readable media.In DL, controller/processor 459
Demultiplexing between conveying and logic channel is provided, package-restructuring dress, decryption, header decompression, controls signal processing to restore
Upper layer packets from core network.Upper layer packets are then provided to all protocol layers on L2 layers.It can also be by various controls
Signal processed is provided to L3 to handle for L3.Controller/processor 459 is also responsible for using confirmation (ACK) and/or negative confirmation
(NACK) agreement carries out error detection to support HARQ operation.It, will be upper using data source 467 in UL (Uplink, uplink)
Portion's layer packet, which provides, arrives controller/processor 459.Data source 467 indicates all protocol layers on L2 layers.Similar to combination
The DL of gNB410 emits described function, and controller/processor 459 is mentioned by the radio resources allocation based on gNB410
For header compressed, encryption, packet segmentation and reorder and logical AND transport channel between multiplexing, to implement for user
The L2 layer of plane and control plane.Controller/processor 459 is also responsible for HARQ operation, lost package re-emits, and arrives
The signaling of gNB410.Coding appropriate and modulation scheme are selected by transmited processor 468, and promote spatial manipulation.By transmitting
The spatial flow that device 468 generates is managed to provide via independent transmitter 454 to different antennae 452.Each transmitter 454 is for emitting
Additional space stream modulate RF carrier wave.Similar mode exists in a manner of being similar to and combine the description of the receiver function at UE450
UL transmitting is handled at gNB410.Each receiver 418 receives signal by its respective antenna 420.Each receiver 418 restores to adjust
The information in RF carrier wave is made, and provides information into and receives processor 470.Receive implementable L1 layers of processor 470.Control
Device/processor 475 implements L2 layers.Controller/processor 475 can be associated with the memory 476 of storage program code and data.
Memory 476 can be described as computer-readable media.In UL, controller/processor 475 is provided between conveying and logic channel
Demultiplexing, package-restructuring dress, decryption, header decompression, control signal processing are to restore the upper layer packets from UE450.It comes from
The upper layer packets of controller/processor 475 can provide core network.Controller/processor 475 be also responsible for using ACK and/or
NACK agreement carries out error detection to support HARQ operation.
As one embodiment, the UE450 includes: at least one processor and at least one processor, it is described extremely
A few memory includes computer program code;At least one processor and the computer program code are configured to
It is used together at least one described processor.
As one embodiment, the UE450 includes: a kind of memory for storing computer-readable instruction program, described
The generation when being executed by least one processor of computer-readable instruction program acts, and the movement includes: to send in the application
The first information and M first kind reference signal group;Send the N number of second class reference signal group and Q in the application1
A third class reference signal;Send the third information in the application;Receive second information in the application;Receive this
The 4th information in application;Receive the 5th information in the application;Receive the 6th information in the application, the
Seven information and the 8th information.
As one embodiment, the gNB410 includes: at least one processor and at least one processor, it is described extremely
A few memory includes computer program code;At least one processor and the computer program code are configured to
It is used together at least one described processor.
As one embodiment, the gNB410 includes: a kind of memory for storing computer-readable instruction program, described
The generation when being executed by least one processor of computer-readable instruction program acts, and the movement includes: to receive in the application
The first information and M first kind reference signal group;Receive the N number of second class reference signal group and Q in the application1
A third class reference signal;Receive the third information in the application;Send second information in the application;Send this
The 4th information in application;Send the 5th information in the application;Send the 6th information in the application, the
Seven information and the 8th information.
As one embodiment, the UE450 corresponds to the user equipment in the application.
As one embodiment, the gNB410 corresponds to the base station in the application.
As one embodiment, the transmitter 454 (including antenna 452), the transmited processor 468 and the control
At least the above two in device/processor 459 be used to send the first information in the application and the M first kind with reference to letter
Number group, the receiver 418 (including antenna 420), in the reception processor 470 and the controller/processor 475 extremely
Few the above two be used to receive the first information and M first kind reference signal group in the application.
As one embodiment, the transmitter 454 (including antenna 452), the transmited processor 468 and the control
At least the above two in device/processor 459 be used to send N number of second class reference signal group and Q in the application1It is a
Third class reference signal, the receiver 418 (including antenna 420), the reception processor 470 and the controller/processing
At least the above two in device 475 be used to receive N number of second class reference signal group and Q in the application1A third class
Reference signal.
As one embodiment, the transmitter 454 (including antenna 452), the transmited processor 468 and the control
At least the above two in device/processor 459 be used to send the third information in the application, the 418 (packet of receiver
Include antenna 420), described at least the above two received in processor 470 and the controller/processor 475 be used to receive
The third information in the application.
As one embodiment, the transmitter 418 (including antenna 420), the transmited processor 416 and the control
At least the above two in device/processor 475 be used to send the 4th information in the application, the 454 (packet of receiver
Include antenna 452), described at least the above two received in processor 456 and the controller/processor 459 be used to receive
The 4th information in the application.
As one embodiment, the transmitter 418 (including antenna 420), the transmited processor 416 and the control
At least the above two in device/processor 475 be used to send the 5th information in the application, the 454 (packet of receiver
Include antenna 452), described at least the above two received in processor 456 and the controller/processor 459 be used to receive
The 5th information in the application.
As one embodiment, the transmitter 418 (including antenna 420), the transmited processor 416 and the control
At least the above two in device/processor 475 be used to send the 6th information, the 7th information and the 8th letter in the application
It ceases, the receiver 454 (including antenna 452), in the reception processor 456 and the controller/processor 459 at least
The above two be used to receive the 6th information, the 7th information and the 8th information in the application.
