阅读说明：本技术 在无线通信系统中测量和报告信道状态信息的方法和装置 (The method and apparatus with reporting channel status information are measured in a wireless communication system ) 是由 姜智源 朴钟贤 于 2018-02-19 设计创作，主要内容包括：本发明提供了在无线通信系统中测量和报告信道状态信息(CSI)的方法和装置。具体地,一种在无线通信系统中由终端报告CSI的方法包括以下步骤：接收与CSI报告相关的CSI报告设置信息的步骤；接收一个或更多个CSI参考信号(CSI-RS)的步骤；以及通过使用通过所述一个或更多个CSI-RS当中的至少一个特定CSI-RS估计的测量值来执行CSI报告,其中,所述CSI报告设置信息包括用于设置估计所述测量值的测量间隙的间隙信息,并且可以基于所述间隙信息和执行所述CSI报告的时间点来确定所述至少一个特定CSI-RS。(The present invention provides the method and apparatus measured in a wireless communication system with reporting channel status information (CSI).Specifically, a kind of in a wireless communication system by the method for terminal report CSI the following steps are included: the step of receiving CSI report setting information relevant to CSI report；The step of receiving one or more CSI reference signal (CSI-RS)；And CSI report is executed by using the measured value at least one of working as specific CSI-RS estimation by one or more CSI-RS, wherein, the CSI report setting information includes the gap information for the measurement gap of the estimation measured value to be arranged, and at least one described specific CSI-RS can be determined based on the time point of the gap information and the execution CSI report.)

1. one kind is in a wireless communication system by the method for user equipment reporting channel status information CSI, this method includes following Step:

CSI configuration information relevant to CSI report process is received from base station, wherein the CSI configuration information includes instruction one Or more measure setup information, the information of the multiple report settings of instruction and the information of instruction multiple resources setting；

The report information of at least one of the multiple report setting of instruction report setting is received from the base station；And

At least one money that instruction belongs to specific resources group relevant at least one described report setting is received from the base station The resource information of source collection or at least one resource,

Wherein, the operation in time domain based at least one report setting described in being configured in the setting of the multiple resource Mode configures the specific resources group.

It is the operation mode in the time domain and periodical CSI report, non-2. according to the method described in claim 1, wherein Any of periodical CSI report or semi-persistent CSI report correspond to.

3. according to the method described in claim 1, wherein, the CSI is received by radio resource control signaling with confidence Breath, and

Wherein, the report is received by least one of down link control information or medium access control control element Information and the resource information.

4. according to the method described in claim 3, wherein, the report information and the resource information are by a downlink chain Road control information receives simultaneously.

5. according to the method described in claim 1, wherein, the specific resources group be by combine the multiple report setting with The setting of the multiple resource and one in the resource group that configures.

6. according to the method described in claim 5, wherein, based on the operation mould in the time domain configured for each report setting Formula and it is arranged for each resource and the combination between the operation mode in the time domain that configures configures the resource group.

7. according to the method described in claim 1, wherein, to the institute for belonging to the specific resources group in the specific resources group The index of the index or at least one resource of stating at least one resource set is renumberd.

8. according to the method described in claim 2, wherein, if the base station is configured as triggering for reporting the CSI's Aperiodicity resource, then the specific resources group includes reporting in the multiple resource setting for the aperiodicity CSI Accuse preconfigured at least one resource setting.

9. according to the method described in claim 2, wherein, if the base station be configured as activating or disabling it is described for reporting The semi-persistent resource of CSI, then the specific resources group includes included for the non-week in the setting of the multiple resource At least one resource of phase property CSI report is arranged or at least one resource setting of the semi-persistent CSI report At least one.

10. according to the method described in claim 1, wherein, by additionally considering each of the multiple resource setting Property parameters configure the specific resources group.

11. according to the method described in claim 1, wherein, being arranged if be arranged by additionally consideration order report with resource Between the parameter of purposes of link configure the specific resources group, then indicate that the parameter of the purposes of the link is wrapped It includes in one or more measure setup.

12. a kind of user equipment of reporting channel status information CSI in a wireless communication system, the user equipment include:

Radio frequency module, the RF module is for sending or receiving radio signal；And

Processor, the processor are functionally connected to the RF module,

Wherein, CSI configuration information relevant to CSI report process is received from base station, wherein the CSI configuration information includes referring to Show the information of the information of one or more measure setups, the information of the multiple report settings of instruction and the multiple resource settings of instruction,

Wherein, the report information of at least one of the multiple report setting of instruction report setting is received from the base station,

Wherein, it is received from the base station and indicates to belong at least the one of specific resources group relevant at least one described report setting The resource information of a resource set or at least one resource, and

Wherein, the operation in time domain based at least one report setting described in being configured in the setting of the multiple resource Mode configures the specific resources group.

Technical field

This disclosure relates to wireless communication system, and more particularly, to measurement and reporting channel status information (CSI) Method and device for supporting this method.

Background technique

It has generally developed and the mobile communication system of voice service is provided while ensureing user mobility.These Its coverage area is gradually expanded to data service up to high-speed data service from voice service by mobile communication system.However, Due to current mobile communications system by shortage of resources and user needs the service of even higher speed, it is therefore desirable to which exploitation is more first Into mobile communication system.

Needs to next generation mobile communication system may include supporting mass data business, the transfer rate of each user The attachment device for dramatically increasing, number being dramatically increased adaptation, low-down end-to-end time delay and energy-efficient.For This, it has been developed that such as cell enhancing, dual link, extensive multiple-input and multiple-output (MIMO), with interior full duplex, nonopiate more Ultra wide band and the such various technologies of device networking are supported in location (NOMA).

Summary of the invention

Technical problem

Embodiment of the present disclosure provides based on CSI frame the method for measuring and reporting CSI and for this method Device.

Related to this, this description presents executed by dynamic signaling for resource setting (and/or resource set or money Source) selection instruction and/or for report setting selection instruction method.

Specifically, this description presents configuration pins is arranged (and/or resource set or resource) to preconfigured resource Resource group and the method for executing dynamic signaling.

The technical purpose of the disclosure is not limited to above-mentioned technical purpose, and for those of ordinary skill in the art For, the above other technical purposes that do not mention will become apparent according to the following description.

Technical solution

Believed in a wireless communication system by user equipment reporting channel state according to a kind of of embodiment of the present disclosure In the method for ceasing (CSI), method includes the following steps: CSI configuration information relevant to CSI report process is received from base station, Wherein, the CSI configuration information includes the information of the information for indicating one or more measure setups, the multiple report settings of instruction With the information for indicating multiple resource settings；It is received from the base station and indicates that at least one of the multiple report setting report is set The report information set；And instruction is received from the base station and belongs to specific resources group relevant at least one described report setting At least one resource set or at least one resource resource information, wherein based on being configured for the setting of the multiple resource Operation mode in the time domain of interior at least one report setting configures the specific resources group.

In addition, the operation mode in the time domain can be with week in the method according to embodiment of the present disclosure Any of phase property CSI report, aperiodicity CSI report or semi-persistent CSI report correspond to.

In addition, can be received by radio resource control signaling in the method according to embodiment of the present disclosure The CSI configuration information, and at least one in down link control information or medium access control control element can be passed through It is a to receive the report information and the resource information.

In addition, the report information and the resource information can be in the method according to embodiment of the present disclosure It is received simultaneously by a down link control information.

In addition, the specific resources group can be by described in combination in the method according to embodiment of the present disclosure One in resource group that multiple report settings are configured with the setting of the multiple resource.

It, can be based on configuring for each report setting in addition, in the method according to embodiment of the present disclosure Operation mode in time domain and the combination between the operation mode for the setting of each resource and in the time domain of configuration are to configure State resource group.

In addition, in the method according to embodiment of the present disclosure, it can be described to belonging in the specific resources group The index of at least one resource set of specific resources group or the index of at least one resource are renumberd.

In addition, in the method according to embodiment of the present disclosure, if the base station is configured as triggering for reporting The aperiodicity resource of the CSI, then the specific resources group may include in the multiple resource setting for described Preconfigured at least one resource setting of aperiodicity CSI report.

In addition, in the method according to embodiment of the present disclosure, if the base station is configured as activating or disabling use In the semi-persistent resource for reporting the CSI, then the specific resources group may include included in the multiple resource setting For the aperiodicity CSI report at least one resource setting or for the semi-persistent CSI report at least At least one of one resource setting.

In addition, in the method according to embodiment of the present disclosure, it can be by additionally considering that the multiple resource is set The property parameters each of set configure the specific resources group.

In addition, in the method according to embodiment of the present disclosure, if by additionally consider order report setting with The parameter of the purposes of link between resource setting configures the specific resources group, then indicates the described of the purposes of the link Parameter can be included in one or more measure setup.

In the use according to a kind of reporting channel status information (CSI) in a wireless communication system of embodiment of the present disclosure In the equipment of family, which includes: radio frequency (RF) module, and the RF module is for sending or receiving radio signal；And place Device is managed, which is functionally connected to the RF module, receives CSI relevant to CSI report process from base station and matches confidence Breath, wherein the CSI configuration information includes the information for indicating one or more measure setups, the multiple report settings of instruction Information and the information for indicating multiple resource settings receive from the base station and indicate at least one of the multiple report setting report Accuse the report information of setting.Instruction, which is received, from the base station belongs to specific resources group relevant at least one described report setting At least one resource set or at least one resource resource information.Based on the institute being configured in the multiple resource setting The operation mode in the time domain of at least one report setting is stated to configure the specific resources group.

Beneficial effect

According to embodiment of the present disclosure, there are following effects: if sent by dynamic signaling reference signal or Configurating channel measurement or interference measurement, then can reduce control signaling expense.

Obtainable advantage is not limited to above-mentioned effect in the disclosure, and those skilled in the art will be according to following Other the advantages of not mentioning are expressly understood in description.

Detailed description of the invention

In order to help the attached drawing for understanding the disclosure and being incorporated herein the part as specification to provide the disclosure Embodiment, and the technical characteristic of the disclosure is described by being described below.

Fig. 1 instantiates showing for the overall structure of new radio (NR) system for the method that may be implemented that the disclosure is proposed Example.

Fig. 2 instantiate uplink (UL) frame in the wireless communication system that the method that the disclosure is proposed may be implemented with Relationship between downlink (DL) frame.

Fig. 3 instantiates showing for the resource grid supported in the wireless communication system that the method that the disclosure is proposed may be implemented Example.

Fig. 4 is instantiated can be using each antenna port of the method proposed in this specification and the resource grid of parameter set Example.

