阅读说明：本技术 空间关系指示的方法及设备 (Method and equipment for indicating spatial relationship ) 是由 陈晶晶 李岩 王飞 于 2020-03-18 设计创作，主要内容包括：本发明实施例提供一种空间关系指示的方法及设备,该方法包括：接收第一信息,所述第一信息用于指示第一空间关系的激活、去激活或更新；根据所述第一信息,激活、去激活或更新所述第一空间关系,通过第一信息指示多个载波、多个小区、多个部分带宽、和/或多个网络节点的所述终端接收的空间关系的激活、去激活或更新,或者通过第一信息指示多个载波、多个小区、多个部分带宽、多个网络节点、多个PUCCH resource、多个PUCCH resource set、多个SRS resource、和/或多个SRS resource set的终端发送波束的空间关系的激活、去激活或更新,这样可以避免由于单独配置导致信令开销比较大的问题,有效节省信令开销。(The embodiment of the invention provides a method and equipment for indicating a spatial relationship, wherein the method comprises the following steps: receiving first information indicating activation, deactivation or updating of a first spatial relationship; according to the first information, activating, deactivating or updating the first spatial relationship, indicating activation, deactivation or updating of the spatial relationship received by the terminal of the multiple carriers, multiple cells, multiple partial bandwidths and/or multiple network nodes through the first information, or indicating activation, deactivation or updating of the spatial relationship of the terminal transmission beams of the multiple carriers, multiple cells, multiple partial bandwidths, multiple network nodes, multiple PUCCH resources, multiple PUCCH resource sets, multiple SRS resource sets and/or multiple SRS resource sets through the first information, so that the problem of relatively large signaling overhead caused by separate configuration can be avoided, and the signaling overhead can be effectively saved.)

1. A method for indicating spatial relationship is applied to a terminal, and is characterized by comprising the following steps:

receiving first information indicating activation, deactivation or updating of a first spatial relationship;

activating, deactivating or updating the first spatial relationship according to the first information;

wherein the first spatial relationship represents a spatial relationship of a plurality of transmissions or receptions of the terminal.

2. The method of claim 1, wherein the first spatial relationship comprises one or more of:

spatial relationships of the terminal to the reception of the plurality of carriers;

a spatial relationship of reception by the terminal for a plurality of cells;

a spatial relationship of reception of a plurality of partial bandwidths by the terminal;

a spatial relationship of reception by the terminal for a plurality of network nodes;

a spatial relationship of the terminal to the transmission of the plurality of carriers;

the terminal sends spatial relations to a plurality of cells;

a spatial relationship of the terminal to the transmission of the plurality of partial bandwidths;

a spatial relationship of the terminal to transmissions by the plurality of network nodes;

spatial relation of a plurality of physical uplink control channel resources PUCCH resources;

spatial relationship of a plurality of sounding reference signal resources, SRS resources;

spatial relation of multiple sounding reference signal resource sets, SRS resource sets.

3. The method of claim 1, further comprising:

and sending capability information of the terminal, wherein the capability information is used for indicating whether the terminal supports simultaneous activation, deactivation or updating of a plurality of carriers, cells, partial bandwidths and/or sending or receiving spatial relations of network nodes.

4. The method of claim 3, wherein the capability information comprises one or more of:

the number of carriers that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

the number of cells that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

the terminal supports the combing of simultaneously activating or deactivating or updating the spatial relationship;

the number of partial bandwidths of the spatial relationship that are simultaneously activated or deactivated or updated, supported by the terminal;

the number of network nodes that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

the number of PUCCH resources which are simultaneously activated or deactivated or updated in spatial relationship and supported by the terminal;

the number of PUCCH resource sets which simultaneously activate or deactivate or update the spatial relationship and are supported by the terminal;

the number of SRS resources which are supported by the terminal and simultaneously activate or deactivate or update the spatial relationship;

the number of SRS resource sets which simultaneously activate or deactivate or update the spatial relationship and are supported by the terminal;

whether the terminal supports the same first information to activate or deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of in-band continuous carrier aggregation;

whether the terminal supports the same first information to activate or deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band continuous carrier;

whether the terminal supports the same first information to activate, deactivate or update the spatial relationship of the terminal reception of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of the intra-band discontinuous carrier aggregation;

whether the terminal supports the same first information to activate, deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band discontinuous carrier;

whether the terminal supports the same first information to activate, deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of inter-band carrier aggregation;

whether the terminal supports the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resource and/or a plurality of SRS resource sets of the same first information activation, deactivation or update inter-band carrier aggregation.

5. The method of claim 1, wherein the first information comprises one or more of:

carrier identification;

carrier group identification

A cell identity;

cell group identification

A partial bandwidth identification;

a partial bandwidth group identification;

PUCCH resource identification;

PUCCH resource set identification;

SRS resource identification;

SRS resource set identification;

the terminal receives or sends activation information of the spatial relationship;

the first information identification;

network node information;

controlling a resource set identifier;

channel state information reference signal resource set identification;

physical uplink control channel resource identification;

a carrier list;

a partial bandwidth list;

receiving a list of spatial relationships;

a list of spatial relationships is sent.

6. The method of claim 5, wherein the first information indicator indicates one or more of:

the first information indicates: activation, deactivation or updating of the first spatial relationship;

the first information indicates: activation, deactivation or updating of other carriers than the first, cells, partial bandwidth, and/or spatial relationship received by the terminal of the network node;

the first information indicates: activation, deactivation or update of spatial relationships transmitted by the terminal for other carriers than the first one, cells, fractional bandwidths, network nodes, PUCCH resources, PUCCH resource sets, SRS resources, and/or SRS resource sets;

the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths, and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth, and/or network node;

the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by the terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource set, and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource and/or SRS resource set.

7. The method according to claim 5, wherein the activation information of the spatial relationship received or transmitted by the terminal comprises one or more of the following:

whether the spatial relationship received or transmitted by the terminal is activated or not;

the terminal receives or sends a spatial relationship identifier;

the terminal receives or sends the reference resource type of the spatial relationship;

the terminal receives or sends a reference resource identifier of the spatial relationship;

the terminal receives or sends the spatial relationship information identifier;

and the terminal receives or sends the activation information of the spatial relationship information identifier.

8. The method according to claim 7, wherein the terminal receives or sends the activation information identified by the spatial relationship information, and the activation information is indicated by any one of the following means:

indicated by a one bit field in the first information;

indicated by a plurality of bit fields in the first information.

9. The method of claim 1, further comprising:

receiving a Logical Channel Identification (LCID);

the LCID indicates at least one of:

the first information indicates: activation, deactivation or updating of the first spatial relationship;

the first information indicates: activation, deactivation or updating of other carriers than the first, cells, partial bandwidth and/or spatial relationship received by the terminal of the network node;

the first information indicates: activation, deactivation or update of spatial relationships transmitted by the terminal for other carriers than the first one, cells, fractional bandwidths, network nodes, PUCCH resources, PUCCH resource sets, SRS resources, and/or SRS resource sets;

the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth and/or network node;

the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, PUCCH resource set, SRS resource and/or SRS resource set.

10. The method of claim 1, further comprising:

receiving second information, wherein the second information comprises at least one of the following:

a carrier group identifier;

cell group identification;

a partial bandwidth group identification;

a PUCCH resource group identification;

PUCCH resource set group identification;

SRS resource group identification;

SRS resource set group identification;

a carrier list;

a cell list;

a partial bandwidth group list;

a PUCCH resource group list;

a PUCCH resource set group list;

SRS resource group list;

SRS resource set group list.

11. The method of claim 1, wherein the first information is downlink control information, a Media Access Control (MAC) Control Element (CE) or Radio Resource Control (RRC) signaling.

12. A method for indicating spatial relationship, applied to a network device, includes:

sending first information, the first information being used to indicate activation, deactivation or updating of a first spatial relationship;

wherein the first spatial relationship represents a spatial relationship of a plurality of transmissions or receptions of the terminal.

13. The method of claim 12, wherein the first spatial relationship comprises one or more of:

spatial relationships of the terminal to the reception of the plurality of carriers;

the spatial relationship of the terminal to the reception of a plurality of cells;

spatial relationships for reception of multiple partial bandwidths by a terminal;

spatial relationships of reception by the terminal for the plurality of network nodes;

spatial relationships transmitted by the terminal for the plurality of carriers;

the terminal sends spatial relations to a plurality of cells;

the terminal sends the spatial relationship of a plurality of partial bandwidths;

spatial relationships of the terminal's transmissions to the plurality of network nodes;

spatial relation of a plurality of physical uplink control channel resources PUCCH resources;

spatial relationship of a plurality of sounding reference signal resources, SRS resources;

spatial relation of multiple sounding reference signal resource sets, SRS resource sets.

14. The method of claim 12, further comprising:

receiving capability information from the terminal, the capability information being used to indicate whether the terminal supports activation, deactivation or updating of the first spatial relationship.

15. The method of claim 14, wherein the capability information comprises one or more of:

whether the terminal supports the same first information to activate, deactivate or update the first spatial relationship;

the number of simultaneously activated or deactivated or updated carriers, cells or partial bandwidths, network nodes, PUCCH resources, PUCCH resource sets, SRS resources, and/or SRS resource sets supported by the terminal;

whether the terminal supports the same first information to activate or deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of in-band continuous carrier aggregation;

whether the terminal supports the same first information to activate or deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band continuous carrier;

whether the terminal supports the same first information to activate, deactivate or update the spatial relationship of the terminal reception of multiple carriers, multiple cells, multiple partial bandwidths and/or multiple network nodes of the intra-band non-contiguous carrier aggregation;

whether the terminal supports the same first information to activate, deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band discontinuous carrier;

whether the terminal supports the same first information to activate, deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of inter-band carrier aggregation;

whether the terminal supports the spatial relationship sent by the terminal of multiple carriers, multiple cells, multiple partial bandwidths, multiple network nodes, multiple PUCCH resources, multiple PUCCH resource sets, multiple SRS resources and/or multiple SRS resource sets of the same first information activation, deactivation or update inter-band carrier aggregation.

16. The method of claim 12, wherein the first information comprises one or more of:

carrier identification;

a carrier group identifier;

a cell identity;

cell group identification

A partial bandwidth identification;

a partial bandwidth group identification;

PUCCH resource identification;

PUCCH resource set identification;

SRS resource identification;

SRS resource set identification;

the terminal receives or sends activation information of the spatial relationship;

the first information identification;

network node information;

controlling a resource set identifier;

channel state information reference signal resource set identification;

physical uplink control channel resource identification;

a carrier list;

a partial bandwidth list;

receiving a list of spatial relationships;

a list of spatial relationships is sent.

17. The method of claim 16, wherein the first information indicator indicates one or more of:

the first information indicates: activation, deactivation or updating of the first spatial relationship;

the first information indicates: activation, deactivation or updating of other carriers than the first, cells, partial bandwidth, and/or spatial relationship received by the terminal of the network node;

the first information indicates: activation, deactivation or update of spatial relationships transmitted by the terminal for other carriers than the first one, cells, fractional bandwidths, network nodes, PUCCH resources, PUCCH resource sets, SRS resources, and/or SRS resource sets;

the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths, and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth, and/or network node;

the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource set, and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource set, and/or SRS resource set.

18. The method according to claim 16, wherein the activation information of the spatial relationship received or transmitted by the terminal comprises one or more of the following:

whether the spatial relationship received or transmitted by the terminal is activated or not;

the terminal receives or sends a spatial relationship identifier;

the terminal receives or sends the reference resource type of the spatial relationship;

the terminal receives or sends a reference resource identifier of the spatial relationship;

the terminal receives or sends the spatial relationship information identifier;

and the terminal receives or sends the activation information of the spatial relationship information identifier.

19. The method according to claim 18, wherein the terminal receives or sends the activation information identified by the spatial relationship information, and the activation information is indicated by any one of the following means:

indicated by a one bit field in the first information;

indicated by a plurality of bit fields in the first information.

20. The method of claim 12, further comprising:

receiving the LCID;

the LCID indicates at least one of:

the first information is used for indicating activation, deactivation or updating of a first spatial relationship;

the first information indicates: activation, deactivation or updating of other carriers than the first, cells, partial bandwidth and/or spatial relationship received by the terminal of the network node;

the first information indicates: activation, deactivation or update of spatial relationships transmitted by the terminal for other carriers than the first one, cells, fractional bandwidths, network nodes, PUCCH resources, PUCCH resource sets, SRS resources, and/or SRS resource sets;

the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth and/or network node;

the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, PUCCH resource set, SRS resource and/or SRS resource set.

21. The method of claim 12, further comprising:

sending second information, wherein the second information comprises at least one of the following:

a carrier group identifier;

cell group identification;

a partial bandwidth group identification;

a PUCCH resource group identification;

PUCCH resource set group identification;

SRS resource group identification;

SRS resource set group identification;

a carrier list;

a cell list;

a partial bandwidth group list;

a PUCCH resource group list;

a PUCCH resource set group list;

SRS resource group list;

SRS resource set group list.

22. A terminal, comprising:

a first receiving module, configured to receive first information, where the first information is used to indicate activation, deactivation, or update of a first spatial relationship;

the processing module is used for activating, deactivating or updating the first spatial relationship according to the first information;

wherein the first spatial relationship represents a spatial relationship of a plurality of transmissions or receptions of the terminal.

23. A terminal, comprising: a first transceiver and a first processor;

the first transceiver is configured to receive first information indicating activation, deactivation or updating of a first spatial relationship;

the first processor is configured to activate, deactivate, or update the first spatial relationship according to the first information;

wherein the first spatial relationship represents a spatial relationship of a plurality of transmissions or receptions of the terminal.