Embodiment 5
Embodiment 5 illustrates the flow chart of wireless transmission, as shown in Fig. 5.In figure 5, base station N1 is user equipment
The serving cell of U2 maintains base station.In attached drawing 5, box F1 is optional.
For N1, the 5th information is sent in step slo;The second information is sent in step s 11;It connects in step s 12
Receive M first kind reference signal group;The first information is received in step s 13;The 6th information, the 7th letter are sent in step S14
Breath and the 8th information;N number of second class reference signal group and Q1 third class reference signal are received in step S15.
For U2, the 5th information is received in step S20;The second information is received in the step s 21;It is sent out in step S22
Send M first kind reference signal group;The first information is sent in step S23;The 6th information, the 7th letter are received in step s 24
Breath and the 8th information;N number of second class reference signal group and Q1 third class reference signal are sent in step s 25.
In embodiment 5, the first information indicates that Q2 is gathered relevant information, the Q2 be no less than the Q1 and
No more than the positive integer of the M;In the M first kind reference signal group each first kind reference signal group be belonging respectively to and
Only belong to a set in the Q2 set;N number of second class reference signal group and N number of first kind reference signal group one
One is corresponding, and N number of first kind reference signal group is the subset of the M first kind reference signal group;N number of first kind ginseng
It examines each first kind reference signal group in signal group to be belonging respectively to and only belong to a set in Q1 set, the Q1 is a
Any one set in set includes at least one first kind reference signal group in N number of first kind reference signal group,
The Q1 set is Q1 in the Q2 set, and the Q1 set and the Q1 third class reference signal one are a pair of
It answers;For any given set in described Q1 set, third class reference signal corresponding with the given set is associated
To target reference signal group, the target reference signal group includes that all corresponding first kind reference signal groups belong to described give
Second class reference signal group of set;Second information is by the U2 for determining the M first kind reference signal group, institute
State transmission of the transmission prior to the first information of the second information;5th information is by the U2 for determining H the 4th classes
Reference signal group, the M first kind reference signal group are the subsets of the H the 4th class reference signal groups, and the H is not small
In the positive integer of the M;6th information is by the U2 for determining N number of first object reference signal, N number of first mesh
Mark reference signal is belonging respectively to N number of first kind reference signal group;7th information is described N number of for determining by the U2
Second class reference signal group;8th information is by the U2 for determining the Q1 third class reference signal.
As one embodiment, the first information is carried by higher level signaling.
As one embodiment, the first information is by RRC (Radio Resource Control, wireless heterogeneous networks)
Signaling bear.
As one embodiment, the first information is an IE (Information in a RRC signaling
Element, information unit) all or part of.
As one embodiment, the first information is by MAC (Medium Access Control, media access control)
CE (Control Element, control unit) signaling bear.
As one embodiment, the first information is semi-statically configured.
As one embodiment, the first information is dynamic configuration.
As one embodiment, the first information is carried by physical layer signaling.
As one embodiment, the first information is by UCI (ascending control information, Uplink Control
Information) signaling bear.
As one embodiment, the first information is a domain (field) in a UCI signaling, and the domain includes
Positive integer bit.
As one embodiment, the first information (can be used to carry physical layer by upstream physical layer data channel
The up channel of data) carrying.
As one embodiment, the first information is by PUSCH (Physical Uplink Shared Channel, object
Manage Uplink Shared Channel) carrying.
As one embodiment, the first information is carried by sPUSCH (short PUSCH, short PUSCH).
As one embodiment, the first information is held by NR-PUSCH (New Radio PUSCH, new wireless PUSCH)
It carries.
As one embodiment, the first information is held by NB-PUSCH (Narrow Band PUSCH, narrowband PUSCH)
It carries.
As one embodiment, the first information (can be only used in carrying physics by upstream physical layer control channel
The up channel of layer signaling) carrying.
As one embodiment, the first information is by PUCCH (Physical Uplink Control Channel, object
Manage uplink control channel) carrying.
As one embodiment, the first information is carried by sPUCCH (short PUCCH, short PUCCH).
As one embodiment, the first information is held by NR-PUCCH (New Radio PUCCH, new wireless PUCCH)
It carries.
As one embodiment, the first information is held by NB-PUCCH (Narrow Band PUCCH, narrowband PUCCH)
It carries.
As one embodiment, any one first kind reference signal group in the M first kind reference signal group is equal
It is made of SRS.
As one embodiment, any one second class reference signal group in N number of second class reference signal group is equal
It is made of DMRS.
As one embodiment, any one second class reference signal group in N number of second class reference signal group is sent
In whole antenna ports of all reference signals be considered as QCL (Quasi Co-Located, quasi- co-located).
As one embodiment, the second class of any two reference letter in N number of second class reference signal group is sent respectively
The antenna port of number group is considered not being QCL.
As one embodiment, if the wireless signal large-scale fading parameter energy experienced that an antenna port is sent
It is used to be inferred to the wireless signal large-scale fading parameter experienced of another antenna port transmission, the two antenna ports
It is considered as QCL.
As one embodiment, if the wireless signal large-scale fading parameter experienced that an antenna port is sent is not
It can be used to be inferred to the wireless signal large-scale fading parameter experienced of another antenna port transmission, the two antenna ends
Mouth is considered not being QCL.
As one embodiment, in any one first kind reference signal group in the M first kind reference signal group
All reference signals all sent by identical radio-frequency channel.
As one embodiment, any two first kind reference signal group is not by the M first kind reference signal group
Same radio-frequency channel is sent.
As one embodiment, at least two first kind reference signal groups in the M first kind reference signal group
It sends radio-frequency channel and shares the same oscillator.
As one embodiment, the Q1Less than the Q2。
As one embodiment, the N is less than the M.
As one embodiment, the Q2Any one set in a set includes the M first kind reference signal
At least one first kind reference signal in group.
