WO2020078179A1

WO2020078179A1 - Resource configuration method, rate matching method, transmission and receiving point and terminal

Info

Publication number: WO2020078179A1
Application number: PCT/CN2019/107661
Authority: WO
Inventors: 王潇涵; 葛士斌; 杭海存; 纪刘榴; 毕晓艳
Original assignee: 华为技术有限公司
Priority date: 2018-10-18
Filing date: 2019-09-25
Publication date: 2020-04-23
Also published as: CN111083741A; CN111083741B

Abstract

In the embodiments of the present application, defining a resource, which sends non-data information to a terminal, configured to or associated with one downlink control configuration parameter of two downlink control configuration parameters configured to the terminal to be a sub-set, associated with the other downlink control configuration parameter, of a resource indicated by rate matching indication information sent to the terminal, thereby avoiding one TRP sending data information on a resource where another TRP sends non-data information or does not send data information. The terminal can perform rate matching according to rate matching indication information sent by a transmission and receiving point thereto, thereby correctly demodulating data. The present application can be adapted to different rate matching scenarios.

Description

Resource allocation method, rate matching method, transmission and reception point, terminal

This application requires the priority of the Chinese patent application submitted to the State Intellectual Property Office of China on October 18, 2018, with the application number 201811212941.6 and the application name "Resource Allocation Method, Rate Matching Method, Transmission and Reception Point, Terminal", all of which The contents are incorporated in this application by reference.

Technical field

The present application relates to the field of communication technology design, in particular to a resource configuration method, a transmission method in a multi-connection mode, a method for rate matching of a terminal in a multi-connection mode, a transmission and reception point, and a terminal supporting a multi-connection mode.

Background technique

In the future 5th-generation (5G) mobile communication technology, with the rapid development of mobile communication, there are many aspects such as system capacity, instantaneous peak rate, spectrum efficiency, cell-edge user throughput and delay, etc. higher requirement. Multi-point coordinated transmission (coordinated multiple transmission / reception, CoMP) technology is therefore proposed.

CoMP technology aims to achieve coordinated transmission between transmission and reception points (TRP) in different geographic locations. At present, whether CoMP technology is in the uplink or downlink, it can improve system performance, especially improve the spectrum efficiency at the cell edge. The current mainstream implementation methods of CoMP technology can be divided into cooperative processing (Joint Processing, JP) technology and coordinated scheduling / cooperative beam (Coordinated Scheduling / Beamforming, CS / CB) technology.

Non-coherent joint transmission (non-coherent joint transmission, NCJT) is one of the important multi-point cooperative transmission schemes. In the NCJT scheme, there may be two or more TRP serving the same terminal at the same time. When multiple TRPs cooperate, control signaling supports multiple downlink control information (downlink control information, DCI), that is, the terminal can simultaneously receive two DCIs indicating physical downlink shared channels (PDSCH).

In some cases, such as in a non-ideal backhaul scenario, the information transmission of the two TRPs is delayed and cannot be interacted in real time, that is, at the same time, each TRP is in its own time-frequency resource When sending data to the terminal, one TRP cannot know whether another TRP is sending data to the terminal at this time, or what time-frequency resources the other TRP uses to send data.

The terminal will perform rate matching according to the rate matching indication information sent by the TRP, that is, puncturing the time-frequency resources indicated by the rate matching indication information that are not used for transmitting data information, because one TRP does not know another TRP Whether to send data, and what time-frequency resources are sent, so when each TRP sends a rate matching indication to the terminal, only its own situation is considered, which will cause the terminal to do according to the rate matching indication information sent by multiple TRPs. When the rates match, conflicts occur and the data information cannot be demodulated correctly.

Summary of the invention

The present application provides a resource configuration scheme, a transmission scheme in a multi-connection mode, and a rate matching scheme for a terminal supporting the multi-connection mode, which can solve the above-mentioned technical problems in the existing multiple transmission and reception point cooperative transmission scheme and can cooperate The transmission and reception point makes a rate matching instruction to the terminal, so that the terminal can perform rate matching correctly, and avoids the inability to demodulate the data information correctly.