24. A network device, comprising:

a second sending module, configured to send first information, where the first information is used to indicate activation, deactivation, or update of a first spatial relationship;

wherein the first spatial relationship represents a spatial relationship of a plurality of transmissions or receptions of the terminal.

25. A network device, comprising: a second transceiver and a second processor;

the second transceiver is configured to transmit first information indicating activation, deactivation or update of a first spatial relationship;

wherein the first spatial relationship represents a spatial relationship of a plurality of transmissions or receptions of the terminal.

26. A communication device, comprising: processor, memory and program stored on the memory and executable on the processor, which when executed by the processor implements the steps of the method of spatial relationship indication according to any of claims 1 to 21.

27. A computer-readable storage medium, characterized in that a computer program is stored thereon, which computer program, when being executed by a processor, carries out the steps of the method of spatial relationship indication according to any one of claims 1 to 21.

Technical Field

The invention relates to the technical field of communication, in particular to a method and equipment for indicating a spatial relationship.

Background

Due to the introduction of beam forming, the terminal receives or transmits data through beams, that is, the terminal can only receive and transmit data in a certain specific spatial direction at the same time. To ensure communication between the terminal and the network, the terminal needs to know a beam direction for transmission or reception.

The terminal reception or transmission beam direction may be configured by the network, wherein the reception or transmission beam direction of each Carrier (CC) or each cell or each partial bandwidth or each network node is individually configured and activated.

Taking the carrier as an example, for each carrier, the network sends a signaling to notify the terminal of the beam direction used by the carrier for data transmission and reception. Therefore, when multiple carriers are subjected to carrier aggregation, the network needs to configure its beam direction for each carrier. This configuration results in a relatively large signaling overhead.

Disclosure of Invention

An object of the embodiments of the present invention is to provide a method and a device for indicating a spatial relationship, which solve the problem of high signaling overhead in the existing spatial relationship control method.

In a first aspect, an embodiment of the present invention provides a method for indicating a spatial relationship, where the method is applied to a terminal, and includes:

receiving first information indicating activation, deactivation or updating of a first spatial relationship;

activating, deactivating or updating the first spatial relationship according to the first information;

wherein the first spatial relationship represents a spatial relationship of a plurality of transmissions or receptions of the terminal.

Optionally, the first spatial relationship comprises one or more of:

spatial relationships of the terminal to the reception of the plurality of carriers;

a spatial relationship of reception by the terminal for a plurality of cells;

a spatial relationship of reception of a plurality of partial bandwidths by the terminal;

a spatial relationship of reception by the terminal for a plurality of network nodes;

a spatial relationship of the terminal to the transmission of the plurality of carriers;

the terminal sends spatial relations to a plurality of cells;

a spatial relationship of the terminal to the transmission of the plurality of partial bandwidths;

a spatial relationship of the terminal to transmissions by the plurality of network nodes;

spatial relation of a plurality of physical uplink control channel resources PUCCH resources;

spatial relationship of a plurality of sounding reference signal resources, SRS resources;

spatial relation of multiple sounding reference signal resource sets, SRS resource sets.

Optionally, the method further comprises:

and sending capability information of the terminal, wherein the capability information is used for indicating whether the terminal supports simultaneous activation, deactivation or updating of a plurality of carriers, cells, partial bandwidths and/or sending or receiving spatial relations of network nodes.

Optionally, the capability information comprises one or more of:

the number of carriers that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

the number of cells that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

the terminal supports the combing of simultaneously activating or deactivating or updating the spatial relationship;

the number of partial bandwidths of the spatial relationship that are simultaneously activated or deactivated or updated, supported by the terminal;

the number of network nodes that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

the number of PUCCH resources which are simultaneously activated or deactivated or updated in spatial relationship and supported by the terminal;

the number of PUCCH resource sets which simultaneously activate or deactivate or update the spatial relationship and are supported by the terminal;

the number of SRS resources which are supported by the terminal and simultaneously activate or deactivate or update the spatial relationship;

the number of SRS resource sets which simultaneously activate or deactivate or update the spatial relationship and are supported by the terminal;

whether the terminal supports the same first information to activate or deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of in-band continuous carrier aggregation;

whether the terminal supports the same first information to activate or deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band continuous carrier;

whether the terminal supports the same first information to activate, deactivate or update the spatial relationship of the terminal reception of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of the intra-band discontinuous carrier aggregation;

whether the terminal supports the same first information to activate, deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band discontinuous carrier;

whether the terminal supports the same first information to activate, deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of inter-band carrier aggregation;

whether the terminal supports the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resource and/or a plurality of SRS resource sets of the same first information activation, deactivation or update inter-band carrier aggregation.

Optionally, the first information comprises one or more of:

carrier identification;

carrier group identification

A cell identity;

cell group identification

A partial bandwidth identification;

a partial bandwidth group identification;

PUCCH resource identification;

PUCCH resource set identification;

SRS resource identification;

SRS resource set identification;

the terminal receives or sends activation information of the spatial relationship;

the first information identification;

network node information;

controlling a resource set identifier;

channel state information reference signal resource set identification;

physical uplink control channel resource identification;

a carrier list;

a partial bandwidth list;

receiving a list of spatial relationships;

a list of spatial relationships is sent.

Optionally, the first information identifier indicates one or more of:

the first information indicates: activation, deactivation or updating of the first spatial relationship;

the first information indicates: activation, deactivation or updating of other carriers than the first, cells, partial bandwidth, and/or spatial relationship received by the terminal of the network node;

the first information indicates: activation, deactivation or update of spatial relationships transmitted by the terminal for other carriers than the first one, cells, fractional bandwidths, network nodes, PUCCH resources, PUCCH resource sets, SRS resources, and/or SRS resource sets;

the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths, and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth, and/or network node;

the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by the terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource set, and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource and/or SRS resource set.

Optionally, the activation information of the spatial relationship received or sent by the terminal includes one or more of the following:

whether the spatial relationship received or transmitted by the terminal is activated or not;

the terminal receives or sends a spatial relationship identifier;

the terminal receives or sends the reference resource type of the spatial relationship;

the terminal receives or sends a reference resource identifier of the spatial relationship;

the terminal receives or sends the spatial relationship information identifier;

and the terminal receives or sends the activation information of the spatial relationship information identifier.

Optionally, the terminal receives or sends activation information of the spatial relationship information identifier, which is indicated by any one of the following manners:

indicated by a one bit field in the first information;

indicated by a plurality of bit fields in the first information.

Optionally, the method further comprises:

receiving a Logical Channel Identification (LCID);

the LCID indicates at least one of:

the first information indicates: activation, deactivation or updating of the first spatial relationship;

the first information indicates: activation, deactivation or updating of other carriers than the first, cells, partial bandwidth and/or spatial relationship received by the terminal of the network node;

the first information indicates: activation, deactivation or update of spatial relationships transmitted by the terminal for other carriers than the first one, cells, fractional bandwidths, network nodes, PUCCH resources, PUCCH resource sets, SRS resources, and/or SRS resource sets;

the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth and/or network node;

the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, PUCCH resource set, SRS resource and/or SRS resource set.

Optionally, the method further comprises:

receiving second information, wherein the second information comprises at least one of the following:

a carrier group identifier;

cell group identification;

a partial bandwidth group identification;

a PUCCH resource group identification;

PUCCH resource set group identification;

SRS resource group identification;

SRS resource set group identification;

a carrier list;

a cell list;

a partial bandwidth group list;

a PUCCH resource group list;

a PUCCH resource set group list;

SRS resource group list;

SRS resource set group list.

Optionally, the first information is downlink control information, a media access control unit, or a radio resource control signaling.

In a second aspect, an embodiment of the present invention further provides a method for indicating a spatial relationship, which is applied to a network device, and includes:

sending first information, the first information being used to indicate activation, deactivation or updating of a first spatial relationship;

wherein the first spatial relationship represents a spatial relationship of a plurality of transmissions or receptions of the terminal.

Optionally, the first spatial relationship comprises one or more of:

spatial relationships of the terminal to the reception of the plurality of carriers;

a spatial relationship of reception by the terminal for a plurality of cells;

a spatial relationship of reception of a plurality of partial bandwidths by the terminal;

a spatial relationship of reception by the terminal for a plurality of network nodes;

a spatial relationship of the terminal to the transmission of the plurality of carriers;

the terminal sends spatial relations to a plurality of cells;

a spatial relationship of the terminal to the transmission of the plurality of partial bandwidths;

a spatial relationship of the terminal to transmissions by the plurality of network nodes;

spatial relation of a plurality of physical uplink control channel resources PUCCH resources;

spatial relationship of a plurality of sounding reference signal resources, SRS resources;

spatial relation of multiple sounding reference signal resource sets, SRS resource sets.

Optionally, the method further comprises:

receiving capability information from the terminal, the capability information being used to indicate whether the terminal supports activation, deactivation or updating of the first spatial relationship.

Optionally, the capability information comprises one or more of:

whether the terminal supports the same first information to activate, deactivate or update the first spatial relationship;

the number of simultaneously activated or deactivated or updated carriers, cells or partial bandwidths, network nodes, PUCCH resources, PUCCH resource sets, SRS resources, and/or SRS resource sets supported by the terminal;

whether the terminal supports the same first information to activate or deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of in-band continuous carrier aggregation;

whether the terminal supports the same first information to activate or deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band continuous carrier;

whether the terminal supports the same first information to activate, deactivate or update the spatial relationship of the terminal reception of multiple carriers, multiple cells, multiple partial bandwidths and/or multiple network nodes of the intra-band non-contiguous carrier aggregation;

whether the terminal supports the same first information to activate, deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band discontinuous carrier;

whether the terminal supports the same first information to activate, deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of inter-band carrier aggregation;

whether the terminal supports the spatial relationship sent by the terminal of multiple carriers, multiple cells, multiple partial bandwidths, multiple network nodes, multiple PUCCH resources, multiple PUCCH resource sets, multiple SRS resources and/or multiple SRS resource sets of the same first information activation, deactivation or update inter-band carrier aggregation.

Optionally, the first information comprises one or more of:

carrier identification;

a carrier group identifier;

a cell identity;

cell group identification

A partial bandwidth identification;

a partial bandwidth group identification;

PUCCH resource identification;

PUCCH resource set identification;

SRS resource identification;

SRS resource set identification;

the terminal receives or sends activation information of the spatial relationship;

the first information identification;

network node information;

controlling a resource set identifier;

channel state information reference signal resource set identification;

physical uplink control channel resource identification;

a carrier list;

a partial bandwidth list;

receiving a list of spatial relationships;

a list of spatial relationships is sent.

Optionally, the first information identifier indicates one or more of:

the first information indicates: activation, deactivation or updating of the first spatial relationship;

the first information indicates: activation, deactivation or updating of other carriers than the first, cells, partial bandwidth, and/or spatial relationship received by the terminal of the network node;

the first information indicates: activation, deactivation or update of spatial relationships transmitted by the terminal for other carriers than the first one, cells, fractional bandwidths, network nodes, PUCCH resources, PUCCH resource sets, SRS resources, and/or SRS resource sets;

the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths, and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth, and/or network node;

the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource set, and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource set, and/or SRS resource set.

Optionally, the activation information of the spatial relationship received or sent by the terminal includes one or more of the following:

whether the spatial relationship received or transmitted by the terminal is activated or not;

the terminal receives or sends a spatial relationship identifier;

the terminal receives or sends the reference resource type of the spatial relationship;

the terminal receives or sends a reference resource identifier of the spatial relationship;

the terminal receives or sends the spatial relationship information identifier;

and the terminal receives or sends the activation information of the spatial relationship information identifier.

Optionally, the terminal receives or sends activation information of the spatial relationship information identifier, which is indicated by any one of the following manners:

indicated by a one bit field in the first information;

indicated by a plurality of bit fields in the first information.

Optionally, the method further comprises:

receiving the LCID;

the LCID indicates at least one of:

the first information is used for indicating activation, deactivation or updating of a first spatial relationship;

the first information indicates: activation, deactivation or updating of other carriers than the first, cells, partial bandwidth and/or spatial relationship received by the terminal of the network node;

the first information indicates: activation, deactivation or update of spatial relationships transmitted by the terminal for other carriers than the first one, cells, fractional bandwidths, network nodes, PUCCH resources, PUCCH resource sets, SRS resources, and/or SRS resource sets;

the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth and/or network node;

the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, PUCCH resource set, SRS resource and/or SRS resource set.

Optionally, the method further comprises:

sending second information, wherein the second information comprises at least one of the following:

a carrier group identifier;

cell group identification;

a partial bandwidth group identification;

a PUCCH resource group identification;

PUCCH resource set group identification;

SRS resource group identification;

SRS resource set group identification;

a carrier list;

a cell list;

a partial bandwidth group list;

a PUCCH resource group list;

a PUCCH resource set group list;

SRS resource group list;

SRS resource set group list.

In a third aspect, an embodiment of the present invention further provides a terminal, including:

a first receiving module, configured to receive first information, where the first information is used to indicate activation, deactivation, or update of a first spatial relationship;

the processing module is used for activating, deactivating or updating the first spatial relationship according to the first information;

wherein the first spatial relationship represents a spatial relationship of a plurality of transmissions or receptions of the terminal.

In a fourth aspect, an embodiment of the present invention further provides a terminal, including: a first transceiver and a first processor;

the first transceiver is configured to receive first information indicating activation, deactivation or updating of a first spatial relationship;

the first processor is configured to activate, deactivate, or update the first spatial relationship according to the first information; wherein the first spatial relationship represents a spatial relationship of transmission or reception of a plurality of carriers, a plurality of cells, a plurality of fractional bandwidths, and/or a plurality of network nodes.

In a fifth aspect, an embodiment of the present invention further provides a network device, including:

a second sending module, configured to send first information, where the first information is used to indicate activation, deactivation, or update of a first spatial relationship;

wherein the first spatial relationship represents a spatial relationship of a plurality of transmissions or receptions of the terminal.