Fig. 5 is that instantiate can be exemplary using one of the self-contained structure of time slot of the method proposed in this specification Figure.

Fig. 6 is instantiated can showing using the connection scheme of the TXRU and antenna element of the method proposed in this specification Example.

Fig. 7 is instantiated can be using the various examples of the coverage for TXRU of the method proposed in this specification.

Fig. 8 is instantiated can be using the mimo system using 2D planar array structure of the method proposed in this specification Example.

Fig. 9 instantiates the example of the CSI frame considered in the NR system that can apply the method proposed in this specification.

Figure 10 is instantiated can be using the resource set of the method proposed in this specification or the example of resource selection method.

Figure 11 is shown can be using the process of the UE operation during the CSI report of the method proposed in this specification Figure.

Figure 12 instantiates the block diagram of the wireless communication device according to embodiment of the present disclosure.

Figure 13 instantiates the block diagram of the communication device according to embodiment of the present disclosure.

Specific embodiment

Some embodiments of the disclosure are described in detail with reference to the accompanying drawings.It will be retouched in detail together with attached drawing is disclosed The some illustrative embodiments for being intended to describe the disclosure are stated, and are not intended to unique embodiment of the description disclosure.It is below Detailed description includes more details, and the disclosure is understood completely with providing.However, it should be appreciated by those skilled in the art, The disclosure can be realized in the case where without these details.

In some cases, in order to avoid the concept obfuscation of the disclosure, it is known that construction and device is omitted, or can be with base It is shown in block diagram form in the core function of each construction and device.

In the present specification, base station has the meaning of the terminal node of the network directly communicated with terminal.In the literature, In some cases, it is described as to be executed by the upper node of base station by the specific operation that base station executes.That is, it is aobvious and It is clear to, can execute by base station or by the network node other than base station in order to by multiple network nodes including base station The various operations for communicating and executing with terminal in the network of composition." base station (BS) " can be by such as fixed station, node B, evolution NodeB (eNB), base station transceiver system (BTS), access point (AP), next generation NB, art as General N B or gNodeB (gNB) Language replacement.In addition, " terminal " can be fixed or move, and can by such as user equipment (UE), movement station (MS), User terminal (UT), mobile subscriber station (MSS), subscriber station (SS), advanced mobile station (AMS), wireless terminal (WT), machine type are logical Believe that (MTC) device, Machine To Machine (M2M) device or device replace term as device (D2D) device.

Hereinafter, downlink (DL) means the communication from base station to UE, and uplink (UL) means from UE to base station Communication.In DL, transmitter can be the part of base station, and receiver can be the part of UE.In UL, transmitter can be with It is the part of UE, and receiver can be the part of base station.

Concrete term used in being described below is provided to help to understand the disclosure, and is not departing from the disclosure In the case where the range of technical spirit, the use of these concrete terms can be changed to various forms.

Following technology can be used for such as CDMA (CDMA), frequency division multiple access (FDMA), time division multiple acess (TDMA), orthogonal Various wireless communications as frequency division multiple access (OFDMA), single-carrier frequency division multiple access (SC-FDMA) and non-orthogonal multiple (NOMA) System.Radio technology as such as universal terrestrial radio access (UTRA) or CDMA2000, which can be used, in CDMA comes in fact It is existing.The increasing of such as global mobile communication (GSM)/General Packet Radio Service (GPRS)/be used for GSM evolution can be used in TDMA Radio technology as strong data rate (EDGE) is realized.Such as Institute of Electrical and Electric Engineers can be used in OFDMA (IEEE) 802.11 (Wi-Fi), IEEE 802.16 (WiMAX), IEEE 802.20 or evolved UTRA (E-UTRA) be in this way Radio technology realize.UTRA is a part of Universal Mobile Telecommunications System (UMTS).Third generation partner program (3GPP) long term evolution (LTE) is the evolved UMTS (E-UMTS) that (E-UTRA) is wirelessly electrically accessed using Evolved UMTS Terrestrial A part, and 3GPP LTE use OFDMA in the downlink and in the uplink using SC-FMDA.Advanced LTE (LTE-A) be 3GPP LTE evolution.

Embodiment of the present disclosure can by IEEE 802,3GPP and 3GPP2 (that is, radio access system) at least Normative document disclosed in one is supported.That is, belonging to embodiment of the present disclosure and in order to clearly disclose this public affairs The technical spirit opened and steps not described or part can be supported by these documents.In addition, the institute disclosed in the document There is term that can describe by normative document.

In order to become apparent from specification, the new RAT of 3GPP LTE/LTE-A/ (NR) is essentially described, but the skill of the disclosure Art characteristic is without being limited thereto.

The definition of term

ELTE eNB:eLTE eNB is the evolution for supporting the eNB of the connection for EPC and NGC.

GNB: it is also used to support the node of NR other than the connection with NGC

New RAN: the radio access network supporting NR or E-UTRA or being interacted with NGC

Network slice: network slice is defined by operator in order to provide for needing particular requirement together with terminal room model The particular market scene enclosed and the network of solution optimized.

Network function: network function is the network base with clearly defined external interface and clearly defined feature operation Logical node in Infrastructure.

NG-C: the control plane interface for the NG2 reference point between new RAN and NGC

NG-U: the user plane interface for the NG3 reference point between new RAN and NGC

Dependent NR:gNB needs LTE eNB as carrying out the anchor point or needs that control plane is connect with EPC ELTE eNB is as the deployment configuration for carrying out the anchor point that control plane is connect with NGC

Dependent E-UTRA:eLTE eNB needs gNB as the deployment for carrying out the anchor point that control plane is connect with NGC Configuration

User plane gateways: the terminal of NG-U interface

The general introduction of system

Fig. 1 is to instantiate the overall structure example of new radio (NR) system for the method that may be implemented that the disclosure is proposed Figure.

Referring to Fig.1, NG-RAN is by providing the gNB and use of NG-RA user plane (new AS sublayer/PDCP/RLC/MAC/PHY) It is constituted in control plane (RRC) protocol terminal of UE (user equipment).

GNB 20 is connected to each other via Xn interface.

GNB is also connected to NGC via NG interface.

More specifically, gNB is connected to access and mobile management function (AMF) via N2 interface and connects via N3 interface To user-plane function (UPF).

New RAT (NR) parameter set and frame structure

In NR system, multiple parameters collection can be supported.It can be determined by subcarrier spacing and CP (cyclic prefix) expense Adopted parameter set.Between can be by the way that basic subcarrier spacing scaling Integer N (or μ) be derived between multiple subcarrier spacings Every.In addition, although assuming that very small subcarrier spacing is not used for very high sub-carrier frequencies, it can be independently of frequency Bring selection parameter set to be used.

In addition, can support the various frame structures according to multiple parameters collection in NR system.

Hereinafter, orthogonal frequency division multiplexing (OFDM) parameter set and frame structure that description can be considered in NR system.

It can be as defined the multiple OFDM parameter sets supported in NR system in table 1.

[table 1]

μ	Δ f=2μ·15[kHz]	Cyclic prefix
			0	15	Normally
1	30	Normally
			2	60	Normally, it extends
3	120	Normally
			4	240	Normally
5	480	Normally

In embodiment of the present disclosure, " downlink (DL) " refers to the communication from eNB to UE, " uplink (UL) " Refer to the communication from UE to eNB.In the downlink, transmitter can be the part of eNB, and receiver can be the part of UE. In the uplink, transmitter can be the part of UE, and receiver can be the part of eNB.About the frame in NR system The size of structure, the various fields in time domain is represented as time quantum T_s=1/ (Δ f_max·N_f) multiple.In such case Under, Nf_max=48010³And N_f=4096.DL and UL transmission is configured with T_f=(Δ f_maxN_f/100)·T_s=10ms's The radio frame of segment.Radio frame is made of ten subframes, and each subframe has T_sf=(Δ f_maxN_f/1000)·T_s= The segment of 1ms.In such a case, it is possible to which there are one group of UL frames and one group of DL frame.

Fig. 2 is instantiated between UL frame and DL frame in the wireless communication system that the method that the disclosure is proposed may be implemented Relationship.

As illustrated in Fig. 2, the T before starting the correspondence DL frame in UE is needed_TA=N_TAT_sIt sends from user equipment (UE) UE frame number I.

About parameter set μ, pressed in subframeAscending order and pressed in radio frameAscending order time slot is numbered.One time slot byA continuous OFDM symbol is constituted, andIt is to be determined according to the parameter set and time slot configuration that use.Time slot in subframeBeginning temporarily with same subframe In OFDM symbolStart be aligned.

And not all UE can send and receive simultaneously, and this mean it is all in not DL time slot or UL time slot OFDM symbol is all available.

Table 2 shows the number of the OFDM symbol of each time slot for the normal CP in parameter set μ, and table 3 is shown For the number of the OFDM symbol of each time slot of the extension CP in parameter set μ.

[table 2]

[table 3]

NR physical resource

About the physical resource in NR system, it may be considered that antenna port, resource grid, resource element, resource block, carrier wave Part etc..

Hereinafter, the above physical resource that can be considered in NR system will be described in further detail.

Firstly, antenna port is defined such that the channel for sending the symbol on an antenna port about antenna port It can be and derived from another channel for sending the symbol on same antenna port.Symbol on one antenna port of reception Channel extensive characteristic can be derived from another channel for sending the symbol on another antenna port when, the two Antenna port can have QL/QCL (quasi- co-located or quasi- co-located) relationship.Herein, extensive characteristic may include delay At least one of extension, doppler spread, Doppler's displacement, average gain and average retardation.

Fig. 3 instantiates showing for the resource grid supported in the wireless communication system that the method that the disclosure is proposed may be implemented Example.

Referring to Fig. 3, resource grid is by frequency domainA subcarrier is constituted, and each subframe is by 14 × 2^μA OFDM Symbol is constituted, and but the present disclosure is not limited thereto.

In NR system, with byA subcarrier andOne or more moneys that a OFDM symbol is constituted The transmitted signal of source grid description.Herein,AboveIndicate maximum transmission bandwidth, it can not Only change between different parameters collection, and can change between UL and DL.

In this case, as illustrated in Fig. 4, a resource grid is configured for parameter set μ and antenna port p.

Fig. 4, which is shown, can apply the antenna port of method presented herein and showing for ringer private resource grid Example.