A terminal in a multi-TRP scenario is usually configured with two downlink control configuration parameters, such as a first downlink control configuration parameter and a second downlink control configuration parameter; of course, the terminal may also be configured with two The above downlink control configuration parameters, the first and second in the embodiment of the present application do not limit the number, but only represent different downlink control configuration parameters, which can refer to any two downlink control configuration parameters. The values of the first downlink control configuration parameter and the second downlink control configuration parameter may be the same or different.

The design made by the embodiment of the present application to solve the technical problem is to configure the first downlink control configuration parameter or the associated first resource to transmit non-data information to the terminal, and configure the first resource associated with the second downlink control configuration parameter The subset of the second resource indicated by the rate matching indication information to the terminal.

The “association” mentioned in the embodiments of the present application may have a clear relationship, such as a one-to-one relationship, or may have an implicit relationship, such as configuration parameters from downlink control and some related parameters, such as downlink control. Information can deduce the corresponding resources.

Therefore, when configuring resources in this application, one way is to configure one of the downlink control configuration parameters to configure or associate the non-data information sending resource as the rate matching indication information associated with the other downlink control configuration parameter. A subset of resources indicated by the terminal. Another way is to configure one downlink control configuration parameter or resource for sending data information configured in the association to be in addition to the resource indicated by the rate matching indication information associated with another downlink control configuration parameter and other resources that transmit non-data information A subset of resources outside.

This application is mainly described in the previous way. Since the resources for transmitting data information or the resources for transmitting non-data information are often complementary to each other, the technical principles of the two methods are the same, as long as the above purpose of restricting resources is met. All belong to the protection scope of this application.

The downlink control configuration parameters mentioned in all the embodiments of the present application include physical downlink control channel configuration, or control resource set group or search space group.

In the embodiment of the present application, for the scenario of multiple transmission and receiving points, when configuring the downlink control configuration parameters to the terminal, the following three configuration methods may be used:

1. Configure two physical downlink control channel configurations (physical downlink control channel configuration, PDCCH-config, PDCCH-config) to the terminal, each physical downlink control channel configuration is configured with multiple control resource sets (control resource, set, CORESET) And multiple search spaces (search spaces), where a set of control resources can be associated with multiple search spaces.

2. Configure a physical downlink control channel configuration to the terminal, which includes two control resource set groups (control resource set, CORESE group), each control resource set group contains several control resource sets, and each control resource set is associated with many Search spaces.

3. Configure a physical downlink control channel configuration to the terminal, which includes two search space groups, and each search space group includes several search spaces, and each search space is associated with a control resource set.

In general, in the scenario of multiple transmission and receiving points, if two physical downlink control channel configurations are configured to the terminal by way 1, the terminal can separately detect two downlink control information from the two physical downlink control channel configuration indication control information resources .

Alternatively, in mode 2, when two control resource set groups are configured to the terminal, the terminal can separately detect two downlink control information from the control information resources indicated by the two control resource set groups.

Or, in manner 3, when two search space groups are configured to the terminal, the terminal can separately detect two downlink control information from the control information resources indicated by the two search space groups.

Here, two physical downlink control channel configurations or two control resource set groups or two search space groups are used as an example for description, and multiple cases may be deduced by analogy.

The physical downlink control channel configuration may include one or more physical control channel configuration parameters or physical control channel configuration parameter index numbers; the control resource set group may include one or more control resource set parameters or control resource set parameter index numbers ; The search space group may include one or more search spaces or search space index numbers.

Generally speaking, different downlink control configuration parameters are associated with different transmission and reception points, for example, the first downlink control configuration parameter is associated with the first transmission and reception point in the scenario of multiple transmission reception points, and the second downlink control configuration parameter is associated with multiple transmission The second transmission receiving point in the receiving point scenario is associated.

From the perspective of transmission and reception points, in the application of resource configuration, one way is to configure one of the transmission and reception points to send non-data information resources to another transmission and reception point to indicate to the terminal through the rate matching indication information Subset of resources. Another way is to configure a resource of one transmission and reception point to transmit data information to a subset of resources other than the resources indicated by the rate matching indication information from another transmission and reception point to the terminal and other resources that transmit non-data information .

In this way, it is possible to avoid the inability to correctly demodulate the data information due to the overlap between the resources for sending data information and the resources for sending non-data information at the two transmission and reception points, and conflicts when the terminal performs rate matching.

The transmission and sending in this application have the same meaning, and may also be referred to as transmission.