As one embodiment, the Q2The transmission for all reference signals that any one set in a set includes is penetrated
Frequency channel shares the same oscillator.
As one embodiment, the Q2A set respectively corresponds Q2A oscillator.
As one embodiment, the Q2A set respectively corresponds Q2A antenna port.
As one embodiment, the M is equal to 2, the Q2Equal to 1 or 2.
As one embodiment, the M is equal to 2, and the first information is carried by 1 bit signalling.
As one embodiment, the Q1The transmission for all reference signals that any one set in a set includes is penetrated
Frequency channel shares the same oscillator.
As one embodiment, the Q1A third class reference signal is by Q1A PTRS composition.
As one embodiment, the Q1The antenna port number of a third class reference signal is 1.
As one embodiment, the second class reference signal group and the first kind reference signal group be corresponding refer to it is described
Second class reference signal group is related at least one reference signal space in the first kind reference signal group.
As one embodiment, the second class reference signal group and the first kind reference signal group be corresponding refer to it is described
Send the reference of at least one of all antenna ports and the transmission first kind reference signal group of the second class reference signal group
The antenna port of signal is considered as QCL.
As one embodiment, the large-scale fading parameter includes that { Doppler (Doppler) extends (Spread), more
At least one of Pu Le slides (shift) }.
As one embodiment, the large-scale fading parameter includes maximum multipath delay.
As one embodiment, the second class reference signal group and the first kind reference signal group be corresponding refer to it is described
Send the reference of at least one of all antenna ports and the transmission first kind reference signal group of the second class reference signal group
Transmission wave beam on the antenna port of signal is identical.
As one embodiment, the second class reference signal group and the first kind reference signal group be corresponding refer to it is described
Send the reference of at least one of all antenna ports and the transmission first kind reference signal group of the second class reference signal group
Precoding vector on the antenna port of signal is identical.
As one embodiment, the second class reference signal group and first kind reference signal group correspondence refer to transmission
The reference of at least one of all antenna ports of the second class reference signal group and the transmission first kind reference signal group
Analog beam excipient coefficient on the antenna port of signal is identical.
As one embodiment, the third class reference signal, which is associated with target reference signal group and refers to, sends described the
One occupied subcarrier of antenna port of three classes reference signal belongs to all antennas for sending the target reference signal group
An occupied subcarrier of antenna port in port.
As one embodiment, the third class reference signal, which is associated with target reference signal group and refers to, sends described the
One occupied subcarrier of antenna port of three classes reference signal belongs to all antennas for sending the target reference signal group
The occupied subcarrier of minimum antenna port in port.
As one embodiment, the third class reference signal, which is associated with target reference signal group and refers to, sends described the
One antenna port of three classes reference signal and an antenna port of the transmission target reference signal group are by identical antenna
It sends, and corresponding identical precoding vector.
As one embodiment, the third class reference signal is associated with target reference signal group and refers to the third class
It is experienced small that reference signal small scale channel fading parameters experienced can be used to be inferred to the target reference signal group
Scale channel fading parameters.
As one embodiment, the third class reference signal is associated with target reference signal group and refers to the third class
Reference signal can be used to compensate for the phase noise of target reference signal group.
As one embodiment, the second information explicit instruction M first kind reference signal group.
As one embodiment, the second information implicit instruction M first kind reference signal group.
As one embodiment, second information is carried by higher level signaling.
As one embodiment, second information is carried by RRC signaling.
As one embodiment, second information is all or part of of an IE in a RRC signaling.
As one embodiment, second information is by MACCE signaling bear.
As one embodiment, second information is at SIB (System Information Block, system information block)
Middle transmission.
As one embodiment, second information is semi-statically configured.
As one embodiment, second information is dynamic configuration.
As one embodiment, second information is carried by physical layer signaling.
As one embodiment, second information is by DCI (Downlink Control Information, Downlink Control
Information) signaling bear.
As one embodiment, second information is a domain (field) in a DCI signaling, and the domain includes
Positive integer bit.
As one embodiment, second information (is simply possible to use in carrying physical layer by down physical layer control channel
The down channel of signaling) carrying.
As one embodiment, second information by PDCCH (Physical Downlink Control Channel,
Physical Downlink Control Channel) carrying.
As one embodiment, second information is carried by sPDCCH (short PDCCH, short PDCCH).
As one embodiment, second information is held by NR-PDCCH (New Radio PDCCH, new wireless PDCCH)
It carries.
As one embodiment, second information is held by NB-PDCCH (NarrowBand PDCCH, narrowband PDCCH)
It carries.
As one embodiment, the M first kind reference signal group is by the M in the H the 4th class reference signal groups
A reference signal group composition.
As one embodiment, in the H the 4th class reference signal groups any one the 4th class reference signal group by
SRS composition.
As one embodiment, in the H the 4th class reference signal groups at least M the 4th class reference signal groups by
SRS composition.
As one embodiment, explicit H the 4th class reference signal groups of instruction of the 5th information.
As one embodiment, implicit H the 4th class reference signal groups of instruction of the 5th information.
As one embodiment, the 5th information is carried by higher level signaling.
As one embodiment, the 5th information is carried by RRC signaling.
As one embodiment, the 5th information is all or part of of an IE in a RRC signaling.
As one embodiment, the 5th information is by MACCE signaling bear.
As one embodiment, the 5th information is transmitted in SIB.
As one embodiment, the 5th information is semi-statically configured.
As one embodiment, the 6th information is dynamic configuration.
As one embodiment, the 6th information is carried by physical layer signaling.
As one embodiment, the 6th information is by DCI signaling bear.
As one embodiment, the 6th information is a domain in a DCI signaling, and the domain includes positive integer
Bit.