Resource element is indicated as each element in the resource grid of parameter set μ and antenna port p, and can be with Index of reference pairIt uniquely identifies.Herein,It is the index in frequency domain, andIndicate the position of the symbol in subframe.When in order to indicate the resource element in time slot, index pair is usedHerein,

Resource element for parameter set μ and antenna port pCorresponding to complex valuesWhen the risk that do not obscure When or when specifying specific antenna port or parameter set, index p and μ can be dropped, thus complex values can be changed toOr

In addition, Physical Resource Block is defined as in frequency domainA continuous subcarrier.In a frequency domain, physical resource Block can by from 0 toIt is numbered.At this point it is possible to as provided physical resource block number n in formula 1_PRBWith resource element Relationship between (k, l).

[formula 1]

In addition, UE can be configured as using only the subset of resource grid and receive or send carrier wave about Carrier section Part.At this point, UE be configured as receive or send one group of resource block in frequency field from 0 toIt is numbered.

Wave beam management

In NR, wave beam management is defined in the following manner.

Wave beam management: it can be used for DL and UL transmission/received one group of TRP and/or UE wave beam for obtaining and safeguarding One group of L1/L2 process, includes at least:

Wave beam determines: TRP or UE selects it to send/receive the operation of wave beam.

Wave beam measurement: TRP or UE selects it to send/receive the operation of wave beam.

Wave beam report: UE reports the operation of the information of the signal of beam forming based on wave beam measurement.

Beam scanning: space region is covered using the transmission in a time slot and/or received wave beam by predetermined scheme The operation in domain.

In addition, the Tx/Rx wave beam defined between TRP and UE as follows is corresponding.

If meeting at least one of the following, keep the Tx/Rx wave beam in TRP corresponding.

- TRP can based on UE for TRP one or more transmission wave beams downlink measurement come determine for The received TRP of line link receives wave beam.

- TRP can be used for down based on TRP for the uplink measurement of one or more Rx wave beams of TRP to determine The received TRP Tx wave beam of line link.

If meeting at least one of the following, keep the Tx/Rx wave beam in UE corresponding.

- UE can be determined for the downlink measurement of one or more Rx wave beams of UE for uplink based on UE The UE Tx wave beam that road is sent.

- UE can the instruction based on the TRP based on the uplink measurement for one or more Tx wave beams come It determines and receives wave beam for the received UE of downlink.

- TRP supports UE wave beam to correspond to the ability instruction of relevant information.

DL L1/L2 wave beam management process below is supported in one or more TRP.

P-1: it be used to make it possible to for different TRP Tx wave beams carry out UE measurement, with support to TRP Tx wave beam/ The selection of UE Rx wave beam.

For the beam forming in TRP, P-1 generally includes in the TRP from one group of different beams/TRP between TX wave beam sweep It retouches.For the beam forming in UE, P-1 generally includes the UE Rx beam scanning from one group of different beams.

P-2: it is used to carry out UE measurement for different TRP Tx wave beams, to change between TRP/interior TX wave beam.

P-3: it when UE uses beam forming, measures for the UE of same TRP Tx wave beam for changing UE Rx wave beam.

Network-triggered acyclic reporting is at least supported in P-1, P-2 and P-3 relevant operation.

It is measured based on the UE carried out of the RS (at least CSI-RS) for wave beam management by K (sum of wave beam) wave beam structures At, and UE reports the measurement result of selected N number of Tx wave beam.In this case, the number that N is not fixed in particular Mesh.There is no the processes based on RS excluded for mobile purpose.Report information includes at least the measurement amount for N number of wave beam If (N < K) and the N number of DL of instruction send the information of wave beam.Particularly, for being provided with K' > 1 non-zero power (NZP) CSI-RS The UE in source, UE can report a CRI of N ' (CSI-RS resource indicator).

UE can be set to the following higher parameter for wave beam management.

- N >=1 report setting and the setting of M >=1 resource

In linking between setting report setting and resource setting in the CSI measure setup of agreement.

It is arranged with resource and reports that P-1 and P-2 based on CSI-RS are supported in setting.

No matter whether there is or not reports to be arranged, and can support P-3.

Including report setting at least below:

*-instruction selected wave beam information

- L1 measurement report

Time domain operation (for example, aperiodicity operation, periodical operation, semi-durable operation)

Frequency granularity when supporting multiple frequency granularities

Resource below is included at least to be arranged:

Time domain operation (for example, aperiodicity operation, periodical operation, semi-durable operation)

- RS type: at least NZP CSI-RS

At least one CSI-RS resource collection.Each CSI-RS resource collection includes K >=1 CSI-RS resource (KCSI-RS money Some parameters in source can be identical.For example, port numbers, time domain operation, density and periodicity).

In addition, NR supports next wave beam report in the case where considering L group (L > 1).

The information of the most group of instruction

The measurement quality of-N1 wave beam (L1 RSRP and CSI report are supported (when CSI-RS is acquired for CSI))

If applicable, then indicate that Nl DL sends the information of wave beam

The wave beam report based on group as described above can be configured based on UE one by one.Furthermore it is possible to be with UE one by one Basis closes the wave beam based on group and reports (for example, as L=1 or Nl=1).

NR supports UE that can trigger mechanism of the UE from wave beam fault recovery.

When the wave beam for being associated with control channel is sufficiently low to the quality of link (for example, compared with threshold value, association timer Time-out), occur wave beam event of failure.When wave beam failure occurs, the mechanism from wave beam fault recovery is triggered.

* network is explicitly configured to send the resource of UL signal in UE for recovery purpose.Base station from all or The place that some directions (for example, random access region) are monitored, supports the configuration of resource.

UL transmission/resource of report wave beam failure can be in identical with PRACH (resource orthogonal with PRACH resource) Time instance or the time instance different from PRACH (UE can be configured to).The transmission for supporting DL signal, enables UE to monitor Wave beam, to identify new potential wave beam.

Regardless of wave beam correlation indicates how that NR supports wave beam management.When providing the instruction of wave beam correlation, can pass through QCL is indicated to UE about UE side wave beam shaping/receive process information for the measurement based on CSI-RS.As will be by NR branch The QCL parameter held, scheduling to add used in the LTE system for postponing, Doppler, average gain etc. parameter and The spatial parameter of beam forming is carried out at receiver, and QCL parameter may include that the angle of arrival of beam forming is received according to UE It spends relevant parameter and/or leaves angle relevant parameter according to base station reception beam forming.NR support uses in control channel Identical or different wave beam and corresponding data channel are sent.

For supporting to send for NR-PDCCH of the wave beam to the robustness that link hinders, UE can be configured as while supervise M wave beam is surveyed to the NR-PDCCH of chain road.In this case, the maximum value of M >=1 and M can be at least dependent on UE abilities.

UE can be configured as monitors different beams to the NR- on chain road in different NR-PDCCH OFDM symbols PDCCH.The relevant parameter of the UE Rx beam configuration of the NR-PDCCH of chain road is believed by higher to for monitoring multiple wave beams It enables or MAC CE is configured and/or is considered in the design of search space.

At least, NR is supported for demodulating the space between the DL RS antenna port of DL control channel and DL RS antenna port The instruction that QCL assumes.The candidate signaling method (that is, configuration method of monitoring NR-PDCCH) that wave beam for NR-PDCCH indicates Including MAC CE signaling, RRC signaling, DCI signaling, specification be transparent and/or the combination of implicit method and these signaling methods.

In order to receive unicast DL data channel, NR supports the DMRS antenna port of DL RS antenna port and DL data channel Between space QCL assume instruction.

The information of instruction RS antenna port is indicated via DCI (downlink authorization).In addition, the information also indicates and DMRS The RS antenna port of antenna port progress QCL.The DMRS antenna port of different groups for DL data channel can be represented as The RS antenna port and QCL of difference group.

Hereinafter, it before the method proposed in describing this specification in detail, will be briefly described first and this specification The direct or indirect relevant content of the method for middle proposition.

In the next generation communication for including 5G, new RAT (NR) etc., as more and more communication devices need bigger lead to Believe capacity, needs the mobile broadband communication enhanced compared with existing radio access technologies.

In addition, providing the large-scale machines type communication of various services whenever and wherever possible by connecting many devices and object It (MTC) is one of the main problem to be considered in next generation communication.

In addition, discussing the Communication System Design or structure in consideration service/UE to reliability and delay sensitive.

It has been currently discussed and has introduced the mobile broadband communication (eMBB) for considering enhancing, extensive MTC (mMTC), super reliable low prolongs The next-generation radio access technologies (RAT) of Shi Tongxin (URLLC), and in the present specification, for convenience's sake, the technology Referred to as " new RAT (NR) ".

Self-contained structure of time slot

For the minimizing delay for sending the data in TDD system, in the 5th generation, new RAT considered oneself as illustrated in Fig. 5 Include structure of time slot.

That is, Fig. 5 is to instantiate an example of the self-contained structure of time slot that can apply the method proposed in this specification Figure.

In Fig. 5,510 indicating downlink link control area of dashed region, black region 520 indicates uplink control zone Domain.

It can be used for down link data without marked region 530 to send or for uplink data transmission.

The feature of this structure can be, successively execute that DL is sent and UL is sent in one time slot, and can be DL data are sent in one time slot, and can also send and receive UL ACK/NACK.

This time slot can be defined as " self-contained time slot ".

That is, when there are data transmission errors, eNB retransmits what data were spent to UE by this structure of time slot Time is less, the minimizing delay for thus sending final data.

In this self-contained structure of time slot, in order to carry out from sending mode to reception pattern or from reception pattern to transmission The conversion process of mode needs having time gap between eNB and UE.

For this purpose, when some OFDM symbols when the slave DL in structure of time slot is switched to UL can be configured as protection Section (GP).

Analog beam forming

In millimeter wave (mmW), wavelength is shortened, and mutiple antennas element is installed in the same area.

That is, it is 1cm that 64 (8 × 8) a antenna elements can be spaced in the wavelength in 30GHz frequency band in total with 0.5 λ (wavelength) 4 × 4cm panel on by two-dimensional array install.

Therefore, in mmW, beam forming (BF) gain can be increased by using mutiple antennas element, covered with increasing Lid range increases handling capacity.

In this case, provided that transceiver unit (TXRU) allows to send for the adjustment of each antenna element Power and phase then can carry out independent beam forming for each frequency resource.

However, when TXRU is mounted on all substantially 100 antenna elements, there is asking for for cost efficiency degradation Topic.

Accordingly, it is considered to which mutiple antennas element is mapped to a TXRU and using the direction of analog phase shifter adjustment wave beam Method.

The shortcomings that this analog beam manufacturing process is, cannot be by only forming a beam direction in all frequency bands To execute frequency selective beam forming.