In a sixth aspect, an embodiment of the present invention further provides a network device, including: a second transceiver and a second processor;

the second transceiver is configured to transmit first information indicating activation, deactivation or update of a first spatial relationship;

wherein the first spatial relationship represents a spatial relationship of transmission or reception of a plurality of carriers, a plurality of cells, a plurality of fractional bandwidths, and/or a plurality of network nodes.

In a seventh aspect, an embodiment of the present invention further provides a communication device, including: a processor, a memory and a program stored on the memory and executable on the processor, which program, when executed by the processor, carries out the steps of the method of spatial relationship indication as set forth in the first or second aspect.

In an eighth aspect, the embodiment of the present invention further provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the steps of the method for indicating spatial relationship according to the first aspect or the second aspect.

In the embodiment of the present invention, the first information indicates activation, deactivation or update of a spatial relationship received by the terminal of multiple carriers, multiple cells, multiple partial bandwidths, and/or multiple network nodes, or indicates activation, deactivation or update of a spatial relationship of a terminal transmission beam of multiple carriers, multiple cells, multiple partial bandwidths, multiple network nodes, multiple PUCCH resources, multiple PUCCH resource sets, multiple SRS resource sets, and/or multiple SRS resource sets, so that a problem of relatively large signaling overhead due to separate configuration can be avoided, and signaling overhead can be effectively saved.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

FIG. 1 is a block diagram of a wireless communication system according to an embodiment of the present invention;

FIG. 2 is a flowchart of a method for indicating spatial relationship according to an embodiment of the present invention;

FIG. 3 is a second flowchart of a method for indicating spatial relationship according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a terminal according to an embodiment of the present invention;

fig. 5 is a second schematic diagram of a terminal according to the embodiment of the invention;

FIG. 6 is a diagram of one embodiment of a network device;

FIG. 7 is a second schematic diagram of a network device according to an embodiment of the invention;

fig. 8 is a schematic diagram of a communication device according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terms "comprises," "comprising," or any other variation thereof, in the description and claims of this application, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus. Further, as used in the specification and claims, "and/or" means at least one of the connected objects, such as a and/or B, means that three cases exist including a alone, B alone, and both a and B, for example, A, B, and/or C means that three cases exist including a alone, B alone, C alone, a and B, a and C, B and C, and A, B and C.

In the embodiments of the present invention, words such as "exemplary" or "for example" are used to mean serving as examples, illustrations or descriptions. Any embodiment or design described as "exemplary" or "e.g.," an embodiment of the present invention is not necessarily to be construed as preferred or advantageous over other embodiments or designs. Rather, use of the word "exemplary" or "such as" is intended to present concepts related in a concrete fashion.

The technology described herein is not limited to a 5th-generation (5G) system and a later-evolution communication system, and is not limited to an LTE/LTE evolution (LTE-a) system, and may also be used for various wireless communication systems, such as Code Division Multiple Access (CDMA), Time Division Multiple Access (TDMA), Frequency Division Multiple Access (FDMA), Orthogonal Frequency Division Multiple Access (OFDMA), Single-carrier Frequency-Division Multiple Access (SC-FDMA), and other systems.

The terms "system" and "network" are often used interchangeably. CDMA systems may implement Radio technologies such as CDMA2000, Universal Terrestrial Radio Access (UTRA), and so on. UTRA includes Wideband CDMA (Wideband Code Division Multiple Access, WCDMA) and other CDMA variants. TDMA systems may implement radio technologies such as Global System for Mobile communications (GSM). The OFDMA system can implement radio technologies such as Ultra Mobile Broadband (UMB), evolved-UTRA (E-UTRA)), IEEE 802.11 (Wi-Fi), IEEE 802.16 (WiMAX)), IEEE 802.20, Flash-OFDM, and the like. UTRA and E-UTRA are parts of the Universal Mobile Telecommunications System (UMTS). LTE and higher LTE (e.g., LTE-A) are new UMTS releases that use E-UTRA. UTRA, E-UTRA, UMTS, LTE-A, and GSM are described in documents from an organization named "third Generation Partnership Project" (3 GPP). CDMA2000 and UMB are described in documents from an organization named "third generation partnership project 2" (3GPP 2). The techniques described herein may be used for both the above-mentioned systems and radio technologies, as well as for other systems and radio technologies.

Referring to fig. 1, an embodiment of the present invention will be described below with reference to the accompanying drawings. The method for indicating the spatial relationship provided by the embodiment of the invention can be applied to a wireless communication system. Referring to fig. 1, an architecture diagram of a wireless communication system according to an embodiment of the present invention is shown. As shown in fig. 1, the wireless communication system may include: network device 11 and terminal 12, terminal 12 may be referred to as UE12, and terminal 12 may communicate (transmit signaling or transmit data) with network device 11. In practical applications, the connections between the above devices may be wireless connections, and fig. 1 illustrates the connections between the devices by solid lines for convenience and convenience in visual representation.

The network device 11 provided in the embodiment of the present invention may be a base station, which may be a commonly used base station, an evolved node base station (eNB), or a network device in a 5G system (e.g., a next generation base station (gNB) or a Transmission and Reception Point (TRP)).

The terminal 12 provided in the embodiment of the present invention may be a Mobile phone, a tablet Computer, a notebook Computer, an Ultra-Mobile Personal Computer (UMPC), a netbook or a Personal Digital Assistant (PDA), a Mobile Internet Device (MID), a Wearable Device (Wearable Device), or a vehicle-mounted Device.

Referring to fig. 2, an embodiment of the present invention provides a method for indicating a spatial relationship, where an execution subject of the method may be a terminal, and the method includes: step 201 and step 202.

Step 201: receiving first information indicating activation, deactivation or updating of a first spatial relationship;

wherein the first spatial relationship represents a spatial relationship of a plurality of transmissions or receptions of the terminal.

For example, the first spatial relationship may include one or more of:

(1) spatial relationships of the terminal to the reception of the plurality of carriers;

(2) a spatial relationship of reception by the terminal for a plurality of cells;

(3) a spatial relationship of reception of a plurality of partial bandwidths by the terminal;

(4) a spatial relationship of reception by the terminal for a plurality of network nodes;

(5) a spatial relationship of the terminal to the transmission of the plurality of carriers;

(6) the terminal sends spatial relations to a plurality of cells;

(7) a spatial relationship of the terminal to the transmission of the plurality of partial bandwidths;

(8) a spatial relationship of the terminal to transmissions by the plurality of network nodes;

(9) spatial relationships of a plurality of physical uplink control channel resources (PUCCH resources);

(10) spatial relationships of a plurality of sounding reference signal resources (SRS resources);

(11) spatial relation of multiple sounding reference signal resource sets (SRS resource sets).

Wherein, it can be understood that activating, deactivating or updating the spatial relationship of transmission or reception of the multiple carriers is equivalent to activating, deactivating or updating the transmission configuration indication states of the multiple carriers; activating, deactivating or updating the sending or receiving spatial relationship of the plurality of cells, which is equivalent to activating, deactivating or updating the transmission configuration indication states of the plurality of cells; activating, deactivating or updating the spatial relationship of the transmission or reception of the plurality of partial bandwidths, which is equivalent to activating, deactivating or updating the transmission configuration indication states of the plurality of partial bandwidths; activating, deactivating or updating the spatial relationship of transmission or reception of the plurality of network nodes corresponds to activating, deactivating or updating the transmission configuration indication status of the plurality of network nodes.

Step 202: activating, deactivating or updating the first spatial relationship according to the first information.

Illustratively, the first information may be control information.

For example, a UE may receive first control information indicating activation, deactivation or updating of spatial relationships received by the terminal for multiple carriers, multiple cells, multiple fractional bandwidths, and/or multiple network nodes;

the UE may receive second control information indicating activation, deactivation or update of a spatial relationship transmitted by the terminal for multiple carriers, multiple cells, multiple fractional bandwidths, multiple network nodes, multiple PUCCH resources, multiple PUCCH resource sets, multiple SRS resources, and/or multiple SRS resource sets.

It is to be understood that the first control information and the second control information may be different control information or the same control information.

For another example, the UE may receive third control information indicating activation, deactivation or update of a spatial relationship transmitted by the terminal for a plurality of PUCCH resources;

the UE may receive fourth control information indicating activation, deactivation or update of a spatial relationship transmitted by the terminal for a plurality of PUCCH resource sets;

the UE may receive fifth control information indicating activation, deactivation, or update of a spatial relationship transmitted by the terminal for multiple SRS resources;

the UE may receive sixth control information indicating activation, deactivation or update of a spatial relationship transmitted by the terminal for multiple SRS resource sets.

It is to be understood that the fourth control information, the fifth control information, and the sixth control information may be different control information or the same control information.

The network node may be a transmitting transport node, such as a TRP.

The receiving includes: receiving through PDSCH, PDCCH, PDSCH DMRS, PDCCH DMRS, CSI-RS resource, CSI-IM resource (IM) and the like;

the above-mentioned spatial relationship of reception is referred to as TCI state (transmission configuration indicator state), and TCI state may be further referred to as QCL (Quasi co-location, antenna port Quasi co-location).

The activation, deactivation or update of the received spatial relationship may be activation, deactivation or update of a TCI state of the PDSCH; or may also be the activation, deactivation or update of the TCI state of the PDCCH; or may also be activation, deactivation, or update of the TCI state of Semi-persistent, periodic, aperiodic CSI-RS resource; or may be activation, deactivation or update of the TCI state of Semi-persistent, periodic, aperiodic CSI-IM resource.

The receiving of the first Information (or referred to as Control Information or Control signaling) may be receiving Radio Resource Control (RRC) signaling, or receiving a medium access Control element (MAC CE), or receiving Downlink Control Information (DCI).

Wherein, the MAC CE may include at least one of the following: carrier identification (cell identification), BWP ID, activation information of spatial relation of terminal receiving wave beams, MAC CE identification, network node information, CORSET (control Resource set) identification, CSI-RS Resource set ID and PUCCH Resource ID.

The MAC CE described above may be used to: activation, deactivation or update of the spatial relationship of the terminal receive beams for PDSCH, activation, deactivation or update of the spatial relationship of the terminal receive beams for PDCCH, or activation, deactivation or update of the spatial relationship of the terminal receive beams for CORSET, activation, deactivation or update of the spatial relationship of the terminal receive beams for CSI-RS/CSI-IM Resource Set.

Optionally, the MAC CE is used to indicate activation, deactivation or updating of terminal-received spatial relationships of PDSCH of multiple CC/BWPs. The MAC CE includes at least one of the following: carrier identification (cell identification), BWP ID, activation information of spatial relationship received by the terminal, MAC CE identification, network node information.

Optionally, the MAC CE is used to indicate activation, deactivation or update of the spatial relationship received by the terminal for PDCCH of multiple CC/BWPs. The MAC CE includes at least one of the following: carrier identification (cell identification), BWP ID, activation information of spatial relationship received by the terminal, MAC CE identification, network node information, and corset (control Resource set) identification.

Optionally, the MAC CE is used to indicate activation, deactivation or update of the spatial relationship received by the terminal for the CSI-RS of multiple CC/BWPs. The MAC CE includes at least one of the following: carrier identification (cell identification), BWP ID, activation information of spatial relationship received by the terminal, MAC CE identification, network node information and CSI-RS resource set ID.

Optionally, the MAC CE is used to indicate activation, deactivation or update of spatial relationship transmitted by the terminal of the PUCCH of multiple CC/BWPs. The MAC CE includes at least one of the following: carrier identification (cell identification), BWP ID, PUCCH resource identification, activation information of PUCCH terminal transmission space relation information, MAC CE identification and network node information.

Optionally, the MAC CE is used to indicate the activation, deactivation or update of the TCI state of the SRS of multiple CC/BWPs. The MAC CE includes at least one of the following: the method comprises the steps of obtaining a reference symbol type of SRS terminal transmitting spatial relation, obtaining an identifier of a reference symbol of SRS terminal transmitting beam spatial relation, and obtaining a cell identifier to which the reference symbol of SRS terminal transmitting beam spatial relation belongs; the method comprises the steps of obtaining a BWP identification, an MAC CE identification, network node information and a CORSET (control Resource set) identification which a reference symbol of a SRS terminal transmitting beam space relationship belongs to.

Optionally, the RRC signaling may configure the spatial relationship for the terminals of multiple CCs/BWPs to receive or transmit simultaneously. Specifically, the RRC signaling includes: a CC/BWP list, a spatial relationship list received or transmitted by the terminal.

Optionally, the DCI may indicate spatial relationships received or transmitted by terminals employed by multiple CC/BWPs simultaneously. Specifically, the DCI includes: and the CC/BWP list is a spatial relation ID received or sent by the adopted terminal. Optionally, the application of the DCI to multiple CC/BWPs and corresponding CC/BWP identifications or the CC/BWP combination to which the DCI applies may be indicated by an RRC message.

The "multiple PUCCH resources, multiple PUCCH resource sets, multiple SRS resource, and multiple SRS resource sets" may belong to the same carrier, the same cell, the same partial bandwidth, and/or the same network node, or may belong to different carriers, different cells, different partial bandwidths, and/or different network nodes.

The sending comprises the following steps: and the signals are transmitted through PUSCH, PUCCH, periodic SRS, semi-static SRS, aperiodic SRS and the like.

The spatial relationship transmitted above is referred to as spatial relationship. Specifically, the activation, deactivation or update of spatial relationship of PUCCH resources may be performed; or activation, deactivation or update of the spatial relationship of the Semi-persistent SRS; or the activation, deactivation or update of the spatial relationship of the aperiodic SRS; or the activation, deactivation or update of the spatial relationship of the periodic SRS; the activation, deactivation, or update of spatial relationship of the PUSCH may be performed.