As one embodiment, the 6th information is carried by down physical layer control channel.
As one embodiment, the 6th information is carried by PDCCH.
As one embodiment, the 6th information is carried by sPDCCH.
As one embodiment, the 6th information is carried by NR-PDCCH.
As one embodiment, the 6th information is carried by NB-PDCCH.
As one embodiment, the 7th information is dynamic configuration.
As one embodiment, the 7th information is carried by physical layer signaling.
As one embodiment, the 7th information is by DCI signaling bear.
As one embodiment, the 7th information is a domain in a DCI signaling, and the domain includes positive integer
Bit.
As one embodiment, the 7th information is carried by down physical layer control channel.
As one embodiment, the 7th information is carried by PDCCH.
As one embodiment, the 7th information is carried by sPDCCH.
As one embodiment, the 7th information is carried by NR-PDCCH.
As one embodiment, the 7th information is carried by NB-PDCCH.
As one embodiment, the 8th information is dynamic configuration.
As one embodiment, the 8th information is carried by physical layer signaling.
As one embodiment, the 8th information is by DCI signaling bear.
As one embodiment, the 8th information is a domain in a DCI signaling, and the domain includes positive integer
Bit.
As one embodiment, the 8th information is carried by down physical layer control channel.
As one embodiment, the 8th information is carried by PDCCH.
As one embodiment, the 8th information is carried by sPDCCH.
As one embodiment, the 8th information is carried by NR-PDCCH.
As one embodiment, the 8th information is carried by NB-PDCCH.
As one embodiment, the 6th information and the 7th information are by the same DCI signaling bear.
As one embodiment, the 6th information and the 7th information are the first domain and the second domain of the same DCI signaling.
As one embodiment, the 7th information and the 8th information are by the same DCI signaling bear.
As one embodiment, the 7th information and the 8th information are the first domain and the second domain of the same DCI signaling.
As one embodiment, the 6th information, the 7th information and the 8th information are by the same DCI signaling bear.
As one embodiment, the 6th information, the 7th information and the 8th information are the first of the same DCI signaling
Domain, the second domain and third domain.
As one embodiment, N number of first object reference signal is empty with N number of second class reference signal group respectively
Between it is related.
As one embodiment, the antenna port for sending N number of first object reference signal is described N number of with transmission respectively
The antenna port of second class reference signal group is considered as QCL.
As one embodiment, the antenna port for sending N number of first object reference signal is described N number of with transmission respectively
Transmission wave beam on the antenna port of second class reference signal group is identical.
As one embodiment, the antenna port for sending N number of first object reference signal is described N number of with transmission respectively
Precoding vector on the antenna port of second class reference signal group is identical.
As one embodiment, the antenna port for sending N number of first object reference signal is described N number of with transmission respectively
Analog beam excipient vector on the antenna port of second class reference signal group is identical.
Embodiment 6
Embodiment 6 illustrates the flow chart of another wireless transmission, as shown in Fig. 6.In figure 6, base station N3 is to use
The serving cell of family equipment U4 maintains base station.In attached drawing 6, box F2 is optional.
For N3, third information is received in step s 30;The first information is received in step S31;It sends out in step s 32
Send the 5th information;The 4th information is sent in step S33;M first kind reference signal group is received in step S34;In step
The 6th information, the 7th information and the 8th information are sent in S35;N number of second class reference signal group and Q1 are received in step S36
Third class reference signal.
For U4, third information is sent in step s 40;The first information is sent in step S41;It is connect in step S42
Receive the 5th information;The 4th information is received in step S43;M first kind reference signal group is sent in step S44;In step
The 6th information, the 7th information and the 8th information are received in S45;N number of second class reference signal group and Q1 are sent in step S46
Third class reference signal.
In embodiment 6, the third information is used for determining { M, the M first kind reference signal group difference
Including reference signal number at least one of;4th information is used for determining the M first kind reference signal
Group;Transmission of the transmission of the first information and the third information prior to the 4th information.
As one embodiment, the explicit instruction of the third information { M, the M first kind reference signal component
At least one of the number for the reference signal for not including }.
As one embodiment, the implicit instruction of the third information { M, the M first kind reference signal component
At least one of the number for the reference signal for not including }.
As one embodiment, the third information is carried by higher level signaling.
As one embodiment, the third information is carried by RRC signaling.
As one embodiment, the third information is all or part of of an IE in a RRC signaling.
As one embodiment, the third information is by MACCE signaling bear.
As one embodiment, the third information is semi-statically configured.
As one embodiment, the third information is dynamic configuration.
As one embodiment, the third information is carried by physical layer signaling.
As one embodiment, the third information is by UCI signaling bear.
As one embodiment, the third information is a domain in a UCI signaling, and the domain includes positive integer
Bit.
As one embodiment, the third information is carried by upstream physical layer data channel.
As one embodiment, the third information is carried by PUSCH.
As one embodiment, the third information is carried by sPUSCH.
As one embodiment, the third information is carried by NR-PUSCH.
As one embodiment, the third information is carried by NB-PUSCH.
As one embodiment, the third information is carried by upstream physical layer control channel.
As one embodiment, the third information is carried by PUCCH.
As one embodiment, the third information is carried by sPUCCH.
As one embodiment, the third information is carried by NR-PUCCH.
As one embodiment, the third information is carried by NB-PUCCH.
As one embodiment, the first information and the third information are carried by the same RRC signaling.
As one embodiment, the first information and the third information be the first IE in the same RRC signaling and
2nd IE.
As one embodiment, the first information and the third information are by the same UCI signaling bear.
As one embodiment, the first information and the third information are the first domains and of the same UCI signaling
Two domains.