Based on this, the application has been designed in terms of resource allocation and the technical aspects of terminal rate matching to enable it to achieve the above-mentioned objectives.

According to the first aspect of the present application, a resource allocation method is provided, including:

Configure at least two downlink control configuration parameters to the terminal; the at least two downlink control configuration parameters include a first downlink control configuration parameter and a second downlink control configuration parameter;

Configure the first resource as a subset of the second resource; the first resource is a resource configured or associated with the first downlink control configuration parameter to transmit non-data information to the terminal, and the second resource is The resource indicated to the terminal by the rate matching indication information associated with the second downlink control configuration parameter.

The configuration-related operations of configuring the terminal with at least two downlink control configuration parameters and configuring the first resource as a subset of the second resource may be performed by the first transmission and reception point or may be the second transmission and reception It can be executed by point, even by other transmission and receiving points. It may not be configured by the transmission and reception point, but is predefined in the transmission and reception point by the protocol.

The resources involved in the embodiments of the present application may be time-domain resources, frequency-domain resources or air-domain resources, or a combination of any two or more of the three resources.

The above technical solution for allocating resources of the present application can be applied to a scenario in which rate matching is required when multiple transmission and reception points perform cooperative transmission. For example, the transmission and reception point instructs the terminal to do rate matching through the channel state information reference signal, and then the transmission and reception point instructs the terminal to do rate matching through the rate matching pattern, and the transmission and reception point instructs the terminal to match the rate through the demodulation reference signal The scenarios that the technical solution provided by this application can be implemented are not limited to this.

In a first possible design of the first aspect of the present application, the rate matching indication information associated with the second downlink control configuration parameter indicates an aperiodic zero-power channel state information reference signal resource set; the second resource Reference resources in the signal resource set for the aperiodic zero-power channel state information;

The first resource associated with the first downlink control configuration parameter is: a resource for transmitting aperiodic non-zero power channel state information reference signal;

The configuration of the first resource as a subset of the second resource specifically includes: configuring the resource for transmitting the aperiodic non-zero power channel state information reference signal to the terminal as an aperiodic zero-power channel state information reference signal resource set A subset of resources in.

The aperiodic zero-power channel state information reference signal resource set is one, and the resource for transmitting the aperiodic non-zero power channel state information reference signal resource is a resource in the aperiodic zero-power channel state information reference signal resource set A subset of

Alternatively, the aperiodic zero-power channel state information reference signal resource set is multiple, and the resource for transmitting the aperiodic non-zero power channel state information reference signal is the multiple aperiodic zero power channel state information reference signal resource set Subset of resources.

In a second possible design of the first aspect of the present application, the rate matching indication information indicates a rate matching pattern in a rate matching pattern group; the rate matching pattern group is the one indicated in the second physical downlink shared channel configuration Rate matching pattern group;

The second resource is configured in the second physical downlink shared channel configuration, and is a resource corresponding to the rate matching pattern except the rate matching pattern group indicated by the rate matching indication information.

Wherein, the rate matching indication information is carried in the second downlink control information; the second downlink control information is associated with the second downlink control configuration parameter.

Wherein, the first resource is the resource indicated by the first physical downlink control channel configuration associated with the first physical downlink shared channel configuration configured by the terminal; or the first resource is the first physical configuration configured by the terminal The resource indicated by the first control resource set group associated with the downlink shared channel configuration; or the first resource is the resource indicated by the first search space group associated with the first physical downlink shared channel configuration configured by the terminal.

Wherein, the resources indicated by the first physical downlink control channel configuration or the first control resource set or the first search space group associated with the first physical downlink shared channel configuration are configured in the second physical downlink shared channel configuration, A subset of resources corresponding to the rate matching pattern except the rate matching pattern group in which the rate matching indication information is not activated.

In a third possible design of the first aspect of the present application, the rate matching indication information indicates a code division multiplexing group, and the code division multiplexing group is a code division multiplexing group that does not carry data information; the second The resource is the resource indicated by the code division multiplexing group;

The first resource is the resource indicated by the demodulation reference signal port scheduled by the first downlink control information; the first downlink control information is associated with the first downlink control configuration parameter configured by the terminal.

Wherein, the rate matching indication information is carried in the second downlink control information; the second downlink control information corresponds to the second downlink control configuration parameter configured by the terminal.