In the embodiment of the present invention, the method may further include: sending capability information of the terminal, wherein the capability information is used for indicating whether the terminal supports simultaneous activation, deactivation or updating of multiple carriers, cells, partial bandwidths and/or sending or receiving spatial relationships of network nodes;

wherein the capability information may include one or more of:

(1) the number of carriers that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(2) the number of cells that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(3) the terminal supports the combing of simultaneously activating or deactivating or updating the spatial relationship;

(4) the number of partial bandwidths of the spatial relationship that are simultaneously activated or deactivated or updated, supported by the terminal;

(5) the number of network nodes that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(6) the number of PUCCH resources which are simultaneously activated or deactivated or updated in spatial relationship and supported by the terminal;

(7) the number of PUCCH resource sets which simultaneously activate or deactivate or update the spatial relationship and are supported by the terminal;

(8) the number of SRS resources which are supported by the terminal and simultaneously activate or deactivate or update the spatial relationship;

(9) the number of SRS resource sets which simultaneously activate or deactivate or update the spatial relationship and are supported by the terminal;

(10) whether the terminal supports the same first information to activate or deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of in-band continuous carrier aggregation;

(11) whether the terminal supports the same first information to activate or deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band continuous carrier;

(12) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship of the terminal reception of multiple carriers, multiple cells, multiple partial bandwidths and/or multiple network nodes of the intra-band non-contiguous carrier aggregation;

(13) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band discontinuous carrier;

(14) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of inter-band carrier aggregation;

(15) whether the terminal supports the spatial relationship sent by the terminal of multiple carriers, multiple cells, multiple partial bandwidths, multiple network nodes, multiple PUCCH resources, multiple PUCCH resource sets, multiple SRS resources and/or multiple SRS resource sets of the same first information activation, deactivation or update inter-band carrier aggregation.

In an embodiment of the present invention, the first information may include one or more of the following:

(1) carrier identification;

such as the center frequency point of the ARFCN or the CSI-RS.

(2) A carrier group identifier;

(3) a cell identity;

(4) cell group identification;

the carrier identifier and the cell identifier include: each carrier identifier and cell identifier acted by the MAC CE;

the carrier group identifier and the cell group identifier include: the carrier group identifier and the cell group identifier acted by the MAC CE.

The carrier combination or cell combination information acted by the MAC CE may be issued through an RRC message, where the RRC message may include: n carrier combination/cell combination identifiers, identifiers of each carrier included in each carrier combination/cell combination, and the like, and frequency band information.

(5) Partial bandwidth identification (BWP ID);

the BWP ID has 2 indication methods:

the first mode: indicating, for each cell/carrier ID, a BWP ID with the MAC CE;

mode two: for multiple cells/carriers (or one cell combination, or a carrier combination), the BWP ID of the MAC CE is indicated to be employed.

(6) A partial bandwidth group identification;

(7) PUCCH resource identification;

(8) PUCCH resource set identification;

(9) SRS resource identification;

(10) SRS resource set identification;

(11) the terminal receives or sends activation information of the spatial relationship;

(12) the first information identification;

(13) network node information;

the network node information includes at least one of: and identifying the network node.

(14) Controlling a resource set identifier;

(15) channel state information reference signal resource set identification;

(16) physical uplink control channel resource identification;

(17) a carrier list;

(18) a partial bandwidth list;

(19) receiving a list of spatial relationships;

(20) a list of spatial relationships is sent.

In an embodiment of the present invention, the first information identifier indicates one or more of the following:

(1) the first information indicates: activation, deactivation or updating of the spatial relationship received by the terminal for a plurality of carriers, a plurality of cells, a plurality of fractional bandwidths, and/or a plurality of network nodes;

(2) the first information indicates: activation, deactivation or updating of spatial relationships transmitted by the terminal for a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources, and/or a plurality of SRS resource sets;

(3) the first information indicates: activation, deactivation or updating of other carriers than the first, cells, partial bandwidth, and/or spatial relationship received by the terminal of the network node;

for example, taking the first information as the MAC CE for example, whether to activate or deactivate may be indicated according to 1 bit in the MAC CE, where 1 bit indicates that the MAC CE is activated, and 0 bit indicates that the MAC CE is deactivated. The activation information of the plurality of received spatial relationships may be indicated by a plurality of bits, each bit indicating the activation information of one received spatial relationship. The correspondence, mapping, of bits to the received spatial relationship may be specified in the protocol. Whether the received spatial relationship is activated or deactivated may also be indicated by a 1-bit string in the MAC CE, the decimal value corresponding to the bit string giving the ID of the activated received spatial relationship. Specifically, the activation information of the first received spatial relationship indicated in the MAC CE may be applied to a first CSI-RS resource of the CSI-RS resource set, the activation information of the second received spatial relationship indicated in the MAC CE may be applied to a second CSI-RS resource of the CSI-RS resource set, and so on.

(4) The first information indicates: activation, deactivation or update of spatial relationships transmitted by the terminal for other carriers than the first one, cells, fractional bandwidths, network nodes, PUCCH resources, PUCCH resource sets, SRS resources, and/or SRS resource sets;

(5) the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths, and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth, and/or network node;

(6) the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource set, and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, resource, SRS resource set, and/or SRS resource set.

In this embodiment of the present invention, the activation information of the spatial relationship received or sent by the terminal includes one or more of the following items:

(1) whether the spatial relationship received or transmitted by the terminal is activated or not;

(2) the terminal receives or sends a spatial relationship identifier;

(3) the terminal receives or sends the reference resource type of the spatial relationship;

(4) the terminal receives or sends a reference resource identifier of the spatial relationship;

(5) the terminal receives or sends the spatial relationship information identifier;

(6) and the terminal receives or sends the activation information of the spatial relationship information identifier.

The terminal receives or sends the activation information of the spatial relationship information identifier, which comprises at least one of the following: whether the spatial relationship received or transmitted by the terminal is activated or not; the terminal receives or sends the spatial relationship ID; the terminal sends a reference resource type (which may be an SSB, an NZP CSI-RS, or an SRS) of the spatial relationship; a terminal sends a reference resource identifier (SSB index, NZP CSI-RS index, or SRS index) of a spatial relationship; the terminal sends the spatial relationship information identifier, and the terminal sends the activation information of the spatial relationship information identifier.

Optionally, the terminal receives or sends activation information of the spatial relationship information identifier, which is indicated by any one of the following manners:

(1) indicated by a one bit field in the first information;

each bit in the bit field represents the spatial relationship received or transmitted by a terminal, the bit position 1 indicates that the spatial relationship received or transmitted by the terminal is activated, and the bit position 0 indicates that the spatial relationship received or transmitted by the terminal is not activated. For example: the bit field is 1001100, which means from right to left that spatial relation 0 for terminal reception or transmission is not activated, spatial relation 1 for terminal reception or transmission is not activated, spatial relation 2 for terminal reception or transmission is activated, spatial relation 3 for terminal reception or transmission is activated, spatial relation 4 for terminal reception or transmission is not activated, spatial relation 5 for terminal reception or transmission is not activated, and spatial relation 6 for terminal reception beam is activated.

(2) Indicated by a plurality of bit fields in the first information.

Each bit field represents a spatial relationship ID received or transmitted by an active terminal. For example, the plurality of bit fields are 00000110, 00010001, and 00000001, respectively, then the 3 bit fields indicate that the spatial relationship 6 received or transmitted by the terminal is activated, the spatial relationship 17 received or transmitted by the terminal is activated, and the spatial relationship 1 received or transmitted by the terminal is activated.

In the embodiment of the present invention, the method may further include: receiving a Logical Channel Identification (LCID);

wherein the LCID indicates at least one of:

(1) the first information indicates: activation, deactivation or updating of the spatial relationship received by the terminal for a plurality of carriers, a plurality of cells, a plurality of fractional bandwidths, and/or a plurality of network nodes;

(2) the first information indicates: activation, deactivation or update of spatial relationships transmitted by the terminal for a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets;

(3) the first information indicates: activation, deactivation or updating of other carriers than the first, cells, partial bandwidth and/or spatial relationship received by the terminal of the network node;

(4) the first information indicates: activation, deactivation or update of spatial relationships transmitted by the terminal for other carriers than the first one, cells, fractional bandwidths, network nodes, PUCCH resources, PUCCH resource sets, SRS resources, and/or SRS resource sets;

(5) the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths, and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth, and/or network node;

(6) the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, PUCCH resource set, SRS resource set and/or SRS resource set.

In an embodiment of the present invention, the method further comprises:

receiving second information, wherein the second information comprises at least one of the following:

(1) a carrier group identifier;

the group identifier refers to an identifier of a combination or set of 1 or more carriers, cells, partial bandwidths, network nodes, PUCCH resources, PUCCH resource sets, SRS resources, SRS resource sets. The UE may be configured with multiple group identities, i.e. the UE may be configured with multiple carrier groups, multiple cell groups, multiple partial bandwidth groups, multiple network node groups, multiple PUCCH resource groups, PUCCH resource set groups, SRS resource set groups.

(2) Cell group identification

(3) A partial bandwidth group identification;

(4) a PUCCH resource group identification;

(5) PUCCH resource set group identification;

the combination or set corresponding to the PUCCH resource set group identifier includes one or more PUCCH resource sets.

(6) SRS resource group identification;

(7) SRS resource set group identification;

the corresponding combination or set of the SRS resource set group identifications comprises 1 or more SRS resource sets.

(8) A carrier list;

(9) a cell list;

(10) a partial bandwidth group list;

(11) a PUCCH resource group list;

(12) a PUCCH resource set group list;

(13) SRS resource group list;

(14) SRS resource set group list.

The list information in (8) to (14) above refers to member information in the combination/set indicated in the group identifier.

In the embodiment of the present invention, the first information indicates activation, deactivation or update of a spatial relationship received by the terminal of multiple carriers, multiple cells, multiple partial bandwidths, and/or multiple network nodes, or indicates activation, deactivation or update of a spatial relationship of a terminal transmission beam of multiple carriers, multiple cells, multiple partial bandwidths, multiple network nodes, multiple PUCCH resources, multiple PUCCH resource sets, multiple SRS resource sets, and/or multiple SRS resource sets, so that a problem of relatively large signaling overhead due to separate configuration can be avoided, and signaling overhead can be effectively saved.

Referring to fig. 3, an embodiment of the present invention further provides a method for indicating a spatial relationship, where an execution subject of the method is a network device, and the method includes: step 301.

Step 301: sending first information, the first information being used to indicate activation, deactivation or updating of a first spatial relationship;

wherein the first spatial relationship represents a spatial relationship of a plurality of transmissions or receptions of the terminal.

For example, the first spatial relationship may include one or more of:

(1) spatial relationships of the terminal to the reception of the plurality of carriers;

(2) a spatial relationship of reception by the terminal for a plurality of cells;

(3) a spatial relationship of reception of a plurality of partial bandwidths by the terminal;

(4) a spatial relationship of reception by the terminal for a plurality of network nodes;

(5) a spatial relationship of the terminal to the transmission of the plurality of carriers;

(6) the terminal sends spatial relations to a plurality of cells;

(7) a spatial relationship of the terminal to the transmission of the plurality of partial bandwidths;

(8) a spatial relationship of the terminal to transmissions by the plurality of network nodes;

(9) spatial relationships of a plurality of physical uplink control channel resources (PUCCH resources);

(10) spatial relationships of a plurality of sounding reference signal resources (SRS resources);

(11) spatial relation of multiple sounding reference signal resource sets (SRS resource sets).

Wherein, it can be understood that activating, deactivating or updating the spatial relationship of transmission or reception of the multiple carriers is equivalent to activating, deactivating or updating the transmission configuration indication states of the multiple carriers; activating, deactivating or updating the sending or receiving spatial relationship of the plurality of cells, which is equivalent to activating, deactivating or updating the transmission configuration indication states of the plurality of cells; activating, deactivating or updating the spatial relationship of the transmission or reception of the plurality of partial bandwidths, which is equivalent to activating, deactivating or updating the transmission configuration indication states of the plurality of partial bandwidths; activating, deactivating or updating the spatial relationship of transmission or reception of the plurality of network nodes corresponds to activating, deactivating or updating the transmission configuration indication status of the plurality of network nodes.

In some embodiments, the method further comprises:

receiving capability information from the terminal, the capability information being used to indicate whether the terminal supports activation, deactivation or updating of the first spatial relationship, optionally the capability information comprising one or more of:

(1) the number of carriers that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(2) the number of cells that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(3) the terminal supports the combing of simultaneously activating or deactivating or updating the spatial relationship;

(4) the number of partial bandwidths of the spatial relationship that are simultaneously activated or deactivated or updated, supported by the terminal;

(5) the number of network nodes that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(6) the number of PUCCH resources which are simultaneously activated or deactivated or updated in spatial relationship and supported by the terminal;

(7) the number of PUCCH resource sets which simultaneously activate or deactivate or update the spatial relationship and are supported by the terminal;

(8) the number of SRS resources which are supported by the terminal and simultaneously activate or deactivate or update the spatial relationship;

(9) the number of SRS resource sets which simultaneously activate or deactivate or update the spatial relationship and are supported by the terminal;

(10) whether the terminal supports the same first information to activate or deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of in-band continuous carrier aggregation;

(11) whether the terminal supports the same first information to activate or deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band continuous carrier;

(12) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship of the terminal reception of multiple carriers, multiple cells, multiple partial bandwidths and/or multiple network nodes of the intra-band non-contiguous carrier aggregation;

(13) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band discontinuous carrier;

(14) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of inter-band carrier aggregation;

(15) whether the terminal supports the spatial relationship sent by the terminal of multiple carriers, multiple cells, multiple partial bandwidths, multiple network nodes, multiple PUCCH resources, multiple PUCCH resource sets, multiple SRS resources and/or multiple SRS resource sets of the same first information activation, deactivation or update inter-band carrier aggregation.