As one embodiment, the 4th information explicit instruction M first kind reference signal group.
As one embodiment, the 4th information implicit instruction M first kind reference signal group.
As one embodiment, the 4th information is carried by higher level signaling.
As one embodiment, the 4th information is carried by RRC signaling.
As one embodiment, the 4th information is all or part of of an IE in a RRC signaling.
As one embodiment, the 4th information is by MACCE signaling bear.
As one embodiment, the 4th information is transmitted in SIB.
As one embodiment, the 4th information is semi-statically configured.
As one embodiment, the 4th information is dynamic configuration.
As one embodiment, the 4th information is carried by physical layer signaling.
As one embodiment, the 4th information is by DCI signaling bear.
As one embodiment, the 4th information is a domain in a DCI signaling, and the domain includes positive integer
Bit.
As one embodiment, the 4th information is carried by down physical layer control channel.
As one embodiment, the 4th information is carried by PDCCH.
As one embodiment, the 4th information is carried by sPDCCH.
As one embodiment, the 4th information is carried by NR-PDCCH.
As one embodiment, the 4th information is carried by NB-PDCCH.
Embodiment 7
Embodiment 7 illustrates a Q2A schematic diagram for gathering relevant information, as shown in Fig. 7.In attached drawing 7, box
F3 is optional.
The Q in embodiment 7, in the application2It is a to gather relevant information including { the M first kind is with reference to letter
The index of set belonging to each of number group reference signal group, the Q2In at least the former, the M first kind
Set belonging to each of reference signal group reference signal group is the Q2One of a set.
As one embodiment, the Q2The index of a set is 0,1 respectively ..., Q2-1。
As one embodiment, the Q2The index of a set is 1,2 respectively ..., Q2。
Embodiment 8
Embodiment 8 illustrates another Q2A schematic diagram for gathering relevant information, as shown in Fig. 8.In attached drawing 8, side
Frame F4 is optional.
The Q in embodiment 8, in the application2The relevant information of a set includes the { Q2It is each in a set
A index for gathering the first kind reference signal group for including, the Q2In at least the former.
As one embodiment, the Q2Any first kind reference signal group included by any set in a set is
One of described M first kind reference signal group.
Embodiment 9
Embodiment 9 illustrates a Q1A set, Q2A set, N number of first kind reference signal group, N number of second class is with reference to letter
Number group and Q1The schematic diagram of the relationship of a third class reference signal, as shown in Fig. 9.
N number of second class reference signal group and N number of first kind reference signal group one in embodiment 9, in the application
One is corresponding, and N number of first kind reference signal group is the subset of the M first kind reference signal group;N number of first kind ginseng
Each first kind reference signal group in signal group is examined to be belonging respectively to and only belong to Q1A set in a set, the Q1It is a
Any one set in set includes at least one first kind reference signal group in N number of first kind reference signal group,
The Q1A set is the Q2Q in a set1It is a, the Q1A set and the Q1A third class reference signal one is a pair of
It answers.
As one embodiment, the Q1The transmission for all reference signals that any one set in a set includes is penetrated
Frequency channel shares the same oscillator.
As one embodiment, the second class reference signal group and the first kind reference signal group be corresponding refer to it is described
Second class reference signal group is related at least one reference signal space in the first kind reference signal group.
As one embodiment, the second class reference signal group and the first kind reference signal group be corresponding refer to it is described
Send the reference of at least one of all antenna ports and the transmission first kind reference signal group of the second class reference signal group
The antenna port of signal is considered as QCL.
As one embodiment, the second class reference signal group and the first kind reference signal group be corresponding refer to it is described
Send the reference of at least one of all antenna ports and the transmission first kind reference signal group of the second class reference signal group
Transmission wave beam on the antenna port of signal is identical.
As one embodiment, the second class reference signal group and the first kind reference signal group be corresponding refer to it is described
Send the reference of at least one of all antenna ports and the transmission first kind reference signal group of the second class reference signal group
Precoding vector on the antenna port of signal is identical.
As one embodiment, the second class reference signal group and first kind reference signal group correspondence refer to transmission
The reference of at least one of all antenna ports of the second class reference signal group and the transmission first kind reference signal group
Analog beam excipient coefficient on the antenna port of signal is identical.
Embodiment 10
Embodiment 10A to embodiment 10D illustrates a N number of second class reference signal group and Q respectively1A third class reference
The associated schematic diagram of signal, as shown in Fig. 10.The corresponding resource particle of a grid in Figure 10 A to Figure 10 D.
In embodiment 10, for the Q in the application1Any given set in a set, with the given collection
It closes corresponding third class reference signal and is associated with target reference signal group, the target reference signal group includes all corresponding
First kind reference signal group belongs to the second class reference signal group of the given set.
As one embodiment, the third class reference signal, which is associated with target reference signal group and refers to, sends described the
One occupied subcarrier of antenna port of three classes reference signal belongs to all antennas for sending the target reference signal group
An occupied subcarrier of antenna port in port.
As one embodiment, the third class reference signal, which is associated with target reference signal group and refers to, sends described the
One occupied subcarrier of antenna port of three classes reference signal belongs to all antennas for sending the target reference signal group
The occupied subcarrier of minimum antenna port in port.
As one embodiment, the implementation 10A corresponds to any one second class in N number of second class reference signal group
The occupied running time-frequency resource of reference signal group does not include continuous subcarrier, and the N is 2, the Q1It is 1, N number of second class reference
Signal group and Q1The associated schematic diagram of a third class reference signal.
As one embodiment, the implementation 10B corresponds to any one second class in N number of second class reference signal group
The occupied running time-frequency resource of reference signal group does not include continuous subcarrier, and the N is 2, the Q1It is 2, N number of second class reference
Signal group and Q1The associated schematic diagram of a third class reference signal.