Wherein, the resource indicated by the demodulation reference signal port scheduled by the first downlink control information is a child of the resource indicated by the code division multiplexing group indicated by the rate matching indication information carried by the second downlink control information set.

In the above various designs of the first aspect of the present application, the relationship between the first resource and the second resource is configured to the terminal through signaling, or is predefined for the protocol.

In addition, in the above various designs of the first aspect of the present application, one physical downlink shared channel configuration (physical downlink shared channel configuration, PDSCH-config) and one physical downlink control channel configuration are interrelated; that is, one physical downlink shared channel configuration corresponds to A physical downlink control channel configuration, where the configuration method of the association relationship between PDSCH-config and PDCCH-config can have the following types:

Configure a bandwidth specific downlink (BWP-Downlink Dedicated) parameter for the terminal, including two PDCCH-config and two PDSCH-config, and configure the association relationship between two PDCCH-config and two PDSCH-config .

2. Configure a bandwidth partial downlink (BWP-Downlink) parameter for the terminal to include two bandwidth specific downlink dedicated parameters, and each bandwidth specific downlink dedicated parameter includes one PDCCH-config and one PDSCH-config. At this time, the association relationship between PDCCH-config and PDSCH-config is reflected by the downlink dedicated parameters that belong to the same bandwidth part.

3. Configure a serving cell configuration (ServingCellConfig) parameter for the terminal to include two bandwidth part downlink parameters, each bandwidth part downlink parameter contains a bandwidth part downlink dedicated parameter, and each bandwidth part downlink dedicated parameter includes a PDCCH-config and A PDSCH-config, at this time, the association relationship between PDCCH-config and PDSCH-config is reflected by the downlink parameters that belong to the same bandwidth part.

4. Configure two serving cell configuration parameters for the terminal, each serving cell configuration parameter contains a bandwidth part downlink parameter, each bandwidth part downlink parameter contains a bandwidth part downlink dedicated parameter, and the bandwidth part downlink dedicated parameter contains a PDCCH -config and a PDSCH-config, then the association relationship between PDCCH-config and PDSCH-config is reflected by the configuration parameters of the same serving cell.

According to a second aspect of the present application, a resource configuration method is provided, including: configuring a first transmission and reception point to transmit a first resource of non-data information to a terminal; and configuring the first resource to transmit non-data information as a second transmission The receiving point indicates the subset of the second resource to the terminal through the rate matching indication information.

The configuration-related operations of configuring the first transmission and reception point to transmit non-data information to the terminal and configuring the first resource as a subset of the second resource may be performed by the first transmission and reception point, or It may be performed by the second transmission and reception point. In other words, the first transmission and reception point can configure itself to transmit non-data information resources, and the second transmission and reception point co-located with the first transmission and reception point in a multiple transmission and reception point transmission scenario can also be the first transmission The receiving point configures resources for transmitting non-data information, where the second transmitting and receiving point is any one of the multiple transmitting and receiving points except the first transmitting and receiving point, where the first transmitting and receiving point or the second transmitting and receiving point is only a substitute Refers to a transmission and reception point, does not limit its number, or limit its order. Of course, the first transmission and reception point may also configure a resource for the terminal to transmit data or non-data information to the terminal by the second transmission and reception point. In short, any one of the multiple transmission and reception points in the multi-connection mode can configure the terminal in the multi-connection mode for itself or other transmission and reception points to transmit data or non-data information resources to the terminal.

The way to configure the first resource may also be that the transmission and reception point configures the terminal through high-level signaling, such as radio resource control (RRC) signaling, or through media access control element (media access control control element). For signaling, select one or more indications from multiple resources configured by RRC to the terminal.

The resources involved in all the embodiments of the present application may be time-domain resources, frequency-domain resources or air-domain resources, or a combination of any two or more of the three resources.

The second resource indicated by the second transmission and reception point to the terminal through the rate matching instruction information is a resource that does not send data information or a resource that sends non-data information. The transmission of non-data information involved in all the embodiments of the present application may be a resource for transmitting a reference signal, a resource for a control channel or a resource for a control signal, or may refer to a resource that does not transmit data information.

These resources that do not send data information or resources that send non-data information need to be punctured. On these resources, data is not transmitted, so data is not demodulated on these resources.