In the embodiment of the present invention, optionally, the method further includes: receiving the LCID;

the LCID indicates at least one of:

(1) the first information indicates: activation, deactivation or updating of the spatial relationship received by the terminal for a plurality of carriers, a plurality of cells, a plurality of fractional bandwidths, and/or a plurality of network nodes;

(2) the first information indicates: activation, deactivation or update of spatial relationships transmitted by the terminal for a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets;

(3) the first information indicates: activation, deactivation or updating of other carriers than the first, cells, partial bandwidth and/or spatial relationship received by the terminal of the network node;

(4) the first information indicates: activation, deactivation or update of spatial relationships transmitted by the terminal for other carriers than the first one, cells, fractional bandwidths, network nodes, PUCCH resources, PUCCH resource sets, SRS resources, and/or SRS resource sets;

(5) the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth and/or network node;

(6) the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, PUCCH resource set, SRS resource set and/or SRS resource set.

In an embodiment of the present invention, the method further comprises: sending second information, wherein the second information comprises at least one of the following:

(1) a carrier group identifier;

the group identifier refers to an identifier of a combination or set of 1 or more carriers, cells, partial bandwidths, network nodes, PUCCH resources, PUCCH resource sets, SRS resources, SRS resource sets. The UE may be configured with multiple group identities, i.e. the UE may be configured with multiple carrier groups, multiple cell groups, multiple partial bandwidth groups, multiple network node groups, multiple PUCCH resource groups, PUCCH resource set groups, SRS resource set groups.

(2) Cell group identification

(3) A partial bandwidth group identification;

(4) a PUCCH resource group identification;

(5) PUCCH resource set group identification;

the combination or set corresponding to the PUCCH resource set group identifier includes one or more PUCCH resource sets.

(6) SRS resource group identification;

(7) SRS resource set group identification;

(8) a carrier list;

(9) a cell list;

(10) a partial bandwidth group list;

(11) a PUCCH resource group list;

(12) a PUCCH resource set group list;

(13) SRS resource group list;

(14) SRS resource set group list.

The list information in (8) to (14) above refers to member information in the combination/set indicated in the group identifier.

In the embodiment of the present invention, the first information indicates activation, deactivation or update of a spatial relationship received by the terminal of multiple carriers, multiple cells, multiple partial bandwidths, and/or multiple network nodes, or indicates activation, deactivation or update of a spatial relationship of a terminal transmission beam of multiple carriers, multiple cells, multiple partial bandwidths, multiple network nodes, multiple PUCCH resources, multiple PUCCH resource sets, multiple SRS resource sets, and/or multiple SRS resource sets, so that a problem of relatively large signaling overhead due to separate configuration can be avoided, and signaling overhead can be effectively saved.

It is understood that the set/group information may be obtained by the terminal through network signaling. The set/group ID, and/or the member information in each set/group, may be indicated in the network signaling. The member information may be PUCCH resource information, SRS resource information, carrier information, cell identifier information, BWP information, CSI-RS information, or TRP identifier. The network signaling may be RRC messages or MAC CE messages. The Set/group ID may be a PUCCH resource Set/group ID, an SRS resource Set/group ID, a carrier Set/group ID, a cell Set/group ID, a BWP Set/group ID, a CSI-RS resource Set/group ID, or a TRP Set/group ID. The terminal may be configured with multiple sets/groups.

As an embodiment, the MAC CE providing the activation information may explicitly give the main body information of the MAC CE. Specifically, the MAC CE may include an applied set/group ID. The MAC CE may also include 1 or more PUCCH resource identities, PUCCH resource set/group identities, SRS resource set/group identities, carrier identities, cell identities, BWP identities, and/or TRP identities that are applied. The MAC CE providing the activation information may be a MAC CE providing a spatial relationship of PUCCH resource, a MAC CE providing a spatial relationship of SRS resource, a MAC CE providing PDSCH TCI state activation/deactivation, a MAC CE providing PDCCH TCI state activation/deactivation, or a MAC CE providing CSI-RS/CSI-IM resource set and/or CSI-RS/CSI-IM resource.

As an embodiment, the MAC CE providing the activation information may implicitly give the body information of the MAC CE. Specifically, the MA CE gives a specified PUCCH resource identity, PUCCH resource set/group identity, SRS resource set/group identity, carrier identity, cell identity, BWP identity, and/or TRP identity to which the MAC CE is applied, but the MAC CE may be applied to other carriers, cells, BWPs, TRPs belonging to the same group/set as the specified carrier, cell, BWP, TRP. The MAC CE providing the activation information may be a MAC CE providing a spatial relationship of PUCCH resource, a MAC CE providing a spatial relationship of SRS resource, a MAC CE providing PDSCH TCI state activation/deactivation, a MAC CE providing PDCCH TCI state activation/deactivation, or a MAC CE providing CSI-RS/CSI-IM resource set and/or TCI activation/deactivation of CSI-RS/CSI-IM resource.

As an embodiment, step one: and the terminal receives set/group information issued by the network. Step two: the terminal receives MAC CE information providing activation information, the MAC CE information giving a set/group ID to which the MAC CE is applied, and/or a PUCCH resource identifier, PUCCH resource set/group identifier, SRS resource set/group identifier, carrier identifier, cell identifier, BWP identifier, and/or TRP identifier to which the MAC CE is applied.

As an embodiment, step one: and the terminal receives set/group information issued by the network. Step two: the terminal receives MAC CE information providing activation information giving 1 or more PUCCH resource identity, PUCCH resource set/group identity, SRS resource set/group identity, carrier identity, cell identity, BWP identity, and/or TRP identity to which the MAC CE is applied. The activation information provided by the MAC CE may be applied to all PUCCH resource identifiers, PUCCH resource set/group identifiers, SRS resource set/group identifiers, carrier identifiers, cell identifiers, BWP identifiers and/or TRP identifiers belonging to the same set/group as the PUCCH resource identifiers, PUCCH resource set/group identifiers, SRS resource set/group identifiers, carrier identifiers, cell identifiers, BWP identifiers and/or TRP identifiers specified in the MAC CE. Further, the terminal may know, through network signaling, whether the MAC CE information providing the activation information may be applied to all PUCCH resource identities, PUCCH resource set/group identities, SRS resource set/group identities, carrier identities, cell identities, BWP identities, and/or TRP identities in a set/group.

Example 1: the MAC CE of the spatial relationship (spatial relationship) of the PUCCH resource includes at least one of the following:

-a serving cell identity;

-BWP identification;

-a TRP identity;

-a carrier identity;

-PUCCH resource identity;

-PUCCH resource set/group identity;

-spatial relation identification of PUCCH resource;

-spatial relation identity of PUCCH resource set/group;

-first indication information indicating whether the MAC CE provides a spatial relation of PUCCH resource sets/groups;

-second indication information indicating whether the MAC CE provides a spatial relationship of PUCCH resources;

-third indication information indicating whether the MAC CE provides a spatial relationship of 2 or more PUCCH resource sets/groups;

-fourth indication information indicating whether the MAC CE provides a spatial relationship of 2 or more PUCCH resources.

The MAC CE may provide spatial relationship identifiers of a plurality of PUCCH resources; the MAC CE provides spatial relationship identification of a plurality of PUCCH resource sets/groups.

The MAC CE may provide a spatial relationship identifier of PUCCH resource and PUCCH resource set/group at the same time; the MAC CE may only provide a spatial relationship identifier of the PUCCH resource; the MAC CE may only provide a spatial relationship identifier of PUCCH resource set/group.

The spatial relationship indicated by the spatial relationship identity of the PUCCH resource set/group applies to all PUCCH resources within that set/group.

The spatial relationship indicated by the spatial relationship identification of the PUCCH resource is applied to the PUCCH resource.

The serving cell identifier, the BWP identifier, the TRP identifier, and the carrier identifier may be corresponding identifiers of PUCCH resources identified by PUCCH resources, respectively.

The serving cell identifier, the BWP identifier, the TRP identifier, and the carrier identifier may be corresponding identifiers of PUCCH resource set/group identified by PUCCH resource set/group, respectively.

The MAC CE may provide spatial relationship identifiers of different PUCCH resource sets/groups according to different bit positions. For example, the MAC CE has X bit strings with a length of Y (X > ═ 1, Y > ═ 1), each bit string indicates a spatial relationship identifier of one PUCCH resource set/group, and the spatial relationship identifier can be provided by a decimal value corresponding to the bit string. For another example, 1 bit may indicate activation and deactivation of a spatial relationship of 1 PUCCH resource set/group, where a bit 1 indicates that the corresponding spatial relationship is activated, and a bit 0 indicates that the corresponding spatial relationship is deactivated. The mapping/correspondence relationship between the bit sequence position/bit position and the spatial relationship identifier of the PUCCH resource set/group may be predefined, or may be understood by the network and the terminal.

The MAC CE may provide a spatial relationship identifier of the PUCCH resource set/group, and also provide an identifier of the PUCCH resource set/group to which the spatial relationship indicated by the spatial relationship identifier is applied. The MAC CE may provide a spatial relationship identifier of the PUCCH resource set/group, but does not provide an identifier of the PUCCH resource set/group to which the spatial relationship indicated by the spatial relationship identifier is applied

The MAC CE may provide spatial relationship identifiers of different PUCCH resources according to different bit positions. For example, the MAC CE has M bit strings with a length of N (M > -1, N > -1), each bit string indicates a spatial relationship identifier of one PUCCH resource, and the identifier of the spatial relationship may be provided by a decimal value corresponding to the bit string. For another example, 1 bit may indicate activation and deactivation of spatial relationships of 1 PUCCH resource, where a bit 1 indicates that the corresponding spatial relationship is activated, and a bit 0 indicates that the corresponding spatial relationship is deactivated. The mapping/corresponding relationship between the bit string position/bit position and the spatial relationship identifier of the PUCCH resource may be predefined, or the network and the terminal may have a consistent understanding; further, the method may not provide PUCCH resource identification in the MAC CE.

The MAC CE may provide a spatial relationship identifier of the PUCCH resource, and also provide an identifier of the PUCCH resource to which the spatial relationship indicated by the spatial relationship identifier is applied. The MAC CE may provide a spatial relationship identifier of the PUCCH resource, but does not provide an identifier of the PUCCH resource to which the spatial relationship indicated by the spatial relationship identifier is applied.

Example 2: the MAC CE of the spatial relationship of SRS resource comprises at least one of the following:

-a serving cell identity;

-BWP identification;

-a TRP identity;

-a carrier identity;

-a SUL identity;

-a first identity;

-Resource identity;

-a second identity;

-SRS resource identity;

-SRS resource set/group identity;

-spatial relation identification of SRS resource;

-first indication information indicating whether the MAC CE provides a spatial relationship of 2 or more SRS resources;

-second indication information indicating whether the MAC CE provides a spatial relation of 2 or more SRS resources set/group;

-third indication information indicating whether the MAC CE provides spatial relationship identification of SRS resource

-fourth indication information indicating whether the MAC CE provides a spatial relationship identification of SRS resource set/group

The SUL identifier may indicate whether the MAC CE is applied to a normal uplink carrier (NUL) or a supplemental uplink carrier (SUL).

The SUL flag may indicate whether SRS resource indicated by the SRS resource flag is applied to a Normal UpLink carrier (NUL) or a Supplemental UpLink carrier (SUL).

The SUL identifier may indicate whether SRS resource set/group indicated by the SRS resource set/group identifier is applied to a normal uplink carrier or a supplementary uplink carrier.

The first flag may indicate that SRS resource is periodic, aperiodic, or semi-static; it may also indicate which of periodic, aperiodic, semi-static SRS resource set/group is; it may also indicate which of periodic, aperiodic, and semi-static SRS resource the MAC CE applies to; it may also indicate which of the periodic, aperiodic, semi-static SRS resource set/group the MAC CE applies to.

The resource identifier may be a resource identifier used to obtain a spatial relationship;

the second identifier may indicate a type of resource used for acquiring the spatial relationship, and according to a difference in values of the second identifier, the type of resource may be SSB, and the corresponding resource identifier provides an SSB index; or NZP CSI-RS, and the corresponding resource identifier provides the NZP CSI-RS resource index.

The MAC CE may provide spatial relationship identifiers of multiple SRS resources; the MAC CE provides spatial relationship identification of a plurality of SRS resource sets/groups.

The MAC CE can simultaneously provide spatial relationship identifiers of SRS resource and SRS resource set/group; the MAC CE may only provide a spatial relationship identifier of SRS resource; the MAC CE can only provide the spatial relationship identification of SRS resource set/group.

The serving cell identifier, the BWP identifier, the TRP identifier, and the carrier identifier may be corresponding identifiers of PUCCH resources identified by SRS resources, respectively.

The serving cell identifier, the BWP identifier, the TRP identifier, and the carrier identifier may be corresponding identifiers of SRS resource set/group identified by SRS resource set/group, respectively.

The serving cell identifier, the BWP identifier, the TRP identifier, and the carrier identifier may be resource identifiers corresponding to resource used for acquiring the spatial relationship.

The MAC CE can provide spatial relationship identification of different SRS resource sets/groups according to different bit positions. For example, the MAC CE has X bit strings with length Y (X > ═ 1, Y > ═ 1), each bit string indicates a spatial relationship of SRS resource set/group, and the identifier of the spatial relationship can be provided by the decimal value corresponding to the bit string. For another example, 1 bit may indicate activation and deactivation of a spatial relationship of 1 PUCCH resource set/group, where a bit 1 indicates that the corresponding spatial relationship is activated, and a bit 0 indicates that the corresponding spatial relationship is deactivated. The mapping/corresponding relationship between the bit string position/bit position and the spatial relationship identifier of the PUCCH resource set/group may be predefined, or the network and the terminal may have a consistent understanding; further, the method may not provide PUCCH resource set/group identification in the MAC CE.