As one embodiment, the implementation 10C corresponds to any one second class in N number of second class reference signal group
The occupied running time-frequency resource of reference signal group includes the continuous subcarrier in part, and the N is 2, the Q1It is 1, N number of second class ginseng
Examine signal group and Q1The associated schematic diagram of a third class reference signal.
As one embodiment, the implementation 10D corresponds to any one second class in N number of second class reference signal group
The occupied running time-frequency resource of reference signal group includes the continuous subcarrier in part, and the N is 2, the Q1It is 2, N number of second class ginseng
Examine signal group and Q1The associated schematic diagram of a third class reference signal.
Embodiment 11
Embodiment 11 illustrates the structural block diagram for the processing unit in user equipment, as shown in Fig. 11.In attached drawing
In 11, the processing unit 1200 in user equipment is mainly by 1202 groups of the first receiver module 1201 and the first transmitter module
At.First receiver module 1201 includes the emitter/receiver 454 (including antenna 452) in illustrations 4, receiving area
Manage at least the above two in device 456 and controller/processor 459.First transmitter module 1202 includes in illustrations 4
Emitter/receiver 454 (including antenna 452), in transmited processor 468 and controller/processor 459 at least before two
Person.
- the first receiver module 1201: second information is received;Receive the 4th information;Receive the 5th letter
Breath;Receive the 6th information, the 7th information and the 8th information;
- the first transmitter module 1202: the first information and M first kind reference signal group are sent;It sends described N number of
Second class reference signal group and Q1A third class reference signal;Send the third information.
In embodiment 11, the first information indicates Q2It is a to gather relevant information, the Q2It is no less than the Q1And
No more than the positive integer of the M;In the M first kind reference signal group each first kind reference signal group be belonging respectively to and
Only belong to the Q2A set in a set;N number of second class reference signal group and N number of first kind reference signal group one
One is corresponding, and N number of first kind reference signal group is the subset of the M first kind reference signal group;N number of first kind ginseng
Each first kind reference signal group in signal group is examined to be belonging respectively to and only belong to Q1A set in a set, the Q1It is a
Any one set in set includes at least one first kind reference signal group in N number of first kind reference signal group,
The Q1A set is the Q2Q in a set1It is a, the Q1A set and the Q1A third class reference signal one is a pair of
It answers;For the Q1Any given set in a set, third class reference signal corresponding with the given set are associated
To target reference signal group, the target reference signal group includes that all corresponding first kind reference signal groups belong to described give
Second class reference signal group of set.
As one embodiment, second information is used for determining the M first kind reference signal group, described second
Transmission of the transmission of information prior to the first information.
As one embodiment, the third information is used for determining { M, the M first kind reference signal component
At least one of the number for the reference signal for not including };4th information is used for determining the M first kind with reference to letter
Number group;Transmission of the transmission of the first information and the third information prior to the 4th information.
As one embodiment, the 5th information is used for determining H the 4th class reference signal groups, the M a first
Class reference signal group is the subset of the H the 4th class reference signal groups, and the H is no less than the positive integer of the M.
As one embodiment, the 6th information is used for determining N number of first object reference signal, described N number of first
Target reference signal is belonging respectively to N number of first kind reference signal group;7th information is used for determining described N number of second
Class reference signal group;8th information is used for determining the Q1A third class reference signal.
Embodiment 12
Embodiment 12 illustrates the structural block diagram for the processing unit in base station equipment, as shown in Fig. 12.In attached drawing
In 12, the processing unit 1300 in base station equipment is mainly by 1302 groups of the second transmitter module 1301 and the second receiver module
At.Second transmitter module 1301 includes the emitter/receiver 418 (including antenna 420) in illustrations 4, at transmitting
Manage at least the above two in device 416 and controller/processor 475.Second receiver module 1302 includes in illustrations 4
Emitter/receiver 418 (including antenna 420), receive in processor 470 and controller/processor 475 at least before two
Person.
- the second transmitter module 1301: second information is sent;Send the 4th information;Send the 5th letter
Breath;Send the 6th information, the 7th information and the 8th information.
- the second receiver module 1302: the first information and M first kind reference signal group are received;It receives described N number of
Second class reference signal group and Q1A third class reference signal;Receive the third information;.
In embodiment 12, the first information indicates Q2It is a to gather relevant information, the Q2It is no less than the Q1And
No more than the positive integer of the M;In the M first kind reference signal group each first kind reference signal group be belonging respectively to and
Only belong to the Q2A set in a set;N number of second class reference signal group and N number of first kind reference signal group one
One is corresponding, and N number of first kind reference signal group is the subset of the M first kind reference signal group;N number of first kind ginseng
Each first kind reference signal group in signal group is examined to be belonging respectively to and only belong to Q1A set in a set, the Q1It is a
Any one set in set includes at least one first kind reference signal group in N number of first kind reference signal group,
The Q1A set is the Q2Q in a set1It is a, the Q1A set and the Q1A third class reference signal one is a pair of
It answers;For the Q1Any given set in a set, third class reference signal corresponding with the given set are associated
To target reference signal group, the target reference signal group includes that all corresponding first kind reference signal groups belong to described give
Second class reference signal group of set.
As one embodiment, second information is used for determining the M first kind reference signal group, described second
Transmission of the transmission of information prior to the first information.
As one embodiment, the third information is used for determining { M, the M first kind reference signal component
At least one of the number for the reference signal for not including };4th information is used for determining the M first kind with reference to letter
Number group;Transmission of the transmission of the first information and the third information prior to the 4th information.
As one embodiment, the 5th information is used for determining H the 4th class reference signal groups, the M a first
Class reference signal group is the subset of the H the 4th class reference signal groups, and the H is no less than the positive integer of the M.