It is contemplated that B TXRU and the mixing BF, TXRU less than Q antenna element is the intermediate shape of digital BF and simulation BF Formula.

It, can be simultaneously although there is the difference for the connection method for depending on B TXRU and Q antenna element in HBF The number in the direction of the wave beam of transmission is limited to B or less.

Fig. 6 is instantiated can showing using the connection scheme of the TXRU and antenna element of the method proposed in this specification Example.

In this case, TXRU virtualization model show TXRU output signal and antenna element output signal it Between relationship.

(a) of Fig. 6 instantiates the example that wherein TXRU is connected to the scheme of subarray.

Referring to (a) of Fig. 6, antenna element is connected only to a TXRU.Different from (a) of Fig. 6, (b) of Fig. 6 instantiates it Middle TXRU is connected to the scheme of all antenna elements.

That is, antenna element is connected to all TXRU in the case where (b) of Fig. 6.

In Fig. 6, W indicates phase vectors multiplied by analog phase shifter.

In other words, the direction of analog beam forming is determined by W.In this case, CSI-RS antenna port and TXRU Mapping can be 1 pair more than 1 or 1 pair.

CSI feedback

In 3GPP LTE/LTE-A system, user equipment (UE) is defined as to base station (BS) reporting channel status information (CSI)。

In this case, channel state information (CSI) is referred to as can indicating to be formed between UE and antenna port The information of the quality of radio channel (or also referred to as link).

It is somebody's turn to do for example, order designator (RI), precoding matrix indicators (PMI), channel quality indicator (CQI) etc. correspond to Information.

In this case, RI indicates that the rank information of channel, rank information mean that UE can be by identical time-frequency resources The number of received stream.Since the value is to determine that the value is usually than PMI and CQI long according to the long-term fading of channel Period feed back from UE to BS.

PMI is the value for reflecting channel space characteristic, and it is preferred preferred to indicate that UE is based on the such measurement of such as SINR Pre-coded index.

CQI is the value for indicating channel strength, and typically refers to the obtainable reception SINR when BS is using PMI.

In 3GPP LTE/LTE-A system, BS is that UE configures multiple CSI processing, and can receive for each processing CSI。

In this case, CSI processing is by for the signal quality measured CSI-RS from BS and for interference measurement CSI interference measurement (CSI-IM) resource composition.

Reference signal (RS) visualization

In mmW, it can be shaped by analog beam and once only send up PDSCH an analog beam side.

Therefore, eNB only sends data to some UE of smallest number in particular directions.

Therefore, it if it is necessary, being configured differently analog beam direction for each antenna port, makes it possible in multiple simulations Data are executed to multiple UE simultaneously on beam direction to send.

Fig. 7 is instantiated can be using the various examples of the coverage for TXRU of the method proposed in this specification.

* in Fig. 7,256 antenna elements are divided into 4 parts, to form 4 subarrays, and TXRU are connected to The structure of each subarray will be described as example.

When each subarray is made of 64 (8 × 8) a antenna elements in total of two-dimensional array form, specific analog wave Beam shaping can cover region corresponding with 15 degree of level angle regions and 15 degree of vertical angle regions.

That is, eNB should be divided into multiple regions in the region for wherein receiving service, and once one by one provide service.

In the following description, it is assumed that CSI-RS antenna port and TXRU are 1 pair 1 and map.

Therefore, it can be interpreted that antenna port and TXRU have and identical meaning are described below.

If all TXRU (antenna port, subarray) have with identical simulation wave beam for being illustrated in (a) of Fig. 7 at Shape direction then can increase the handling capacity of corresponding region by forming the higher digital beam of resolution ratio.

In addition, the handling capacity of corresponding region can be increased by the way that the RANK for sending data is increased to corresponding region.

In addition, as illustrated in (b) of Fig. 7, if each TXRU (antenna port, subarray) has different analog waves Beam shaping direction, the then UE that can be sent data to simultaneously in the broader area being distributed in subframe (SF).

As illustrated in (b) of Fig. 7, two in four antenna ports are used for the PDSCH hair to the UE1 in region 1 It send, and remaining two antenna port be used to send the PDSCH of the UE2 in region 2.

In addition, (b) of Fig. 7 instantiates the PDSCH 1 for being sent to UE 1 and the PDSCH 2 for being sent to UE 2 undergoes spatial division multiplexing With the example of (SDM).

Unlike this, as illustrated in (c) of Fig. 7, the PDSCH of UE1 can be sent to by frequency division multiplexing (FDM) 1 and it is sent to the PDSCH 2 of UE 2.

The scheme that a region is serviced using all antenna ports and by divide antenna port come and meanwhile service more It, can be according to RANK and to the preferred scheme of MCS service change of UE, to make cell throughout most in the scheme in a region Bigization.

In addition, changing preferred embodiment according to by the data volume for being sent to each UE.

ENB calculates the cell throughout that can be obtained when servicing a region using all antenna ports or scheduling degree Amount, and calculate the cell throughout that can be obtained when by dividing antenna port to service two regions or scheduling metrics.

The cell throughout or scheduling metrics that can be obtained with various schemes are compared by eNB, to select final hair Send scheme.

As a result, changing to SF the number for participating in the antenna port that PDSCH is sent one by one.

In order to keep eNB anti-according to the transmission MCS of the number of antenna port calculating PDSCH and by calculated transmission MCS Dispatching algorithm is reflected, the CSI feedback from suitable UE is needed.

Beam reference signal (BRS)

Beam reference signal is sent on one or more antenna ports (p={ 0,1 ..., 7 }).

Reference sequences r_l(m) it is defined by formula 2 related with the sequence of BRS is generated.

[formula 2]

In formula 2,0 to 13 l indicates OFDM symbol number.In addition, c (i) indicates pseudo-random sequence, and pseudorandom sequence Column-generation device can start to be initialized to formula 3 in each OFDM symbol.

[formula 3]

Beam optimum reference signal

In addition, beam optimization reference signal passes through up to 8 antenna port (p=600 about beam optimization reference signal It is sent to antenna port 607).

Sequence about beam optimization reference signal generates, and reference signal r is generated as shown in formula 4_l,ns(m)。

[formula 4]

In formula 4, n_sIt indicates the time-gap number in radio frame and l indicates that the OFDM symbol in time slot is numbered.c(n) Indicate pseudo-random sequence, and pseudo random sequence generator starts to be initialized to formula 5 in each OFDM symbol.

[formula 5]

In formula 5, configured in UE by RRC signaling

DL phase noise compensation reference signal

It is sent with xPDSCH at antenna port p=60 and/or p=61 (that is, by NR system via the A signaling of A DCI format Unite the PDSCH supported) associated phase noise compensation reference signal.In addition, phase noise compensation reference signal only for day The associated xPDSCH of line end mouth, which is sent, to be existed and/or effectively, and only in the sPDSCH Physical Resource Block being mapped to and symbol Middle transmission.In addition, phase noise compensation reference signal is identical in all symbols for corresponding to xPDSCH distribution.

Reference sequences r (m) is defined by formula 6 related with the sequence of phase noise compensation reference signal is generated.

[formula 6]

In formula 6, c (i) indicates pseudo-random sequence, and pseudo random sequence generator is initial in the beginning of each subframe Turn to formula 7.

[formula 7]

In formula 7, in the case where sending xPDSCH, n_SCIDIt is provided by DCI format relevant to the transmission of xPDSCH, Otherwise, n_SCIDIt is arranged to 0.

In addition, in the case where tieing up multiple-input and multiple-output (MIMO) technology in three-dimensional multiple-input and multiple-output (3D-MIMO) or entirely, The active antenna system (AAS) with two-dimensional planar array structure can be used.

Fig. 8 is instantiated can be using the mimo system using 2D planar array structure of the method proposed in this specification Example.

By 2D planar array structure, a large amount of antenna elements can be packaged in the element of available base stations type, and can To provide the adaptive electric power capacity in 3d space.

MIMO about NR system is designed, and considers the CSI frame for measuring and reporting the channel status between eNB and UE Frame.

This description presents the CSI report sides carried out based on CSI frame described in hereafter (or CSI obtains frame) Method.Firstly, being specifically described the CSI frame considered in NR system.Consider in NR system firstly, will be described in detail CSI frame.

Different from the traditional LTE system of formal definition CSI correlated process only handled with CSI, CSI frame can mean to make CSI correlated process is defined with CSI report setting, resource setting, CSI measure setup and CSI measure setup.Therefore, in NR system In system, CSI correlated process can be executed with more flexible scheme according to channel and/or resource situation.

I.e., it is possible to be defined by the setting of combination CSI report, resource setting and CSI measure setup in NR system Carry out the configuration of CSI correlated process.

For example, UE can be configured as through the setting of N >=1 CSI report, the setting of M >=1 resource and a CSI measurement It is arranged to obtain CSI.In this case, CSI measure setup can mean setting for the setting of N number of CSI report and M resource The information of link between setting.In addition, here, resource setting includes reference signal (RS) setting and/or interference measurement setting (IM setting).

Fig. 9 instantiates the example of the CSI frame considered in the NR system that can apply the method proposed in this specification.

Referring to Fig. 9,906 configuration CSI frame of report setting 902, measure setup 904 and resource setting can be passed through.At this In the case of kind, report setting can mean that CSI report is arranged, and measure setup can mean CSI measure setup, and resource is arranged It can mean that CSI-RS resource is arranged.

In Fig. 9, CSI-RS resource is instantiated, but the present disclosure is not limited thereto.CSI-RS resource can be with can be used for CSI is obtained or the replacement of the resource of the downlink reference signal (DL RS) of wave beam management.

As illustrated in Fig. 9, report setting 902 can be by a report setting of N (N >=1) (for example, report setting n1, report N2 etc. is set) it constitutes.

In addition, resource setting 906 can be by a resource setting of M (M >=1) (for example, resource setting m1, resource setting m2, money M3 etc. is arranged in source) it constitutes.In this case, each resource setting may include a resource set of S (S >=1) and each resource Collection may include K (K >=1) a CSI-RS.

In addition, measure setup 904 can mean order report setting resource setting between link setting information with And it is configured for the measurement type of respective links.In this case, each measure setup may include L (L >=1) a chain Road.For example, measure setup may include for reporting that the setting of the link (link l1) between setting n1 and resource setting m1 is believed It ceases, for reporting setting information of link (link l2) between setting n1 and resource setting m2 etc..

In this case, each of link l1 and link 12 can be configured as channel measurement link or interference is surveyed Measure any of link.In addition, link l1 and/or link 12 can be configured for rate-matched or other purposes.