The MAC CE may provide a spatial relationship identifier of the SRS resource set/group, and also provide an identifier of the SRS resource set/group to which the spatial relationship indicated by the spatial relationship identifier is applied. The MAC CE may provide the spatial relationship identifier of the SRS resource set/group, but does not provide the identifier of the SRS resource set/group to which the spatial relationship indicated by the spatial relationship identifier applies.

The MAC CE may provide spatial relationship identifiers of different SRS resources according to different bit positions. For example, the MAC CE has M bit strings with a length of N (M > -1, N > -1), each bit string indicates a spatial relationship identifier of SRS resource, and the identifier of the spatial relationship may be provided by a decimal value corresponding to the bit string. For another example, 1 bit may indicate activation and deactivation of spatial relationships of 1 SRS resource, where a bit 1 indicates that a corresponding spatial relationship is activated, and a bit 0 indicates that a corresponding spatial relationship is deactivated. The mapping/correspondence relationship between the bit string position/bit position and the spatial relationship identifier of SRS resource may be predetermined, or the network and the terminal may have a consistent understanding.

The MAC CE may provide a spatial relationship identifier of the SRS resource, and also provide an identifier of the SRS resource applying the spatial relationship indicated by the spatial relationship identifier. The MAC CE may provide the spatial relationship identifier of the SRS resource, but does not provide the identifier of the SRS resource applying the spatial relationship indicated by the spatial relationship identifier.

The MAC CE may provide different resource identifiers for acquiring spatial relationships according to different bit positions. For example, the MAC CE has X bit strings with length Y (X > ═ 1, Y > ═ 1), each bit string indicates an identifier of resource for acquiring the spatial relationship, and the identifier of resource for acquiring the spatial relationship can be provided by a decimal value corresponding to the bit string. For another example, 1 bit may indicate activation and deactivation of resource for 1 acquisition of spatial relationship, where a bit 1 indicates that the corresponding spatial relationship is activated, and a bit 0 indicates that the corresponding spatial relationship is deactivated. The mapping/correspondence between the bit string position/bit position and the resource identifier for acquiring the spatial relationship may be predetermined, or the network and the terminal may have a consistent understanding.

The MAC CE may provide an identifier of resource used for acquiring the spatial relationship, and also provide an identifier of SRS resource set/group applying the spatial relationship indicated by the resource. The MAC CE may provide an identifier of resource used for acquiring the spatial relationship, but does not provide an identifier of SRS resource set/group applying the spatial relationship indicated by resource.

The MAC CE may provide an identifier of resource used for acquiring the spatial relationship, and also provide an identifier of SRS resource applying the spatial relationship indicated by the resource. The MAC CE may provide an identifier of resource used for acquiring the spatial relationship, but does not provide an identifier of SRS resource set/group applying the spatial relationship indicated by resource.

Example 3: the MAC CE of PDSCH TCI state activation/deactivation includes at least one of the following:

-cell set/group identity;

-carrier set/group identity;

-BWP set/group identity;

-a first indication flag indicating whether the MAC CE is applied to PDSCH TCI state activation/deactivation of multiple cells, carriers, BWPs, and/or TRPs;

-a second indication identity indicating whether PDSCH TCI state activation/deactivation of the cell, BWP, carrier, and/or TRP specified in the MAC CE is applicable to other cells, carriers, BWP, and/or TRP;

-a third indicator indicating whether PDSCH TCI state activation/deactivation of a specified cell, BWP, carrier, and/or TRP in the MAC CE can be applied to all cells, carriers, BWP and/or TRP in a set/group to which the specified cell, BWP, carrier, and/or TRP belongs;

-a serving cell identity;

-BWP identification;

-a TRP identity;

-a carrier identity;

-TCI state activation information.

The above-mentioned TCI state activation information may give activation information of a plurality of TCI states. Whether the TCI state is activated or deactivated may be indicated by 1 bit in the MAC CE, where bit 1 indicates that the TCI state is activated and bit 0 indicates that the TCI state is deactivated. The activation information of a plurality of TCI states may be indicated by a plurality of bits, each bit indicating the activation information of one TCI state. The mapping relationship between the bits and the TCI state may be specified in the protocol. Whether a TCI state is activated or deactivated may also be indicated by a 1-bit string in the MAC CE, the decimal value corresponding to the bit string giving the ID of the activated TCI state.

Example 4: the MAC CE of PDCCH TCI state activation/deactivation includes at least one of the following:

-cell set/group identity;

-carrier set/group identity;

-BWP set/group identity;

-a CORSET (Control Resource Set) identification;

-a first indication flag indicating whether the MAC CE is applied to PDCCH TCI state activation/deactivation for multiple cells, carriers, BWPs and/or TRPs;

-a second indication identity indicating whether PDCCH TCI state activation/deactivation of a cell, BWP, carrier, and/or TRP specified in the MAC CE can be applied to other cells, carriers, BWP and/or TRP;

-a third indicator indicating whether PDCCH TCI state activation/deactivation of a specified cell, BWP, carrier, TRP in the MAC CE can be applied to all cells, carriers, BWP and/or TRP in a set/group to which the specified cell, BWP, carrier, TRP belongs;

-a serving cell identity;

-BWP identification;

-a TRP identity;

-a carrier identity;

-TCI state activation information.

The above-mentioned TCI state activation information may give activation information of a plurality of TCI states. Whether the TCI state is activated or deactivated may be indicated by 1 bit in the MAC CE, where bit 1 indicates that the TCI state is activated and bit 0 indicates that the TCI state is deactivated. The activation information of a plurality of TCI states may be indicated by a plurality of bits, each bit indicating the activation information of one TCI state. The mapping relationship between the bits and the TCI state may be specified in the protocol. Whether a TCI state is activated or deactivated may also be indicated by a 1-bit string in the MAC CE, the decimal value corresponding to the bit string giving the ID of the activated TCI state.

Example 5: the MAC CE of the CSI-RS/CSI-IM resource/resource set activation/deactivation comprises at least one of the following:

-cell set/group identity;

-carrier set/group identity;

-BWP set/group identity;

-a first indicator indicating whether the MAC CE applies to activation/deactivation of CSI-RS/CSI-IM resource/resource sets of multiple cells, carriers, BWPs, and/or TRPs;

-a second indication indicating whether the activation/deactivation of the CSI-RS/CSI-IM resource/resource set of the cell, BWP, carrier, and/or TRP specified in the MAC CE can be applied to other cells, carriers, BWP, and/or TRP;

-a third indicator indicating whether the activation/deactivation of the CSI-RS/CSI-IM resource/resource set of a specified cell, BWP, carrier and/or TRP in the MAC CE can be applied to all cells, carriers, BWP and/or TRPs in the set/group to which the specified cell, BWP, carrier and/or TRP belongs;

-a fourth indication flag indicating whether CSI-IM resource/resource set is included in the MAC CE;

-a serving cell identity;

-BWP identification;

-a TRP identity;

-a carrier identity;

-CSI-RS resource identity;

-a CSI-RS resource set identity;

-CSI-IM resource identity;

-a CSI-IM resource set identity;

-TCI state activation information.

The above-mentioned TCI state activation information may give activation information of a plurality of TCI states. Whether the TCI state is activated or deactivated may be indicated by 1 bit in the MAC CE, where 1 bit indicates that the MAC CE is activated and 0 bit indicates that the MAC CE is deactivated. The activation information of a plurality of TCI states may be indicated by a plurality of bits, each bit indicating the activation information of one TCI state. The mapping relationship between the bits and the TCI state may be specified in the protocol. Whether a TCI state is activated or deactivated may also be indicated by a 1-bit string in the MAC CE, the decimal value corresponding to the bit string giving the ID of the activated TCI state. The activation information of the TCI state may be applied to one CSI-RS resource of the CSI-RS resource set, specifically, the first TCI state activation information indicated in the MAC CE may be applied to the first CSI-RS resource of the CSI-RS resource set, the second TCI state activation information indicated in the MAC CE may be applied to the second CSI-RS resource of the CSI-RS resource set, and so on.

Referring to fig. 4, an embodiment of the present invention further provides a terminal, where the terminal 400 includes:

a first receiving module 401, configured to receive first information, where the first information is used to indicate activation, deactivation, or update of a first spatial relationship;

a processing module 402, configured to activate, deactivate, or update the first spatial relationship according to the first information;

wherein the first spatial relationship represents a spatial relationship of a plurality of transmissions or receptions of the terminal.

For example, the first spatial relationship may include one or more of:

(1) spatial relationships of the terminal to the reception of the plurality of carriers;

(2) a spatial relationship of reception by the terminal for a plurality of cells;

(3) a spatial relationship of reception of a plurality of partial bandwidths by the terminal;

(4) a spatial relationship of reception by the terminal for a plurality of network nodes;

(5) a spatial relationship of the terminal to the transmission of the plurality of carriers;

(6) the terminal sends spatial relations to a plurality of cells;

(7) a spatial relationship of the terminal to the transmission of the plurality of partial bandwidths;

(8) a spatial relationship of the terminal to transmissions by the plurality of network nodes;

(9) spatial relationships of a plurality of physical uplink control channel resources (PUCCH resources);

(10) spatial relationships of a plurality of sounding reference signal resources (SRS resources);

(11) spatial relation of multiple sounding reference signal resource sets (SRS resource sets).

Wherein, it can be understood that activating, deactivating or updating the spatial relationship of transmission or reception of the multiple carriers is equivalent to activating, deactivating or updating the transmission configuration indication states of the multiple carriers; activating, deactivating or updating the sending or receiving spatial relationship of the plurality of cells, which is equivalent to activating, deactivating or updating the transmission configuration indication states of the plurality of cells; activating, deactivating or updating the spatial relationship of the transmission or reception of the plurality of partial bandwidths, which is equivalent to activating, deactivating or updating the transmission configuration indication states of the plurality of partial bandwidths; activating, deactivating or updating the spatial relationship of transmission or reception of the plurality of network nodes corresponds to activating, deactivating or updating the transmission configuration indication status of the plurality of network nodes.

In this embodiment of the present invention, optionally, the terminal 400 may further include:

a first sending module, configured to send capability information of the terminal, where the capability information is used to indicate whether the terminal supports activation, deactivation, or update of a first spatial relationship.

Optionally, the capability information comprises one or more of:

(1) the number of carriers that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(2) the number of cells that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(3) the terminal supports the combing of simultaneously activating or deactivating or updating the spatial relationship;

(4) the number of partial bandwidths of the spatial relationship that are simultaneously activated or deactivated or updated, supported by the terminal;

(5) the number of network nodes that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(6) the number of PUCCH resources which are simultaneously activated or deactivated or updated in spatial relationship and supported by the terminal;

(7) the number of PUCCH resource sets which simultaneously activate or deactivate or update the spatial relationship and are supported by the terminal;

(8) the number of SRS resources which are supported by the terminal and simultaneously activate or deactivate or update the spatial relationship;

(9) the number of SRS resource sets which simultaneously activate or deactivate or update the spatial relationship and are supported by the terminal;

(10) whether the terminal supports the same first information to activate or deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of in-band continuous carrier aggregation;

(11) whether the terminal supports the same first information to activate or deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band continuous carrier;

(12) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship of the terminal reception of multiple carriers, multiple cells, multiple partial bandwidths and/or multiple network nodes of the intra-band non-contiguous carrier aggregation;

(13) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band discontinuous carrier;

(14) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of inter-band carrier aggregation;

(15) whether the terminal supports the spatial relationship sent by the terminal of multiple carriers, multiple cells, multiple partial bandwidths, multiple network nodes, multiple PUCCH resources, multiple PUCCH resource sets, multiple SRS resources and/or multiple SRS resource sets of the same first information activation, deactivation or update inter-band carrier aggregation.

In this embodiment of the present invention, optionally, the first information includes one or more of the following items:

carrier identification;

carrier group identification

A cell identity;

cell group identification

A partial bandwidth identification;

a partial bandwidth group identification;

PUCCH resource identification;

PUCCH resource set identification;

SRS resource identification;

SRS resource set identification;

the terminal receives or sends activation information of the spatial relationship;

the first information identification;

network node information;

controlling a resource set identifier;

channel state information reference signal resource set identification;

physical uplink control channel resource identification;

a carrier list;

a partial bandwidth list;

receiving a list of spatial relationships;

a list of spatial relationships is sent.

In this embodiment of the present invention, optionally, the first information identifier indicates one or more of the following:

the first information indicates: activation, deactivation or updating of the spatial relationship received by the terminal for a plurality of carriers, a plurality of cells, a plurality of fractional bandwidths, and/or a plurality of network nodes;

the first information indicates: activation, deactivation or updating of spatial relationships transmitted by the terminal for a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources, and/or a plurality of SRS resource sets;

the first information indicates: activation, deactivation or updating of other (e.g., second or more) carriers than the first, cells, partial bandwidth, and/or spatial relationships received by the terminal of the network node;

the first information indicates: activation, deactivation or update of the terminal-transmitted spatial relationship of other (e.g., second or more) carriers than the first, e.g., cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set;

the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths, and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth, and/or network node;

the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource set, and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource set, and/or SRS resource set.

In this embodiment of the present invention, optionally, the activation information of the spatial relationship received or sent by the terminal includes one or more of the following items:

whether the spatial relationship received or transmitted by the terminal is activated or not;

the terminal receives or sends a spatial relationship identifier;

the terminal receives or sends the reference resource type of the spatial relationship;

the terminal receives or sends a reference resource identifier of the spatial relationship;

the terminal receives or sends the spatial relationship information identifier;

and the terminal receives or sends the activation information of the spatial relationship information identifier.