As one embodiment, the 6th information is used for determining N number of first object reference signal, described N number of first
Target reference signal is belonging respectively to N number of first kind reference signal group;7th information is used for determining described N number of second
Class reference signal group;8th information is used for determining the Q1A third class reference signal.
Those of ordinary skill in the art will appreciate that all or part of the steps in the above method can be referred to by program
Related hardware is enabled to complete, described program can store in computer readable storage medium, such as read-only memory, hard disk or light
Disk etc..Optionally, one or more integrated circuit can be used also to realize in all or part of the steps of above-described embodiment.Phase
It answers, each modular unit in above-described embodiment, can be realized using example, in hardware, it can also be by the form of software function module
It realizes, the application is not limited to the combination of the software and hardware of any particular form.UE or terminal in the application include but not
It is limited to mobile phone, tablet computer, notebook, card of surfing Internet, low power consuming devices, eMTC equipment, NB-IoT equipment, vehicular communication equipment etc.
Wireless telecom equipment.Base station or network side equipment in the application include but is not limited to macrocell base stations, microcell base station, family
Front yard base station, relay base station, eNB, gNB, the wireless telecom equipments such as transmission receiving node TRP.
The above, the only preferred embodiment of the application, are not intended to limit the protection scope of the application.It is all
Within spirit herein and principle, any modification made, equivalent replacement, improve etc., it should be included in the protection of the application
Within the scope of.
Claims (16)
1. a kind of method in user equipment for wireless communication characterized by comprising
It sends the first information and M first kind reference signal group, the M is greater than 1 positive integer;
Send N number of second class reference signal group and Q1A third class reference signal, the N are no more than the positive integer of the M, institute
State Q1It is no more than the positive integer of the N;
Wherein, the first information indicates Q2It is a to gather relevant information, the Q2It is no less than the Q1And it is not more than the M
Positive integer;Each first kind reference signal group is belonging respectively to and only belongs to described in the M first kind reference signal group
Q2A set in a set;N number of second class reference signal group and N number of first kind reference signal group correspond, institute
State the subset that N number of first kind reference signal group is the M first kind reference signal group;N number of first kind reference signal group
In each first kind reference signal group be belonging respectively to and only belong to Q1A set in a set, the Q1In a set
Any one set includes at least one first kind reference signal group in N number of first kind reference signal group, the Q1It is a
Set is the Q2Q in a set1It is a, the Q1A set and the Q1A third class reference signal corresponds;For institute
State Q1Any given set in a set, third class reference signal corresponding with the given set are associated with object reference
Signal group, the target reference signal group include that all corresponding first kind reference signal groups belong to the second of the given set
Class reference signal group.
2. the method according to claim 1, wherein the Q2The relevant information of a set includes { M the
The index of set belonging to each of a kind of reference signal group reference signal group, the Q2In at least the former, it is described
Set belonging to each of M first kind reference signal group reference signal group is the Q2One of a set.
3. the method according to claim 1, wherein the Q2The relevant information of a set includes the { Q2A collection
The index for the first kind reference signal group that each of conjunction set includes, the Q2In at least the former.
4. according to claim 1 to method described in any claim in 3 characterized by comprising
Receive the second information;
Wherein, second information is used for determining the M first kind reference signal group, the transmission of second information prior to
The transmission of the first information.
5. according to claim 1 to method described in any claim in 3 characterized by comprising
Send third information;
Receive the 4th information;
Wherein, the third information is used for determining { M, the reference letter that the M first kind reference signal group respectively includes
Number number at least one of;4th information is used for determining the M first kind reference signal group;Described first
Transmission of the transmission of information and the third information prior to the 4th information.
6. according to method described in right pressure ball any in claim 4 or 5 characterized by comprising
Receive the 5th information;
Wherein, the 5th information is used for determining that H the 4th class reference signal groups, the M first kind reference signal group are
The subset of the H the 4th class reference signal groups, the H are no less than the positive integer of the M.
7. according to claim 1 to method described in any claim in 6 characterized by comprising
Receive the 6th information, the 7th information and the 8th information;
Wherein, the 6th information is used for determining N number of first object reference signal, N number of first object reference signal point
Do not belong to N number of first kind reference signal group;7th information is used for determining N number of second class reference signal group;
8th information is used for determining the Q1A third class reference signal.
8. a kind of method in base station equipment for wireless communication characterized by comprising
It receives the first information and M first kind reference signal group, the M is greater than 1 positive integer;
Receive N number of second class reference signal group and Q1A third class reference signal, the N are no more than the positive integer of the M, institute
State Q1It is no more than the positive integer of the N;
Wherein, the first information indicates Q2It is a to gather relevant information, the Q2It is no less than the Q1And it is not more than the M
Positive integer;Each first kind reference signal group is belonging respectively to and only belongs to described in the M first kind reference signal group
Q2A set in a set;N number of second class reference signal group and N number of first kind reference signal group correspond, institute
State the subset that N number of first kind reference signal group is the M first kind reference signal group;N number of first kind reference signal group
In each first kind reference signal group be belonging respectively to and only belong to Q1A set in a set, the Q1In a set
Any one set includes at least one first kind reference signal group in N number of first kind reference signal group, the Q1It is a
Set is the Q2Q in a set1It is a, the Q1A set and the Q1A third class reference signal corresponds;For institute
State Q1Any given set in a set, third class reference signal corresponding with the given set are associated with object reference
Signal group, the target reference signal group include that all corresponding first kind reference signal groups belong to the second of the given set
Class reference signal group.