It is set in such a case, it is possible to be dynamically selected a CSI measurement via (L2) signaling of layer 1 or L2 (layer 2) signaling One or more CSI reports setting in setting.It is set in addition, being also dynamically selected via L1 or L2 signaling from least one resource It sets one or more CSI-RS resource collection of middle selection and concentrates one of selection or more from least one CSI-RS resource Multiple CSI-RS resource.

Hereinafter, will description consider in NR system composition CSI frame CSI report setting, resource setting (that is, CSI-RS resource setting) and CSI measure setup.

CSI report setting

Firstly, CSI report setting can mean the information that be directed to the type for the CSI report that base station executes for UE to be arranged With information included in corresponding CSI report.

For example, CSI report setting may include time domain behavior type, frequency granularity, the CSI parameter to be reported (for example, pre- Encoder matrix indicator (PMI), order designator (RI), channel quality indicator (CQI)), CSI type (for example, CSI Class1 or 2) codebook configuration and measurement limitation arrangement, including codebook subset limitation.

In the present specification, time domain behavior type can mean aperiodicity behavior, cyclic behaviour or semi-persistent row For.

In such a case, it is possible to be used for CSI report by higher level signaling (for example, RRC signaling) configuration (or instruction) The configuration parameter of setting.

In addition, it is related with CSI report setting, it can support the frequency granularity of three types, that is, broadband report, partial-band Report and subband report.

Resource setting

Next, resource setting can mean that the information of the resource of CSI measurement and report will be used for for being arranged.For example, Resource setting may include the type of the operation mode of time domain, RS (for example, non-zero power CSI-RS (NZP CSI-RS), zero power Rate CSI-RS (ZP CSI-RS), DMRS etc.), by resource set of K resource composition etc..

As mentioned above, each resource setting may include one or more resource sets, and each resource set can To include one or more resources (for example, CSI-RS resource).In addition, resource setting may include for channel measurement and/ Or the setting of the signal of interference measurement.

As an example, each resource setting may include the setting information of S resource set (for example, CSI-RS resource collection), It and can also include the setting information for K resource of each resource set.In this case, each resource set can be with The set of different selections is corresponding from the pond of all CSI-RS resource configured for UE.In addition, the setting information of each resource It may include the information about resource element, the number of port, the action type of time domain etc..

Alternatively, as another example, the setting of each resource may include S CSI-RS resource setting information and/or Number is equal to or less than K CSI-RS resource of the port of each CSI-RS resource.

In this case, the CSI-RS RE mapped mode of N-port CSI-RS resource can be by same or less quantity One or more CSI-RS mapped modes of CSI-RS resource are constituted.In this case, CSI-RS RS mapped mode can be with It defines in a slot and crosses multiple configurable continuous/discontinuous OFDM symbols.

In such a case, it is possible to be configured to the setting ginseng of resource setting by higher level signaling (for example, RRC signaling) Number.

In addition, in the case where the setting of each semi-persistent resource or periodic resources are arranged, it can be in configuration information Additionally reporting cycle.

CSI measure setup

Next, CSI measure setup can mean to indicate that UE will be arranged and reflect for specific CSI report for CSI report The specific resources setting for being mapped to it executes the setting information of which measurement.That is, CSI measure setup may include about CSI report The information of link between resource setting is set, and may include information of the instruction for the measurement type of each link. In addition, measurement type can mean channel measurement, interference measurement, rate-matched etc..

As an example, CSI measure setup may include the information of the information for indicating CSI report setting, instruction resource setting And for the setting with reference to transmission scheme in the case where CQI.In this respect, UE can support L >=1 CSI measure setup, and And it can be according to the capabilities setting L value of corresponding UE.

In this case, a CSI report setting may be coupled to one or more resource settings, and multiple CSI report setting may be coupled to same resource setting.

In such a case, it is possible to be configured to the setting ginseng of CSI measurement by higher level signaling (for example, RRC signaling) Number.

In addition, supporting the interference measurement based on zero energy (ZP) CSI-RS for being used for CSI feedback in NR system.In addition, It can support aperiodicity interferometry resource (IMR), semi-persistent IMR and week based on the ZP CSI-RS for interference measurement Phase property IMRCSI feedback.

In addition, about CSI report setting, resource setting and CSI measure setup, such as according to the agreement of time domain behavior type Under.

Firstly, can pass through the periodical CSI-RS the case where under (that is, periodically carrying out the case where CSI-RS is sent) MAC CE and/or down link control information (DCI) activation/disabling semi-persistent CSI report.Unlike this, aperiodicity CSI Report can be triggered by DCI, however, in this case, it is possible to needing to be configured for the additional signaling of MAC CE.

Next, not propped up under (that is, executing the case where CSI-RS is sent semi-durablely) the semi-persistent CSI-RS the case where Hold periodical CSI report.On the contrary, semi-persistent CSI report can be and semi-durable by MAC-CE and/or DCI activation/disabling Property CSI-RS can be by MAC-CE and/or DCI activation/disabling.In addition, in this case, aperiodicity CSI report can be by DCI triggering, and semi-persistent CSI-RS can be by MAC-CE and/or DCI activation/disabling.

Finally, not propped up under (that is, aperiodically executing the case where CSI-RS is sent) the aperiodicity CSI-RS the case where Hold phase property (and semi-persistent) CSI report.On the contrary, aperiodicity CSI report can be triggered by DCI, and aperiodicity CSI- RS can be triggered by DC and/or MAC-CE.

Three kinds of time domain behavior types related with CSI report can be supported in NR system referring to content and agreement.At this In the case of kind, these three time domain behavior types can mean aperiodicity CSI report, semi-persistent CSI report and periodicity CSI Report.Equally, NR system can be supported in three kinds of time domain behavior types for report relevant to (analog and/or digital) wave beam Some or all.

In addition, in the case where downlink reference signal (the DL RS) for carrying out channel measurement when obtaining CSI, It can support three kinds of time domain behavior types (for example, aperiodicity CSI-RS, semi-persistent CSI-RS and periodicity CSI-RS).Together Sample can support some or all of these three time domain behavior types for the DL RS for wave beam management.Substantially, CSI- RS is considered as the DL RS for wave beam management, but another DL signal also can be used.For example, being used for the DL RS of wave beam management It can be mobility RS, wave beam RS, synchronization signal (SS), SS block, DL DMRS (for example, PBCH DMRS or PDCCH DMRS) Deng.

In addition, as described above, the interferometry resource specified in UE when CSI by base station can be supported and be obtained to NR system (IMR) related to be based on ZP CSI-RS interference detecting method.In addition, it is related with interferometry resource (IMR), it can support to be based on At least one of interference detecting method or the interference detecting method based on DMRS of non-zero power (NZP) CSI-RS.

Specifically, it is different from being semi-statically configured in LTE system (that is, traditional LTE system) based on ZP CSI-RS's In the case where IMR, in NR system, the method for dynamically configuring the IMR based on ZP CSI-RS can be supported.It is, for example, possible to use Aperiodicity IMR, semi-persistent IMR and/or periodicity IMR method based on ZP CSI-RS.

It measures and reports accordingly, with respect to channel estimation (or channel measurement), Interference Estimation (or interference measurement) and for CSI The report of announcement, it may be considered that the various combinations of time domain behavior type.For example, aperiodicity CSI report can be surveyed with for channel Aperiodic/semi-durable/periodicity NZP CSI-RS measured and aperiodic/semipermanent/periodicity ZP CSI- for interference measurement RS is configured together.For another example, semi-persistent CSI report can with for channel measurement semi-durable/periodicity NZP CSI-RS and Semipermanent/periodicity NZP CSI-RS for interference measurement is configured together.For another example, periodical CSI report can with for believing The periodical NZP CSI-RS of road measurement and the periodical NZP CSI-RS for interference measurement are configured together.

In the present specification, " A/B " means A or B, and it is contemplated that the combination of change sequence between "/".For example, " A/B and C/D " can mean " A and C ", " A and D ", " B and C " or " B and D ".

In these examples, it is assumed that aperiodicity RS and/or IMR are (for example, aperiodicity NZP CSI-RS and/or non-week Phase property ZP CSI-RS) it is only used for acyclic reporting, semi-persistent RS and/or IMR are (for example, semi-persistent NZP CSI-RS And/or semi-persistent ZP CSI-RS) it is only used for aperiodicity or semi-persistent report, and periodically RS and/or IMR (example Such as, periodical NZP CSI-RS and/or periodicity ZP CSI-RS) it is used for all reports.However, the present disclosure is not limited thereto, and Various combinations (for example, the semi-persistent report configured together with aperiodicity RS and/or IMR) can be configured.

In addition, RS and IMR are included in all resource settings, and can be by for each chain in measure setup The use (for example, for channel estimation or for Interference Estimation) for configuring to indicate corresponding resource on road.

Referring to these contents, for example, measuring and reporting that related radio resource control is configured with CSI in NR system (RRC configuration) can be as defined in table 4.

[table 4]

Referring to table 4, base station M resource can be arranged by higher level signaling, N number of report is arranged and a measure setup It notifies to UE.

For example, each resource setting (that is, m is arranged in resource) may include the general property and resource set of resource degree of establishment The configuration of " s ".In this case, the general property of resource degree of establishment means that the general characteristic sent is arranged by resource, It and may include time domain behavior, RS type, RS purposes (wave beam management or CSI are obtained), frequency location and bandwidth, RS power Deng.

In addition, the configuration of resource set can mean to configure the configuration information of S resource set of resource setting.Each resource set (that is, resource set " s ") may include the general property of resource set rank (that is, frequency location and bandwidth, RS power, period, time slot Offset and port number) and each collection resource k (that is, may include k resource in each resource set).In addition, each money Source collection can also include for the configuration information in resource class as the mapping of RE and such as port number.

In addition, each report setting (that is, report setting " n ") may include configuration information relevant to report.For example, with Report that relevant configuration information may include the CSI parameter of report, CSI type (CSI Class1 or 2) (if report) including code Frequency granularity, measurement limitation arrangement of codebook configuration, time domain behavior, CQI and PMI that this subset limits etc..

In addition, measure setup may include the configuration information for L link.In this case, corresponding configuration information It may include that indicator is set for the resource setting indicator of respective links configuration, report and/or indicates the index to be measured The information of (for example, channel or interference).

The UE for having received RRC configuration information can prepare or execute the channel suitable for each report setting and/or interference Measurement.

In addition, in NR system, it may be considered that by classification signaling come trigger, activate and/or disable CSI report be arranged or The method of CSI resource setting.