In this embodiment of the present invention, optionally, the terminal receives or sends the activation information of the spatial relationship information identifier, and the activation information is indicated by any one of the following manners:

indicated by a one bit field in the first information;

indicated by a plurality of bit fields in the first information.

In this embodiment of the present invention, optionally, the terminal 400 further includes:

the second receiving module is used for receiving the LCID;

the LCID indicates at least one of:

the first information indicates: activation, deactivation or updating of the spatial relationship received by the terminal for a plurality of carriers, a plurality of cells, a plurality of fractional bandwidths, and/or a plurality of network nodes;

the first information indicates: activation, deactivation or update of spatial relationships transmitted by the terminal for a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets;

the first information indicates: activation, deactivation or updating of other (e.g. second or more) carriers than the first, cells, partial bandwidth and/or spatial relationship received by the terminal of the network node;

the first information indicates: activation, deactivation or update of the terminal-transmitted spatial relationship of other (e.g., second or more) carriers than the first, e.g., cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set;

the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth and/or network node;

the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, PUCCH resource set, SRS resource and/or SRS resource set.

In this embodiment of the present invention, optionally, the terminal 400 further includes:

a third receiving module, configured to receive second information, where the second information includes at least one of:

a carrier group identifier;

cell group identification;

a partial bandwidth group identification;

a PUCCH resource group identification;

PUCCH resource set group identification;

SRS resource group identification;

SRS resource set group identification;

a carrier list;

a cell list;

a partial bandwidth group list;

a PUCCH resource group list;

a PUCCH resource set group list;

SRS resource group list;

SRS resource set group list.

In this embodiment of the present invention, optionally, the first information is downlink first information, a media access control unit, or a radio resource control signaling.

The terminal provided in the embodiment of the present invention may execute the method embodiment shown in fig. 2, which has similar implementation principles and technical effects, and this embodiment is not described herein again.

Referring to fig. 5, an embodiment of the present invention further provides a terminal, where the terminal 500 includes: a first transceiver 501 and a first processor 502;

a first transceiver 501 configured to receive first information indicating activation, deactivation or update of a first spatial relationship;

a first processor 502, configured to activate, deactivate, or update the first spatial relationship according to the first information;

wherein the first spatial relationship represents a spatial relationship of a plurality of transmissions or receptions of the terminal.

For example, the first spatial relationship may include one or more of:

(1) spatial relationships of the terminal to the reception of the plurality of carriers;

(2) a spatial relationship of reception by the terminal for a plurality of cells;

(3) a spatial relationship of reception of a plurality of partial bandwidths by the terminal;

(4) a spatial relationship of reception by the terminal for a plurality of network nodes;

(5) a spatial relationship of the terminal to the transmission of the plurality of carriers;

(6) the terminal sends spatial relations to a plurality of cells;

(7) a spatial relationship of the terminal to the transmission of the plurality of partial bandwidths;

(8) a spatial relationship of the terminal to transmissions by the plurality of network nodes;

(9) spatial relationships of a plurality of physical uplink control channel resources (PUCCH resources);

(10) spatial relationships of a plurality of sounding reference signal resources (SRS resources);

(11) spatial relation of multiple sounding reference signal resource sets (SRS resource sets).

Wherein, it can be understood that activating, deactivating or updating the spatial relationship of transmission or reception of the multiple carriers is equivalent to activating, deactivating or updating the transmission configuration indication states of the multiple carriers; activating, deactivating or updating the sending or receiving spatial relationship of the plurality of cells, which is equivalent to activating, deactivating or updating the transmission configuration indication states of the plurality of cells; activating, deactivating or updating the spatial relationship of the transmission or reception of the plurality of partial bandwidths, which is equivalent to activating, deactivating or updating the transmission configuration indication states of the plurality of partial bandwidths; activating, deactivating or updating the spatial relationship of transmission or reception of the plurality of network nodes corresponds to activating, deactivating or updating the transmission configuration indication status of the plurality of network nodes.

In this embodiment of the present invention, optionally, the first transceiver 501 is further configured to send capability information of the terminal, where the capability information is used to indicate whether the terminal supports activation, deactivation, or updating of the first spatial relationship;

optionally, the capability information comprises one or more of:

(1) the number of carriers that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(2) the number of cells that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(3) the terminal supports the combing of simultaneously activating or deactivating or updating the spatial relationship;

(4) the number of partial bandwidths of the spatial relationship that are simultaneously activated or deactivated or updated, supported by the terminal;

(5) the number of network nodes that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(6) the number of PUCCH resources which are simultaneously activated or deactivated or updated in spatial relationship and supported by the terminal;

(7) the number of PUCCH resource sets which simultaneously activate or deactivate or update the spatial relationship and are supported by the terminal;

(8) the number of SRS resources which are supported by the terminal and simultaneously activate or deactivate or update the spatial relationship;

(9) the number of SRS resource sets which simultaneously activate or deactivate or update the spatial relationship and are supported by the terminal;

(10) whether the terminal supports the same first information to activate or deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of in-band continuous carrier aggregation;

(11) whether the terminal supports the same first information to activate or deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band continuous carrier;

(12) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship of the terminal reception of multiple carriers, multiple cells, multiple partial bandwidths and/or multiple network nodes of the intra-band non-contiguous carrier aggregation;

(13) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band discontinuous carrier;

(14) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of inter-band carrier aggregation;

(15) whether the terminal supports the spatial relationship sent by the terminal of multiple carriers, multiple cells, multiple partial bandwidths, multiple network nodes, multiple PUCCH resources, multiple PUCCH resource sets, multiple SRS resources and/or multiple SRS resource sets of the same first information activation, deactivation or update inter-band carrier aggregation.

In this embodiment of the present invention, optionally, the first information includes one or more of the following items:

carrier identification;

carrier group identification

A cell identity;

cell group identification

A partial bandwidth identification;

a partial bandwidth group identification;

PUCCH resource identification;

PUCCH resource set identification;

SRS resource identification;

SRS resource set identification;

the terminal receives or sends activation information of the spatial relationship;

the first information identification;

network node information;

controlling a resource set identifier;

channel state information reference signal resource set identification;

physical uplink control channel resource identification;

a carrier list;

a partial bandwidth list;

receiving a list of spatial relationships;

a list of spatial relationships is sent.

In this embodiment of the present invention, optionally, the first information identifier indicates one or more of the following:

the first information indicates: activation, deactivation or updating of the spatial relationship received by the terminal for a plurality of carriers, a plurality of cells, a plurality of fractional bandwidths, and/or a plurality of network nodes;

the first information indicates: activation, deactivation or updating of spatial relationships transmitted by the terminal for a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources, and/or a plurality of SRS resource sets;

the first information indicates: activation, deactivation or updating of other (e.g., second or more) carriers than the first, cells, partial bandwidth, and/or spatial relationships received by the terminal of the network node;

the first information indicates: activation, deactivation or update of the terminal-transmitted spatial relationship of other (e.g., second or more) carriers than the first, e.g., cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set;

the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths, and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth, and/or network node;

the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource set, and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource set, and/or SRS resource set.

In this embodiment of the present invention, optionally, the activation information of the spatial relationship received or sent by the terminal includes one or more of the following items:

whether the spatial relationship received or transmitted by the terminal is activated or not;

the terminal receives or sends a spatial relationship identifier;

the terminal receives or sends the reference resource type of the spatial relationship;

the terminal receives or sends a reference resource identifier of the spatial relationship;

the terminal receives or sends the spatial relationship information identifier;

and the terminal receives or sends the activation information of the spatial relationship information identifier.

In this embodiment of the present invention, optionally, the terminal receives or sends the activation information of the spatial relationship information identifier, and the activation information is indicated by any one of the following manners:

indicated by a one bit field in the first information;

indicated by a plurality of bit fields in the first information.

In this embodiment of the present invention, optionally, the first transceiver 501 is further configured to receive an LCID;

the LCID indicates at least one of:

the first information is used for indicating activation, deactivation or updating of a spatial relationship received by the terminal for a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes;

the first information is used for indicating activation, deactivation or updating of a spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets;

the first information indicates: activation, deactivation or updating of other (e.g. second or more) carriers than the first, cells, partial bandwidth and/or spatial relationship received by the terminal of the network node;

the first information indicates: activation, deactivation or update of the terminal-transmitted spatial relationship of other (e.g., second or more) carriers than the first, e.g., cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set;

the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth and/or network node;

the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, PUCCH resource set, SRS resource and/or SRS resource set.

In this embodiment of the present invention, optionally, the first transceiver 501 is further configured to receive second information, where the second information includes at least one of the following:

a carrier group identifier;

cell group identification;

a partial bandwidth group identification;

a PUCCH resource group identification;

PUCCH resource set group identification;

SRS resource group identification;

SRS resource set group identification;

a carrier list;

a cell list;

a partial bandwidth group list;

a PUCCH resource group list;

a PUCCH resource set group list;

SRS resource group list;

SRS resource set group list.

In this embodiment of the present invention, optionally, the first information is downlink first information, a media access control unit, or a radio resource control signaling.

The terminal provided in the embodiment of the present invention may execute the method embodiment shown in fig. 2, which has similar implementation principles and technical effects, and this embodiment is not described herein again.

Referring to fig. 6, an embodiment of the present invention further provides a network device, where the network device 600 includes:

a second sending module 601, configured to send first information, where the first information is used to indicate activation, deactivation, or update of a first spatial relationship;

wherein the first spatial relationship represents a spatial relationship of a plurality of transmissions or receptions of the terminal.

For example, the first spatial relationship may include one or more of:

(1) spatial relationships of the terminal to the reception of the plurality of carriers;

(2) a spatial relationship of reception by the terminal for a plurality of cells;

(3) a spatial relationship of reception of a plurality of partial bandwidths by the terminal;

(4) a spatial relationship of reception by the terminal for a plurality of network nodes;

(5) a spatial relationship of the terminal to the transmission of the plurality of carriers;

(6) the terminal sends spatial relations to a plurality of cells;

(7) a spatial relationship of the terminal to the transmission of the plurality of partial bandwidths;

(8) a spatial relationship of the terminal to transmissions by the plurality of network nodes;

(9) spatial relationships of a plurality of physical uplink control channel resources (PUCCH resources);

(10) spatial relationships of a plurality of sounding reference signal resources (SRS resources);

(11) spatial relation of multiple sounding reference signal resource sets (SRS resource sets).

Wherein, it can be understood that activating, deactivating or updating the spatial relationship of transmission or reception of the multiple carriers is equivalent to activating, deactivating or updating the transmission configuration indication states of the multiple carriers; activating, deactivating or updating the sending or receiving spatial relationship of the plurality of cells, which is equivalent to activating, deactivating or updating the transmission configuration indication states of the plurality of cells; activating, deactivating or updating the spatial relationship of the transmission or reception of the plurality of partial bandwidths, which is equivalent to activating, deactivating or updating the transmission configuration indication states of the plurality of partial bandwidths; activating, deactivating or updating the spatial relationship of transmission or reception of the plurality of network nodes corresponds to activating, deactivating or updating the transmission configuration indication status of the plurality of network nodes.

In this embodiment of the present invention, optionally, the network device 600 further includes:

a third receiving module, configured to receive capability information from the terminal, where the capability information includes one or more of the following:

(1) the number of carriers that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(2) the number of cells that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(3) the terminal supports the combing of simultaneously activating or deactivating or updating the spatial relationship;

(4) the number of partial bandwidths of the spatial relationship that are simultaneously activated or deactivated or updated, supported by the terminal;

(5) the number of network nodes that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(6) the number of PUCCH resources which are simultaneously activated or deactivated or updated in spatial relationship and supported by the terminal;

(7) the number of PUCCH resource sets which simultaneously activate or deactivate or update the spatial relationship and are supported by the terminal;

(8) the number of SRS resources which are supported by the terminal and simultaneously activate or deactivate or update the spatial relationship;

(9) the number of SRS resource sets which simultaneously activate or deactivate or update the spatial relationship and are supported by the terminal;

(10) whether the terminal supports the same first information to activate or deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of in-band continuous carrier aggregation;

(11) whether the terminal supports the same first information to activate or deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band continuous carrier;

(12) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship of the terminal reception of multiple carriers, multiple cells, multiple partial bandwidths and/or multiple network nodes of the intra-band non-contiguous carrier aggregation;

(13) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band discontinuous carrier;

(14) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of inter-band carrier aggregation;

(15) whether the terminal supports the spatial relationship sent by the terminal of multiple carriers, multiple cells, multiple partial bandwidths, multiple network nodes, multiple PUCCH resources, multiple PUCCH resource sets, multiple SRS resources and/or multiple SRS resource sets of the same first information activation, deactivation or update inter-band carrier aggregation.

In this embodiment of the present invention, optionally, the first information includes one or more of the following items:

carrier identification;

a carrier group identifier;

a cell identity;

cell group identification

A partial bandwidth identification;

a partial bandwidth group identification;

PUCCH resource identification;

PUCCH resource set identification;

SRS resource identification;

SRS resource set identification;

the terminal receives or sends activation information of the spatial relationship;

the first information identification;

network node information;

controlling a resource set identifier;

channel state information reference signal resource set identification;

physical uplink control channel resource identification;

a carrier list;

a partial bandwidth list;

receiving a list of spatial relationships;

a list of spatial relationships is sent.