The above technical solution for allocating resources of the present application can be applied to a scenario where rate matching is required when multiple transmission and receiving points coordinate transmission, for example, a scenario where the transmission receiving point instructs the terminal to do rate matching through a channel state information reference signal, and then transmits The scenario where the receiving point instructs the terminal to do rate matching through the rate matching pattern, and also the scenario where the transmission and receiving point indicates the rate matching of the terminal through the demodulation reference signal, the scenarios that the technical solution provided by this application can be implemented are not limited to this.

In a first possible design of the second aspect of the present application, the transmission and reception point instructs the terminal to perform rate matching through the channel state information reference signal. The rate matching indication information sent by the second transmission and reception point to the terminal indicates a non-periodic zero-power channel state information reference signal resource set; the second resource is a resource in the non-periodic zero-power channel state information reference signal resource set; and The first resource configured by the first transmission and reception point of the terminal to transmit non-data information to the terminal is: a resource for transmitting aperiodic non-zero power channel state information reference signal.

Wherein, when the set of aperiodic zero-power channel state information reference signal resources sent by the second transmission and reception point to the terminal is one, the resource for the first transmission and reception point to send aperiodic non-zero power channel state information reference signals to the terminal is Periodic zero-power channel state information refers to a subset of resources in the set of signal resources;

Alternatively, the second transmission and reception point sends the aperiodic zero-power channel state information reference signal resource to the terminal in multiple sets, and the resource for the first transmission and reception point to send the aperiodic non-zero power channel state information reference signal to the terminal is The plurality of aperiodic zero-power channel state information refers to a subset of resources in the set of signal resources. In other words, the resources corresponding to the aperiodic non-zero power channel state information reference signal are a subset of the resources corresponding to the union of a plurality of aperiodic zero-power channel state information reference signal resource sets.

In a second possible design of the second aspect of the present application, the transmission and reception point instructs the terminal to do rate matching through a rate matching pattern. Specifically, the rate matching indication information sent by the second transmission and reception point to the terminal is carried in second downlink control information; the second downlink control information is configured with the second physical downlink control channel of the second transmission and reception point , Or the second control resource set group, or the second search space group corresponds.

In this second possible design, the rate matching indication information indicates a rate matching pattern in a rate matching pattern group; the rate matching pattern group is indicated in the second physical downlink shared channel configuration where the terminal is configured Rate matching pattern group; the second physical downlink shared channel configuration is related to the second transmission and receiving point;

The second resource is configured in the second physical downlink shared channel configuration, and is a resource corresponding to the rate matching pattern except the rate matching pattern group in which the rate matching indication information is not activated.

In this case, the rate matching indication information sent by the second transmission and reception point to the terminal indirectly indicates the second resource. As described above, the rate matching indication information directly indicates the rate matching configured in the second physical downlink shared channel configuration The rate matching pattern in the pattern group, that is to say which rate matching pattern in the rate matching pattern group should be punctured; and the second resource is configured in the second physical downlink shared channel configuration, except for the rate matching indication information The resources corresponding to the rate matching pattern other than the inactive rate matching pattern group, so the rate matching indication information indirectly indicates the second physical downlink shared channel configuration by indicating the rate matching pattern group configured in the second physical downlink shared channel configuration The second resource corresponding to the configured other rate matching pattern.

Correspondingly, the resource indicated by the first physical downlink control channel configuration or the first control resource set group or the first search space group associated with the first physical downlink shared channel configuration is configured as the second physical downlink shared channel configuration In the configuration, a subset of resources corresponding to the rate matching pattern except the rate matching pattern group in which the rate matching indication information is not activated.

Among them, for the first transmission receiving point or the second transmission receiving point, there are corresponding physical downlink shared channel configuration and physical downlink control channel configuration, and the physical downlink shared channel configuration and physical downlink control channel configuration of the same transmission receiving point are mutually Association; that is, one physical downlink shared physical downlink shared channel configuration of the same transmission and reception point corresponds to one physical downlink control channel configuration.

Among them, several configuration methods of the association relationship between PDSCH-config and PDCCH-config are as described in the first aspect of the present application, and will not be repeated here.

In a third possible design of the second aspect of the present application, the transmission and reception point instructs the terminal to perform rate matching by indicating the code division multiplexing group to the terminal. Specifically, the rate matching indication information sent by the second transmission and reception point to the terminal is carried in second downlink control information; the second downlink control information is associated with the second downlink control configuration parameter of the second transmission and reception point .