For example, in NR system, can be introduced from by higher to support dynamic report triggering/activation/disable operation The method that one or more report settings are selected by dynamic signaling in N number of report setting of layer signal deployment.For example, more High-level signaling can mean layer 3 (L3) signaling (for example, RRC signaling), and dynamic signaling can mean layer 1 (L1) signaling (example Such as, DCI) and/or layer 2 (L2) signaling (for example, MAC-CE).

In addition, in NR system, can be supported a) by higher to support dynamic resource triggering/activation/disable operation In the M resource setting that layer signaling (for example, L3 signaling) configures the operation (operating 1) of one or more resource sets of selection and/ Or b) select the operation (operation 2) of one or more resources.

Specifically, referring to Fig. 9, operation 1 can mean by considering that M resource setting, each resource are included in being arranged S resource set and each resource set in included K resource select the operation of one or more of resource set.This Outside, operation 2 can mean by considering S resource set and each resource included during M resource is arranged, each resource is arranged Concentrate included K_sA resource selects the operation of one or more of resource set.In this case, operation 1 can be by It is expressed as resource set rank selection operation, and operate 2 to be represented as resource class selection operation.

Figure 10 is instantiated can be using the resource set of the method proposed in this specification or the example of resource selection method.Figure 10, just for the sake of facilitating description, are not intended to limit the scope of the present disclosure.

Referring to Fig.1 0, as shown in Figure 9, it is assumed that UE has passed through higher level signaling (for example, RRC signaling) and received from base station The configuration information of CSI frame is (that is, M resource setting, N number of report are set providing and including the measurement of the configuration information of L link It sets).

In addition, having instantiated CSI-RS resource in Figure 10, but the present disclosure is not limited thereto.CSI-RS resource can be used It can be used for the resource replacement of the downlink reference signal (DL RS) of CSI acquisition or wave beam management.

Figure 10 a instantiates the operation (that is, operation 1) that one or more resource sets are selected by dynamic signaling.For example, UE It can be received by L1 signaling (for example, DCI) or L2 signaling (for example, MAC-CE) from base station and be set for one or more reports The instruction set and the instruction for one or more resource sets.

In addition, Figure 10 b instantiates the operation (that is, operation 2) for selecting one or more resources by dynamic signaling.Example Such as, UE can be received from base station for the instruction of one or more report settings and for one by L1 signaling or L2 signaling Or more resource instruction.

Figure 10 a and Figure 10 b are instantiated for the convenience of description, resource set/resource selection and report setting selection are by independence Selection, but can be executed by unified signaling.For example, base station can with one DCI of first use by resource set (or money Source) select and report that the combination that selection is arranged is notified to UE.

However, if using method as method described in such as Figure 10 (that is, operation 1 and operation 2), because logical Resource set number and the number of resources for crossing higher level signaling (for example, RRC signaling) configuration are too many, so dynamic signaling (for example, L1/L2 signaling) burden (or complexity) will increase.

For example, it may be assumed that permitted maximum M value (that is, maximum resource setting number) is arranged to 8 in system, and S value (that is, for maximum resource collection number of each resource setting) and K_SValue is (that is, be directed to the maximum resource of each resource set Number) it is arranged to 8.In this case, if it is considered that being selected according to the resource set that operation 1 carries out, then base station can pass through L1 or L2 signaling is indicated relative to UE from a candidate resource set selected in the middle in most 32 (32=8 × 4).In addition, if considering According to the resource selection that operation 2 carries out, then base station can indicate to work as from most 256 (256=8 × 4 × 8) a candidates relative to UE The resource of middle selection.

In addition, different from previous occasion (that is, primary selection), the number of resource set or resource that base station to be selected can be by It is configured to 2.In this case, if it is considered that according to operation 1 carry out resource set select, then base station need from₃₂C₂(that is, 496) a candidate selection resource set in the middle.In addition, if consider the resource selection that carries out according to operation 2, then base station needs from₂₅₆C₂(that is, 32640) a candidate selection resource in the middle.

If base station is as described above by considering that all resource sets or resource provide instruction, control signaling as candidate Expense can be very big.

Therefore, hereinafter, in the present specification, the various methods for reducing this control signaling expense are described.

Specifically, this description presents only pressing implicit/explicit when executing L1/L2 signaling and carrying out dynamic resource selection The method of selection resource set (and/or resource) in the resource group that signaling or ad hoc rules determine.

In this case, resource group can mean that being wherein configured with one or more resources is arranged, is one or more One or more resources of a resource set and/or one or more resources are candidate.I.e., it is possible to according to particular community by M K resource included in included S resource set and each resource set is divided into one in resource setting, the setting of each resource Or more group.In this case, the index of the resource set (and/or resource) in resource group can be renumberd.

Hereinafter, the method that configuration is considered as reducing the resource group of control signaling expense is described.This theory can be used Every kind of method described in the embodiment of bright book configures resource group or can configure resource by combining a variety of methods Group.

Hereinafter, description divides embodiment described in this specification for convenience, and any embodiment Some configurations or characteristic can be included in another embodiment or can correspond to configuration or spy by another embodiment Property replacement.

First embodiment --- the method that resource group is configured based on the time domain behavior type of report setting

Firstly, the side that resource setting, resource set and/or resource are implicitly grouped by description by the parameter of report setting Method.

Specifically, in the first embodiment, it describes based on for reporting the parameter for establishing the setting of connection with resource The parameter of instruction time domain behavior type in (that is, passing through the preconfigured report setting parameter of higher level signaling) provides to configure The method of source group.

In such a case, it is possible to configure (or determination) resource by the combination of the resource and report supported in system Group.In such a case, it is possible to configure the combination of supported resource and report in the following example as described above.This is only illustrated The example of the combination and the present disclosure is not limited thereto.The disclosure can also be applied to the various combinations not yet illustrated.

As combination and report combined example, aperiodicity CSI report can with for channel measurement it is aperiodic/ Semi-durable/periodicity NZP CSI-RS and aperiodic/semipermanent/periodicity ZP CSI-RS for interference measurement are configured together. Alternatively, for another example, semi-persistent CSI report can with semi-durable/periodicity NZP CSI-RS for channel measurement and be used for Semipermanent/periodicity NZP CSI-RS of interference measurement is configured together.For another example, periodical CSI report can be surveyed with for channel The periodical NZP CSI-RS of amount and periodical NZP CSI-RS for interference measurement are configured together.

I.e., it is possible to which resource set and/or resource are divided into one based on the time domain behavior type for being configured for report setting A or more group.For example, base station can indicate will be only in phase if indicated report setting is periodic report setting For sending CSI- in the resource setting (or resource set or resource) of the preparatory connection (or being pre-configured with) of periodic report setting The resource of RS.In this case, the resource setting (or resource set or resource) connected in advance relative to periodic report setting It can be represented as resource group corresponding with periodic report setting.

For example, the M resource sent by higher can be arranged if following this method, each resource is arranged In K resource classification included in included S resource set and/or each resource set be corresponding with periodic report setting Resource group and acyclic reporting corresponding resource group and resource group corresponding with semi-persistent report setting are set.

In such a case, it is possible to be renumberd in each group to the index of resource setting, resource set and/or resource. That is, it is different from the case where being indexed by higher level signaling (for example, RRC signaling), it can be in each group respectively to resource The index of the index of setting, the index of resource set and/or resource is numbered.

The detailed example of method is as follows.

For example, base station instruction is used for UE if base station triggers aperiodicity resource (for example, aperiodicity RS/IMR) The resource group of selection can be configured with belong to acyclic reporting setting establish connection resource setting resource set and/or Resource.In other words, in corresponding situation, base station can be indicated corresponding with acyclic reporting setting by L1/L2 signaling Specific resources group in resource set or resource.Therefore, UE can select resource set or money in indicated specific resources group Source.In such a case, it is possible to execute report setting and resource setting (or resource by higher level signaling (for example, RRC signaling) Collection or resource) between connection establish.

For another example, if base station activation or disabling semi-persistent resource (for example, semi-persistent CSI-RS), are indicated by base station For UE selection resource group can be configured with belong to acyclic reporting setting and/or semi-persistent report setting build The resource set and/or resource of the resource setting of vertical connection.In other words, in corresponding situation, base station can pass through L1/L2 signaling Come indicate to be arranged with acyclic reporting and/or the corresponding specific resources group of semi-persistent report setting in resource set or specific Resource.Therefore, UE can select resource set or resource in indicated specific resources group.Even in this case, may be used To be executed by higher level signaling (for example, RRC signaling) between report setting and resource setting (or resource set or resource) Connection is established.

In this case, base station can send the message for the selection instruction for report setting by a signaling The message indicated with the selection for resource set or resource, or can be sent by each signaling each in these message It is a.For example, base station can be by any of L1 signaling (for example, DCI) or L2 signaling (for example, MAC-CE) by these message It sends together.Alternatively, base station can send the message for the selection instruction of report setting by L2 signaling and pass through L1 Signaling sends the message of the selection instruction for resource set or resource, and vice versa.

It, can be with if either implicitly or explicitly dividing aperiodicity resource selection message and semi-persistent resource selects message Usefully using the method proposed in the first embodiment.

For example, if base station is configured as indicating aperiodicity resource selection by DCI and by MAC-CE instruction half Persistent resources selection, then UE can implicitly divide two kinds of resource selection type.That is, in corresponding example, when logical When crossing DCI and receiving resource selection information, the information received can be identified as and aperiodicity resource selection by corresponding UE Relevant information.On the contrary, corresponding UE can know the information received when receiving resource selection information by MAC-CE It Wei not information relevant to semi-persistent resource selection.

Second embodiment --- the method for resource group is configured based on resource related parameters

The method being grouped based on resource related parameters to resource setting, resource set and/or resource is described below.

Specifically, in this second embodiment, it describes and is based on being referred to by resource type, Resource Properties and/or measure setup The purposes (for example, channel measurement, interference measurement or PDSCH rate-matched) of fixed corresponding resource carrys out (implicitly) configuration resource group Method.In this case, the resource related parameters that can be used for resource group configuration can mean through higher level signaling (example Such as, RRC signaling) configuration resource setting in included parameter.

I.e., it is possible to will be arranged by M resource of higher level signaling configuration based on the parameter value collection for each resource, K resource classification included in included S resource set and/or each resource set is multiple resources in each resource setting Group.

In the case where this method, advantage is that base station does not need to send a group indicator by explicit signaling.That is, if Using corresponding method, then it can pass through the type, characteristic and/or purposes of corresponding resource without individually organizing indicator Relevant indicator configures resource group.

The detailed example of this method is as follows.