In this embodiment of the present invention, optionally, the first information identifier indicates one or more of the following:

the first information indicates: activation, deactivation or updating of the spatial relationship received by the terminal for a plurality of carriers, a plurality of cells, a plurality of fractional bandwidths, and/or a plurality of network nodes;

the first information indicates: activation, deactivation or updating of spatial relationships transmitted by the terminal for a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources, and/or a plurality of SRS resource sets;

the first information indicates: activation, deactivation or updating of other (e.g., second or more) carriers than the first, cells, partial bandwidth, and/or spatial relationships received by the terminal of the network node;

the first information indicates: activation, deactivation or update of the terminal-transmitted spatial relationship of other (e.g., second or more) carriers than the first, e.g., cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set;

the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths, and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth, and/or network node;

the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource set, and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource set, and/or SRS resource set.

In this embodiment of the present invention, optionally, the activation information of the spatial relationship received or sent by the terminal includes one or more of the following items:

whether the spatial relationship received or transmitted by the terminal is activated or not;

the terminal receives or sends a spatial relationship identifier;

the terminal receives or sends the reference resource type of the spatial relationship;

the terminal receives or sends a reference resource identifier of the spatial relationship;

the terminal receives or sends the spatial relationship information identifier;

and the terminal receives or sends the activation information of the spatial relationship information identifier.

In this embodiment of the present invention, optionally, the terminal receives or sends the activation information of the spatial relationship information identifier, and the activation information is indicated by any one of the following manners:

indicated by a one bit field in the first information;

indicated by a plurality of bit fields in the first information.

In this embodiment of the present invention, optionally, the network device 600 further includes:

a fourth receiving module, configured to receive the LCID;

the LCID indicates at least one of:

the first information indicates: activation, deactivation or updating of the spatial relationship received by the terminal for a plurality of carriers, a plurality of cells, a plurality of fractional bandwidths, and/or a plurality of network nodes;

the first information indicates: activation, deactivation or update of spatial relationships transmitted by the terminal for a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets;

the first information indicates: activation, deactivation or updating of other (e.g. second or more) carriers than the first, cells, partial bandwidth and/or spatial relationship received by the terminal of the network node;

the first information indicates: activation, deactivation or update of the terminal-transmitted spatial relationship of other (e.g., second or more) carriers than the first, e.g., cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set;

the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth and/or network node;

the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, PUCCH resource set, SRS resource and/or SRS resource set.

In this embodiment of the present invention, optionally, the network device 600 further includes:

a third sending module, configured to send second information, where the second information includes at least one of:

a carrier group identifier;

cell group identification;

a partial bandwidth group identification;

a PUCCH resource group identification;

PUCCH resource set group identification;

SRS resource group identification;

SRS resource set group identification;

a carrier list;

a cell list;

a partial bandwidth group list;

a PUCCH resource group list;

a PUCCH resource set group list;

SRS resource group list;

SRS resource set group list.

The network device provided in the embodiment of the present invention may execute the method embodiment shown in fig. 3, which has similar implementation principles and technical effects, and this embodiment is not described herein again.

Referring to fig. 7, an embodiment of the present invention further provides a network device, where the network device 700 includes: a second transceiver 701 and a second processor 702;

a second transceiver 701, configured to send first information, where the first information is used to indicate activation, deactivation, or update of a first spatial relationship;

wherein the first spatial relationship represents a spatial relationship of a plurality of transmissions or receptions of the terminal.

For example, the first spatial relationship may include one or more of:

(1) spatial relationships of the terminal to the reception of the plurality of carriers;

(2) a spatial relationship of reception by the terminal for a plurality of cells;

(3) a spatial relationship of reception of a plurality of partial bandwidths by the terminal;

(4) a spatial relationship of reception by the terminal for a plurality of network nodes;

(5) a spatial relationship of the terminal to the transmission of the plurality of carriers;

(6) the terminal sends spatial relations to a plurality of cells;

(7) a spatial relationship of the terminal to the transmission of the plurality of partial bandwidths;

(8) a spatial relationship of the terminal to transmissions by the plurality of network nodes;

(9) spatial relationships of a plurality of physical uplink control channel resources (PUCCH resources);

(10) spatial relationships of a plurality of sounding reference signal resources (SRS resources);

(11) spatial relation of multiple sounding reference signal resource sets (SRS resource sets).

Wherein, it can be understood that activating, deactivating or updating the spatial relationship of transmission or reception of the multiple carriers is equivalent to activating, deactivating or updating the transmission configuration indication states of the multiple carriers; activating, deactivating or updating the sending or receiving spatial relationship of the plurality of cells, which is equivalent to activating, deactivating or updating the transmission configuration indication states of the plurality of cells; activating, deactivating or updating the spatial relationship of the transmission or reception of the plurality of partial bandwidths, which is equivalent to activating, deactivating or updating the transmission configuration indication states of the plurality of partial bandwidths; activating, deactivating or updating the spatial relationship of transmission or reception of the plurality of network nodes corresponds to activating, deactivating or updating the transmission configuration indication status of the plurality of network nodes.

In this embodiment of the present invention, optionally, the second transceiver 701 is further configured to receive capability information from the terminal, where the capability information includes one or more of the following:

(1) the number of carriers that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(2) the number of cells that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(3) the terminal supports the combing of simultaneously activating or deactivating or updating the spatial relationship;

(4) the number of partial bandwidths of the spatial relationship that are simultaneously activated or deactivated or updated, supported by the terminal;

(5) the number of network nodes that simultaneously activate or deactivate or update spatial relationships supported by the terminal;

(6) the number of PUCCH resources which are simultaneously activated or deactivated or updated in spatial relationship and supported by the terminal;

(7) the number of PUCCH resource sets which simultaneously activate or deactivate or update the spatial relationship and are supported by the terminal;

(8) the number of SRS resources which are supported by the terminal and simultaneously activate or deactivate or update the spatial relationship;

(9) the number of SRS resource sets which simultaneously activate or deactivate or update the spatial relationship and are supported by the terminal;

(10) whether the terminal supports the same first information to activate or deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of in-band continuous carrier aggregation;

(11) whether the terminal supports the same first information to activate or deactivate or update the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets aggregated by the in-band continuous carrier;

(12) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship of the terminal reception of multiple carriers, multiple cells, multiple partial bandwidths and/or multiple network nodes of the intra-band non-contiguous carrier aggregation;

(13) whether the terminal supports the spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCHresources, a plurality of PUCCH resource sets, a plurality of SRS resource and/or a plurality of SRS resource sets of the same first information activation, deactivation or update in-band discontinuous carrier aggregation;

(14) whether the terminal supports the same first information to activate, deactivate or update the spatial relationship received by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes of inter-band carrier aggregation;

(15) whether the terminal supports the spatial relationship sent by the terminal of multiple carriers, multiple cells, multiple partial bandwidths, multiple network nodes, multiple PUCCH resources, multiple PUCCH resource sets, multiple SRS resources and/or multiple SRS resource sets of the same first information activation, deactivation or update inter-band carrier aggregation.

In this embodiment of the present invention, optionally, the first information includes one or more of the following items:

carrier identification;

a carrier group identifier;

a cell identity;

cell group identification

A partial bandwidth identification;

a partial bandwidth group identification;

PUCCH resource identification;

PUCCH resource set identification;

SRS resource identification;

SRS resource set identification;

the terminal receives or sends activation information of the spatial relationship;

the first information identification;

network node information;

controlling a resource set identifier;

channel state information reference signal resource set identification;

physical uplink control channel resource identification;

a carrier list;

a partial bandwidth list;

receiving a list of spatial relationships;

a list of spatial relationships is sent.

In this embodiment of the present invention, optionally, the first information identifier indicates one or more of the following:

the first information indicates: activation, deactivation or updating of the spatial relationship received by the terminal for a plurality of carriers, a plurality of cells, a plurality of fractional bandwidths, and/or a plurality of network nodes;

the first information indicates: activation, deactivation or updating of spatial relationships transmitted by the terminal for a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources, and/or a plurality of SRS resource sets;

the first information indicates: activation, deactivation or updating of other (e.g., second or more) carriers than the first, cells, partial bandwidth, and/or spatial relationships received by the terminal of the network node;

the first information indicates: activation, deactivation or update of the terminal-transmitted spatial relationship of other (e.g., second or more) carriers than the first, e.g., cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set;

the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths, and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth, and/or network node;

the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource set, and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource set, and/or SRS resource set.

In this embodiment of the present invention, optionally, the activation information of the spatial relationship received or sent by the terminal includes one or more of the following items:

whether the spatial relationship received or transmitted by the terminal is activated or not;

the terminal receives or sends a spatial relationship identifier;

the terminal receives or sends the reference resource type of the spatial relationship;

the terminal receives or sends a reference resource identifier of the spatial relationship;

the terminal receives or sends the spatial relationship information identifier;

and the terminal receives or sends the activation information of the spatial relationship information identifier.

In this embodiment of the present invention, optionally, the terminal receives or sends the activation information of the spatial relationship information identifier, and the activation information is indicated by any one of the following manners:

indicated by a one bit field in the first information;

indicated by a plurality of bit fields in the first information.

In this embodiment of the present invention, optionally, the second transceiver 701 is further configured to receive an LCID;

the LCID indicates at least one of:

the first information is used for indicating activation, deactivation or updating of a spatial relationship received by the terminal for a plurality of carriers, a plurality of cells, a plurality of partial bandwidths and/or a plurality of network nodes;

the first information is used for indicating activation, deactivation or updating of a spatial relationship sent by the terminal of a plurality of carriers, a plurality of cells, a plurality of partial bandwidths, a plurality of network nodes, a plurality of PUCCH resources, a plurality of PUCCH resource sets, a plurality of SRS resources and/or a plurality of SRS resource sets;

the first information indicates: activation, deactivation or updating of other (e.g. second or more) carriers than the first, cells, partial bandwidth and/or spatial relationship received by the terminal of the network node;

the first information indicates: activation, deactivation or update of the terminal-transmitted spatial relationship of other (e.g., second or more) carriers than the first, e.g., cell, fractional bandwidth, network node, PUCCH resource set, SRS resource, and/or SRS resource set;

the first information indicates: the activation, deactivation or updating of the spatial relationship received by the terminal of a specified carrier, cell, partial bandwidth, and/or network node applies to all carriers, cells, partial bandwidths and/or network nodes belonging to the same combination/set as the specified carrier, cell, partial bandwidth and/or network node;

the first information indicates: the activation, deactivation or updating of the spatial relationship transmitted by said terminal for a specified carrier, cell, fractional bandwidth, network node, PUCCH resource set, SRS resource and/or SRS resource set applies to all carriers, cells, fractional bandwidths, network nodes, PUCCH resource set, SRS resource and/or SRS resource set belonging to the same combination/set as the specified carrier, cell, fractional bandwidth, PUCCH resource set, SRS resource and/or SRS resource set.

In this embodiment of the present invention, optionally, the second transceiver 701 is further configured to send second information, where the second information includes at least one of:

a carrier group identifier;

cell group identification;

a partial bandwidth group identification;

a PUCCH resource group identification;

PUCCH resource set group identification;

SRS resource group identification;

SRS resource set group identification;

a carrier list;

a cell list;

a partial bandwidth group list;

a PUCCH resource group list;

a PUCCH resource set group list;

SRS resource group list;

SRS resource set group list.

The network device provided in the embodiment of the present invention may execute the method embodiment shown in fig. 3, which has similar implementation principles and technical effects, and this embodiment is not described herein again.

Referring to fig. 8, fig. 8 is a structural diagram of a communication device according to an embodiment of the present invention, and as shown in fig. 8, the communication device 800 includes: a processor 801, a transceiver 802, a memory 803, and a bus interface, wherein:

in one embodiment of the present invention, the communication device 800 further comprises: a computer program stored on the memory 803 and executable on the processor 801, which computer program when executed by the processor 801 performs the steps in the embodiments shown in fig. 2 or fig. 3.

In FIG. 8, the bus architecture may include any number of interconnected buses and bridges, with one or more processors, represented by the processor 801, and various circuits, represented by the memory 803, linked together. The bus architecture may also link together various other circuits such as peripherals, voltage regulators, power management circuits, and the like, which are well known in the art, and therefore, will not be described any further herein. The bus interface provides an interface. The transceiver 802 may be a number of elements including a transmitter and a receiver that provide a means for communicating with various other apparatus over a transmission medium.

The processor 801 is responsible for managing the bus architecture and general processing, and the memory 803 may store data used by the processor 801 in performing operations.

The communication device provided in the embodiment of the present invention may execute the method embodiment shown in fig. 2 or fig. 3, which implements similar principles and technical effects, and this embodiment is not described herein again.

The steps of a method or algorithm described in connection with the disclosure herein may be embodied in hardware or may be embodied in software instructions executed by a processor. The software instructions may consist of corresponding software modules that may be stored in RAM, flash memory, ROM, EPROM, EEPROM, registers, hard disk, a removable hard disk, a compact disk, or any other form of storage medium known in the art. An exemplary storage medium is coupled to the processor such the processor can read information from, and write information to, the storage medium. Of course, the storage medium may also be integral to the processor. The processor and the storage medium may reside in an ASIC. In addition, the ASIC may be carried in a core network interface device. Of course, the processor and the storage medium may reside as discrete components in a core network interface device.

Those skilled in the art will recognize that, in one or more of the examples described above, the functions described in this invention may be implemented in hardware, software, firmware, or any combination thereof. When implemented in software, the functions may be stored on or transmitted over as one or more instructions or code on a computer-readable medium. Computer-readable media includes both computer storage media and communication media including any medium that facilitates transfer of a computer program from one place to another. A storage media may be any available media that can be accessed by a general purpose or special purpose computer.

The above-mentioned embodiments, objects, technical solutions and advantages of the present invention are further described in detail, it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made on the basis of the technical solutions of the present invention should be included in the scope of the present invention.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, embodiments of the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, embodiments of the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

Embodiments of the present invention are described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

It will be apparent to those skilled in the art that various changes and modifications may be made in the embodiments of the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the embodiments of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to encompass such modifications and variations.