9. according to the method described in claim 8, it is characterized in that, the Q2The relevant information of a set includes { M the
The index of set belonging to each of a kind of reference signal group reference signal group, the Q2In at least the former, it is described
Set belonging to each of M first kind reference signal group reference signal group is the Q2One of a set.
10. according to the method described in claim 8, it is characterized in that, the Q2The relevant information of a set includes the { Q2It is a
The index for the first kind reference signal group that each of set set includes, the Q2In at least the former.
11. the method according to any claim in claim 8 to 10 characterized by comprising
Send the second information;
Wherein, second information is used for determining the M first kind reference signal group, the transmission of second information prior to
The transmission of the first information.
12. the method according to any claim in claim 8 to 10 characterized by comprising
Receive third information;
Send the 4th information;
Wherein, the third information is used for determining { M, the reference letter that the M first kind reference signal group respectively includes
Number number at least one of;4th information is used for determining the M first kind reference signal group;Described first
Transmission of the transmission of information and the third information prior to the 4th information.
13. method described in any one of 1 or 12 claim according to claim 1 characterized by comprising
Send the 5th information;
Wherein, the 5th information is used for determining that H the 4th class reference signal groups, the M first kind reference signal group are
The subset of the H the 4th class reference signal groups, the H are no less than the positive integer of the M.
14. the method according to any claim in claim 8 to 13 characterized by comprising
Send the 6th information, the 7th information and the 8th information;
Wherein, the 6th information is used for determining N number of first object reference signal, N number of first object reference signal point
Do not belong to N number of first kind reference signal group;7th information is used for determining N number of second class reference signal group;
8th information is used for determining the Q1A third class reference signal.
15. a kind of user equipment for wireless communication characterized by comprising
- the first transmitter module, sends the first information and M first kind reference signal group, the M are greater than 1 positive integer;Hair
Send N number of second class reference signal group and Q1A third class reference signal, the N are no more than the positive integer of the M, the Q1It is
No more than the positive integer of the N;
Wherein, the first information indicates Q2It is a to gather relevant information, the Q2It is no less than the Q1And it is not more than the M
Positive integer;Each first kind reference signal group is belonging respectively to and only belongs to described in the M first kind reference signal group
Q2A set in a set;N number of second class reference signal group and N number of first kind reference signal group correspond, institute
State the subset that N number of first kind reference signal group is the M first kind reference signal group;N number of first kind reference signal group
In each first kind reference signal group be belonging respectively to and only belong to Q1A set in a set, the Q1In a set
Any one set includes at least one first kind reference signal group in N number of first kind reference signal group, the Q1It is a
Set is the Q2Q in a set1It is a, the Q1A set and the Q1A third class reference signal corresponds;For institute
State Q1Any given set in a set, third class reference signal corresponding with the given set are associated with object reference
Signal group, the target reference signal group include that all corresponding first kind reference signal groups belong to the second of the given set
Class reference signal group.
16. a kind of base station equipment for wireless communication characterized by comprising
- the second receiver module, receives the first information and M first kind reference signal group, the M are greater than 1 positive integer;It connects
Receive N number of second class reference signal group and Q1A third class reference signal, the N are no more than the positive integer of the M, the Q1It is
No more than the positive integer of the N;
Wherein, the first information indicates Q2It is a to gather relevant information, the Q2It is no less than the Q1And it is not more than the M
Positive integer;Each first kind reference signal group is belonging respectively to and only belongs to described in the M first kind reference signal group
Q2A set in a set;N number of second class reference signal group and N number of first kind reference signal group correspond, institute
State the subset that N number of first kind reference signal group is the M first kind reference signal group;N number of first kind reference signal group
In each first kind reference signal group be belonging respectively to and only belong to Q1A set in a set, the Q1In a set
Any one set includes at least one first kind reference signal group in N number of first kind reference signal group, the Q1It is a
Set is the Q2Q in a set1It is a, the Q1A set and the Q1A third class reference signal corresponds;For institute
State Q1Any given set in a set, third class reference signal corresponding with the given set are associated with object reference
Signal group, the target reference signal group include that all corresponding first kind reference signal groups belong to the second of the given set
Class reference signal group.
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CN202110760908.2A CN113497700B (en) | 2017-09-27 | 2017-09-27 | Method and device used in user equipment and base station for wireless communication |
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103891166A (en) * | 2011-09-30 | 2014-06-25 | 交互数字专利控股公司 | Multipoint transmission in wireless communication |
CN105122871A (en) * | 2013-04-17 | 2015-12-02 | 华为技术有限公司 | Systems and methods for adaptive transmissions in a wireless network |
WO2017124335A1 (en) * | 2016-01-20 | 2017-07-27 | Nec Corporation | Methods and apparatuses for transmitting a reference signal |
Family Cites Families (2)
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-
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Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103891166A (en) * | 2011-09-30 | 2014-06-25 | 交互数字专利控股公司 | Multipoint transmission in wireless communication |
CN105122871A (en) * | 2013-04-17 | 2015-12-02 | 华为技术有限公司 | Systems and methods for adaptive transmissions in a wireless network |
WO2017124335A1 (en) * | 2016-01-20 | 2017-07-27 | Nec Corporation | Methods and apparatuses for transmitting a reference signal |
Non-Patent Citations (1)
Title |
---|
3GPP: ""3GPP R1-1715331_TS 38.214 V00.11.02"", 《TECHNICAL SPECIFICATION 3RD GENERATION PARTNERSHIP PROJECT》 * |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2021008450A1 (en) * | 2019-07-12 | 2021-01-21 | Qualcomm Incorporated | System and method for reporting channel state and doppler frequency information |
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CN113595705A (en) | 2021-11-02 |
CN113497700A (en) | 2021-10-12 |
CN113497700B (en) | 2022-03-29 |
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