For example, resource group can be configured based on resource type according to time domain behavior.Specifically, multiple resources can be set It sets, multiple resource sets and/or multiple resource classifications are aperiodicity resource group, periodic resources group or semi-persistent resource group.

It for another example, can be according to using the service condition of corresponding resource to configure resource group based on resource type.Specifically, may be used To be to be used for the resource group of wave beam management (for example, being used for by the setting of multiple resources, multiple resource sets and/or multiple resource classifications The CSI-RS of BM) or for CSI obtain resource group (for example, for CSI obtain CSI-RS).

For another example, resource group can be configured based on resource type according to the type of reference signal.It specifically, can will be multiple Resource setting, multiple resource sets and/or multiple resource classifications are and the corresponding resource group of CSI-RS, resource group corresponding with MRS Or resource group corresponding with BRS.

For another example, resource group can be configured based on resource type according to the power configured in resource.Specifically, it can incite somebody to action Multiple resource settings, multiple resource sets and/or multiple resource classifications are resource group corresponding with zero energy (ZP) (for example, ZP ) or resource group corresponding with non-zero power (NZP) (for example, NZP CSI-RS) CSI-RS.

Furthermore, it is possible to configure resource group by combining method described in these examples.

For example, can by considering time domain behavior type together, using the method for corresponding resource and in corresponding resource The power of configuration configures resource group.Specifically, the multiple resources configured by higher level signaling can be arranged, multiple resources Collection and/or multiple resource classifications are following resource group.

It is used for the aperiodicity ZP CSI-RS (the aperiodicity ZP CSI-RS for IM) of interference measurement

It is used for the aperiodicity NZP CSI-RS (the aperiodicity NZP CSI-RS for IM) of interference measurement

It is used for the aperiodicity NZP CSI-RS (the aperiodicity NZP CSI-RS for CM) of channel measurement

It is used for the semi-persistent ZP CSI-RS (the semi-persistent ZP CSI-RS for IM) of interference measurement

It is used for the semi-persistent NZP CSI-RS (the semi-persistent NZP CSI-RS for IM) of interference measurement

It is used for the semi-persistent NZP CSI-RS (the semi-persistent NZP CSI-RS for CM) of channel measurement

It is used for the periodical ZP CSI-RS (the periodical ZP CSI-RS for IM) of interference measurement

It is used for the periodical NZP CSI-RS (the periodical NZP CSI-RS for IM) of interference measurement

It is used for the periodical NZP CSI-RS (the periodical NZP CSI-RS for CM) of channel measurement

The example is only the combined example of resource type, and the present disclosure is not limited thereto.It can be by considering various moneys The combination of Source Type configures resource group.

Third embodiment --- the method for resource group is configured based on link attribute

It is described below based on the property parameters for each link established by the measure setup for resource and configures money The method of source group.

Specifically, in the third embodiment, the purposes that the link of corresponding resource foundation is directed to based on instruction is described Parameter (for example, " quantity to be measured ") is come the method that configures resource group.

For example, the link established for each resource can be configured for channel estimation (that is, channel measurement) or interference Estimate purposes.In this case, base station, which can be used, indicates the parameter of the attribute of each link to indicate the link for UE Purposes.In addition, base station can additionally using the parameter come to UE send indicate corresponding resource whether be used as PDSCH (that is, Data) rate-matched purposes information.

In such a case, it is possible to configure identical resource setting for multiple reports setting, and corresponding resource is set It sets and can be configured as the different purposes as each report setting.For example, specific resources setting can be configured as needle To the resource of the channel measurement of the first report setting, and can be configured as the interference measurement for the second report setting Resource.

It therefore, may there are resource set and/or resource are superfluous between the resource group configured if using this method It is remaining.

4th embodiment --- the method that resource group is configured based on the instruction of base station

The method for configuring resource group is described below based on the indicator of base station transmission.

Specifically, in the fourth embodiment, it describes based on indicator, the needle indicated by base station for report setting Indicator and/or resource associated indicator to link are come the method that configures resource group.In this case, resource correlation indicates Symbol can mean the indicator for resource, resource set and/or resource group.

The detailed example of this method is as follows.

For example, if base station to UE send for report setting indicator, corresponding UE can only with it is indicated Selection in the resource set or resource of connection is established in report setting will be used for the resource of CSI report.

For another example, if base station to UE send be directed to link indicator, corresponding UE can only with indicated link The resource of CSI report will be used for by establishing selection in the resource set or resource of connection.

For another example, if base station sends the indicator for being directed to resource set, corresponding UE can be only in indicated resource set Selection will be used for the resource of CSI report.

For another example, if base station sends the indicator for being directed to resource, corresponding UE can be selected only in indicated resource It is used for the resource of CSI report.

In this case, base station can be sent by the message in layer identical with the layer of resource related control information and be referred to Show symbol (that is, signaling information), or indicator can be sent by the message of higher.In this case, resource correlation control Information processed can mean for enabling base station to trigger, activating or disabling the control information of resource.For example, indicator can be as Pass through L1 signaling (for example, DCI) equally with control information to send, or by L2 signaling (for example, MAC-CE) (that is, than control Information processed high layer) it sends.

In addition, base station can believe in time slot identical with the time slot of resource related control information or in resource relevant control Indicator (that is, for reporting the specify information of setting, link, resource set or resource) is sent in time slot before the time slot of breath. In this case, time slot instruction sends unit and without being limited thereto, and can be with different chronomeres (for example, subframe Or sending time section) replacement.

If base station sends indicator in previous time slot, it is contemplated that limiting effective range according to the information of indicator The method of (for example, N number of time slot/N milliseconds).It is received in such a case, it is possible to set UE for the criterion for being used for effective range The timing of resource related control information.

For example, if UE receives instruction before receiving the effective range of timing of resource related control information based on UE Symbol, then corresponding UE can determine that indicated (or specified) report setting, link, resource set or resource are used as selecting The information of CSI report resource is effective.For example, if UE is receiving the effective of the timing of resource related control information based on UE Indicator is received after range, then corresponding UE can be configured as ignore indicated (or specified) report setting, link, Resource set or resource.

Furthermore, it is possible to be not based on the number of the absolute number, the number of link, resource set of preconfigured report setting in UE The mark (ID) of report setting, link, resource set and/or resource is numbered in the number of mesh and/or resource.I.e., it is possible to logical Cross the rope that preconfigured index in higher level signaling and UE is configured differently the index, link of report setting indicated by base station Draw, the index of the index of resource set or resource.

For example, in the embodiment of this specification, it can be by the proposed method of application together in scheduled candidate (or indexing again) is renumberd to index in group (that is, the candidate set for reporting setting, link, resource set or resource).In In this case, can be matched based on the type (or characteristic) of combination, the signaling that base station carries out and/or the resource supported in system Set predetermined candidate set.In other words, report setting, link, resource set or resource can be reconfigured in predetermined candidate set Index.

It is still further contemplated that sending the letter of resource group to UE by higher level signaling (for example, L2/L3 signaling) from base station The method of breath.For example, base station can be sent in resource setting, resource set or resource to UE by RRC information or MAC-CE message The resource group index configured in unit.Hereafter, base station can be referred to by the independent signaling (for example, L1/L2 signaling) for UE Show specific resources group index (or specific resources group mark).Therefore, corresponding UE can be configured (or instruction) be only with it is specific Selection will be used for the resource of CSI report in the corresponding resource group of resource group index.

In this case, individual signaling can execute in layer identical with the signaling of the information for the group, or Person can execute in lower layer.For example, base station can send the information of resource group by RRC signaling, and can pass through MAC-CE sends the information for indicating specific resources group index.Hereafter, DCI can be used to indicate that UE should only pass through in base station Selection resource set or resource in the resource group of MAC-CE instruction.

5th embodiment --- the method for resource group is configured based on control signaling resource

The method for implicitly indicating resource group by the DL resource location and/or format for control signaling is described below.

It specifically, can be based on the PDCCH or PDSCH for sending the dynamically control information of instruction resource set or resource selection Time/frequency location, format and/or the attribute of resource configure the resource of CSI report to be used for.For example, PDCCH can be right Ying Yu is by DCI come the case where sending information.The case where PDSCH corresponds to MAC-CE to send control information.

In such a case, it is possible to consider to be pre-configured with resource based on time resource (for example, time slot, subframe or symbol) Group and the method that resource group is indicated by the specific time resource of transmission control information.For example, base station can be pre-configured with It is mapped to the resource group of each time slot index or time slot collection, and can be indexed by sending the time slot of DCI or MAC-CE come (hidden Formula) instruction resource group.

In other words, base station can be pre-configured with and each time slot for UE by higher level signaling (for example, RRC signaling) Index or the corresponding resource group of each time slot collection, and the control of instruction resource set or resource selection can be sent in particular time-slot Information processed.The UE for having received control information can be confirmed by the way which time slot indexes or which time slot collection sends control letter Breath, and the resource group that corresponding position implicitly indicates can be identified by.

Alternatively, it is also contemplated that be based on frequency resource (for example, resource block group (RBG), resource block (RB) or subcarrier) Come the method for being pre-configured with resource group and indicating resource group by the specific frequency resources of transmission control information.For example, base Resource group can be pre-configured in RBG unit by standing, and can pass through the resource block group (RBG) of transmission DCI or MAC-CE (implicitly) instruction resource group is carried out in position.

In other words, base station can be pre-configured with and each resource by higher level signaling (for example, RRC signaling) for UE The corresponding resource group of block group, and the control information of instruction resource set or resource selection can be sent in specific RBG.It has received UE to control information can confirm that having passed through which RBG is sent controls information, and can be identified by corresponding position and implicitly refer to The resource group shown.

Alternatively, it is also contemplated that every kind of format for configuring (or mapping) for control information is (for example, the lattice of DCI Formula) and/or it is configured to control each search space (for example, the specific search space UE or the specific search space of cell) of information Resource group method.In this case, UE can confirm that the format of the control information received from base station and/or search are empty Between, and can identify the resource group of implicit instruction.

Furthermore, it is possible to embodiment of the present disclosure independently be executed, however it is contemplated that by will be in multiple embodiments The method that the method for description is applied together to configure resource group.

Such as, it may be considered that by the instruction of base station described in the 4th embodiment (that is, implicit or explicit letter Enable) come in the candidate money mainly selected by the combination of the resource and report supported in system described in first embodiment The method of resource group is specified in source.

For another example, the resource grouping carried out based on resource setting parameter, measure setup parameter and/or report setting parameter can be with Mainly by executing method described in first embodiment, second embodiment and third embodiment together application. Hereafter, network (that is, base station) can be based on by method described in the 4th embodiment of application and/or the 5th embodiment It indicates to configure (or determination) final resource group.

Furthermore, it is possible to implicitly or explicitly signaling information be sent by layering signaling method, to reduce signaling overheads.In In this case, layering signaling method can mean because indicating to wait using the message of the high layer of the layer than executing final signaling It selects group (for example, Candidate Set) and reduces the method for final signaling payload.In such a case, it is possible to consider two step signalings or Three step signalings are as layering signaling method.

As the example of two step signalings, base station can be sent to UE by L3 signaling (for example, RRC signaling) and be directed to candidate set Configuration information (for example, resource group configuration information or CSI configuration information), and can be by L1 or L2 signaling (for example, MAC- CE or DCI) instruction candidate set in particular candidate (for example, specific resources group).In addition, another example as two step signalings, Base station can send the configuration information for candidate set (for example, resource group configuration is believed to UE by L2 signaling (for example, MAC-CE) Breath, CSI configuration information), and the particular candidate in candidate set can be indicated (for example, specific by L1 signaling (for example, DCI) Resource group).

In addition, the example as three step signalings, base station can be directed to by L3 signaling (for example, RRC signaling) to UE transmission The configuration information (for example, resource group configuration information, CSI configuration information) of first candidate set.Hereafter, base station can pass through L2 signaling (for example, MAC-CE) is sent in the second candidate set configured in the first candidate set to UE (that is, number of candidates is fewer than the first candidate set Candidate set) configuration information (for example, child resource group configuration information).Finally, base station can pass through L1 signaling (for example, DCI) Indicate the particular candidate (for example, specific resources group) in corresponding second candidate set.

Figure 11 is shown can be using the process of the UE operation during the CSI report of the method proposed in this specification Figure.Figure 11 is not intended to limit the scope of the present disclosure just for the sake of facilitating description.

Referring to Fig.1 1, it is assumed that corresponding UE is based on CSI frame and executes CSI measurement and report and consider that specific money will be belonged to The case where resource of source group measures for CSI and reports the control overhead to reduce L1 or L2 signaling.

In step S1105, UE can receive CSI configuration information relevant to CSI report process from base station.In this feelings Under condition, CSI configuration information can mean the configuration information of CSI frame.That is, as shown in Figure 9, CSI configuration information may include It indicates the information of one or more measure setups, indicate the information of multiple report settings and indicates the letter of multiple resource settings Breath.

For example, UE, which can be received by RRC signaling from base station, measures and reports a relevant measure setup (packet to CSI Include the setting of L link), the configuration information of the setting of M resource and N number of report setting.

In step S1110, UE can receive the report information for indicating at least one of multiple report settings from base station. In other words, as described above, base station can be triggered by the report information for UE, activate or disable at least one report and set It sets.For example, report information can be sent by any of L1 signaling (for example, DCI) or L2 signaling (for example, MAC-CE).

In step S1115, UE, which can receive, indicates to belong to specific resources group relevant at least one report setting The resource information of at least one resource set or at least one resource.In other words, as in the method, base station can indicate that UE is answered The resource that only selection is measured and reported for CSI in specific resources group relevant at least one report setting.For example, can To send resource information by any of L1 signaling (for example, DCI) or L2 signaling (for example, MAC-CE).

In such a case, it is possible to based in the time domain at least one report setting configuration in the setting of multiple resources Operation mode (for example, aperiodicity CSI report, periodicity CS report or semi-persistent CSI report) configure specific resources Group.That is, as set forth above, it is possible to resource (or resource set) included in the setting of multiple resources is classified as and aperiodicity CSI Report the corresponding resource group and periodical corresponding resource group of CSI report and/or resource corresponding with semi-persistent CSI report Group.

In this case, step S1110 and step S1115 can be performed simultaneously.I.e., it is possible to by message (for example, DCI or MAC-CE) send report information and resource information.

In addition, as described above, specific resources group can be by combining multiple reports setting and multiple resources are arranged and match One in resource group set.Specifically, it according to embodiment of the present disclosure, can be configured based on being arranged for each report Time domain in operation mode and be arranged for each resource and the combination between the operation mode in the time domain that configures configures Resource group.

In addition, as set forth above, it is possible to rope in specific resources group at least one resource set for belonging to specific resources group Draw or the index of at least one resource is renumberd (that is, indexing again).

In addition, if base station is configured as the aperiodicity resource that triggering is used for CSI report, then specific resources group can wrap Include being arranged in multiple resource settings at least one preconfigured resource of aperiodicity CSI report.In such case Under, it may include pre- for aperiodicity CSI report for preconfigured at least one resource setting of aperiodicity CSI report At least one resource set or resource first configured.On the contrary, if base station is configured as activating or disabling partly holding for CSI report Long property resource, then specific resources group may include in multiple resources settings it is included for aperiodicity CSI report at least In one resource setting or the setting of multiple resources in included at least one resource setting for semi-persistent CSI report At least one.

Furthermore, it is possible to configure specific resources by additionally considering the property parameters of each of multiple resource settings Group.For example, the class of consideration corresponding resource (or resource setting or resource set) can be passed through as described in this second embodiment Type, attribute and/or purposes configure specific resources group.

Furthermore, it is possible to by additionally consider order report setting resource setting between link purposes (for example, with In channel measurement, for interference measurement and/or be used for rate-matched) parameter configure specific resources group.In this case, Indicate that the parameter of the purposes of link can be included in one or more measure setups.

It can be using the general introduction of the device of the disclosure

Figure 12 instantiates the block diagram of the wireless communication device according to embodiment of the present disclosure.

Referring to Fig.1 2, wireless communication system includes base station (or network) 1210 and UE 1220.

Base station 1210 includes processor 1211, memory 1212 and communication module 1213.

Processor 1211 realizes function, processing and/or the method proposed in figure 1 above into Figure 11.It can be by processor 1211 realize the layer of wire/wireless interface protocol.Memory 1212 is connect with processor 1211, is handled with storage for driving Each information of device 1211.Communication module 1213 is connect with processor 1211, to send and/or receive wire/wireless signal.

Communication module 1213 may include for sending/receiving the radio frequency of radio signal (RF) unit.

UE 1220 includes processor 1221, memory 1222 and communication module (or RF unit) 1223.Processor 1221 is real Function, processing and/or the method that present figure 1 above is proposed into Figure 11.The layer of Radio interface protocols can be by processor 1221 It realizes.Memory 1222 is connect with processor 1221, to store each information for driving processor 1221.Communication module 1223 connect with processor 1221, to send and/or receive wireless signal.

Memory 1212 and 1222 can be set inside or outside processor 1211 and 1221 and by various ripe Know that means are connect with processor 1211 and 1221.

In addition, base station 1210 and/or UE 1220 can have single antenna or more antennas.

Figure 13 instantiates the block diagram of the communication device according to embodiment of the present disclosure.

Particularly, Figure 13 is the figure of the more specifically UE of diagrammatic illustration 12.

3, UE can be configured as including processor (or digital signal processor (DSP)) 1310, RF module referring to Fig.1 (or RF unit) 1335, power management module 1305, antenna 1340, battery 1355, display 1315, keyboard 1320, memory 1330, Subscriber Identity Module (SIM) blocks 1325 (component is optional), loudspeaker 1345 and microphone 1350.UE can be with Including single antenna or more antennas.

Processor 1310 realizes function, processing and/or the method proposed in figure 1 above into Figure 11.It can be by processor 1310 realize the layer of Radio interface protocols.

Memory 1330 is connect with processor 1310, to store information relevant to the operation of processor 1310.Memory 1330 can be set inside or outside processor 1310 and can be connect by various well known means with processor 1310.

User is for example, by pressing button on (or touch) keyboard 1320 or carrying out language by using microphone 1350 Sound activates to input command information as telephone number etc..Processor 1310 receives this command information and is located Reason includes making a phone call appropriate function as number to execute.Can from SIM card 1325 or memory 1330 extraction operation Data.In addition, processor 1310 can show command information or activation bit on display 1315, so as to user's identification and It is convenient.

RF module 1335 is connect with processor 1310, to send and/or receive RF signal.Processor 1310 is by command information It is transmitted to RF module 1335, to initiate to communicate, for example, to send the radio signal for being constituted voice communication data.RF module 1335 by the receiver and transmitter for sending and receiving radio signal.Antenna 1340 is for sending and receiving aerogram Number.When receiving radio signal, RF module 1335 can transmit the processing of signal device 1310 for processing and by the signal Be converted to base band.Treated, and signal can be converted into the audible or readable information exported via loudspeaker 1345.

Above-mentioned embodiment is realized by the combination in a predefined manner of the structural detail and feature of the disclosure 's.Except non-individual indicates, each of structural detail or feature otherwise should be selectively considered.Can not with other knots Structure elements or features execute each of structural detail or feature in the case where combining.In addition, some structural details and/or spy Sign can be selectively combined with each other, to constitute embodiment of the present disclosure.It can change behaviour described in embodiment of the present disclosure The sequence of work.The some structural details or feature of one embodiment can be contained in another embodiment, Huo Zheke To be replaced by the counter structure elements or features of another embodiment.It is further clear that reference specific rights requirement Some claims can be with other claims of other claims of the reference other than the specific rights requirement Combination increases new claim to constitute embodiment, or by modifying after submitting application.

Embodiment of the present disclosure can pass through various means (for example, hardware, firmware, software or combinations thereof) Lai Shixian. In hardware configuration, according to the method for embodiment of the present disclosure can by one or more ASIC (specific integrated circuit), DSP (digital signal processor), DSPD (digital signal processing device), PLD (programmable logic device), (scene can compile FPGA Journey gate array), processor, controller, microcontroller, microprocessor etc. realize.

In firmware or software configuration, embodiment of the present disclosure can be realized in the form of module, program, function etc.. Software code can be stored in storage unit and be executed by a processor.Memory can be located at processor inside or Outside, and processor can be transmitted data to via various any means knowns and receive data from processor.

It will be apparent to those skilled in the art can be without departing from the spirit or the scope of the present disclosure in the disclosure In carry out various modifications and deform.Therefore, what the disclosure was intended to cover the disclosure falls into the attached claims and its equivalent In the range of modification and variation.

Industrial applicibility

Although referring to the example for being applied to 3GPP LTE/LTE-A system or 5G system describe the disclosure in nothing Measured in line communication system and the method for reporting channel status information, but in addition to 3GPP LTE/LTE-A system or 5G system it Outside, this method can also be applied to various wireless communication systems.