In this third possible design, the rate matching indication information indicates a code division multiplexing group (code division multiplexing, CDM), and the code division multiplexing group is a code division multiplexing group that does not carry data information; The second resource is the resource indicated by the code division multiplexing group;

The first resource is the resource indicated by the demodulation reference signal port scheduled by the first downlink control information; the first downlink control information is associated with the first downlink control configuration parameter configured by the terminal, so The first downlink control configuration parameter is related to the first transmission and reception point.

Correspondingly, the resource indicated by the demodulation reference signal port scheduled by the first downlink control information is configured as indicated by the code division multiplexing group indicated by the rate matching indication information carried in the second downlink control information A subset of resources.

The configuration of the relationship between the first resource and the second resource described in the second aspect above is one case where the transmission and reception point is configured to the terminal through signaling; the other case is predefined in the protocol, in other words, It is predefined by the protocol, and the transmission and reception point directly performs related transmission according to the relationship between the first resource and the second resource predefined by the protocol.

In a third aspect of the present application, a method for rate matching of a terminal in a multi-connection mode is provided. The terminal receives rate matching indication information carried in second downlink control information; the rate matching indication information indicates a second resource; wherein, The second downlink control information is detected by the terminal in the control information resource indicated by its configured second downlink control configuration parameter; wherein, the second downlink control configuration parameter includes a second physical downlink control channel configuration Or any one or more of the second control resource set group or the second search space group.

The terminal receives non-data information on the subset of the second resources; the subset of the second resources is the first resource, and the first resource is the first downlink control configuration parameter configuration configured by the terminal or Associated resources transmitting non-data information;

The terminal performs rate matching according to the second resource indicated by the rate matching indication information.

Optionally, the second downlink control configuration parameter is related to the second transmission and reception point; the related to the second transmission and reception point here means that the second physical downlink control channel configuration or the second control resource set group or the first The second search space group is used by the second transmission and reception point to communicate with the terminal, and is not necessarily configured by the second transmission and reception point itself, or may be configured by other transmission and reception points for the second transmission and reception point.

In a first possible design of the third aspect of the present application, the rate matching indication information carried in the second downlink control information indicates a plurality of aperiodic zero-power channel state information reference signal resource sets;

Then, the terminal performing rate matching according to the second resource indicated by the rate matching indication information includes:

The terminal punctures all resources in the plurality of aperiodic zero-power channel state information reference signal resource sets.

Wherein, the rate matching indication information carried in the second downlink control information indicates the rate matching pattern in the rate matching pattern group; the rate matching pattern group is indicated in the second physical downlink shared channel configuration where the terminal is configured Rate matching pattern group; optionally, the second physical downlink shared channel configuration is related to the second transmission and reception point.

Wherein, the first resource is the resource indicated by the first physical downlink control channel configuration associated with the first physical downlink shared channel configuration configured by the terminal; or the first resource is the first physical configuration configured by the terminal The resource indicated by the first control resource set group associated with the downlink shared channel configuration; or the first resource is the resource indicated by the first search space group associated with the first physical downlink shared channel configuration configured by the terminal;

Optionally, the first physical downlink shared channel configuration is related to the first transmission and reception point, and correspondingly, the first physical downlink control channel configuration or the first control resource set associated with the first physical downlink shared channel configuration The group, or the first search space group, is related to the first transmission and reception point. The term related to the first transmission and reception point here means that the first physical downlink control channel configuration or the first search space group is used by the first transmission and reception point to communicate with the terminal, not necessarily the first transmission and reception point itself It may be configured by other transmission and reception points configured for the first transmission and reception point.

Wherein, the terminal performing rate matching according to the second resource indicated by the rate matching indication information includes:

All resources configured in the second physical downlink shared channel configuration except the rate matching pattern group in which the rate matching indication information is not activated are punctured.

Wherein, the terminal also receives rate matching indication information carried in the first downlink control information; the first downlink control information is the first physical downlink control channel configuration or the first control resource in which the terminal is configured Detected in the control information resource indicated by any one of the set group or the first search space group;

Then, according to the rate matching indication information carried in the first downlink control information, the terminal configures the first physical downlink shared channel configuration except the rate matching pattern group in which the rate matching indication information is not activated All resources corresponding to the rate matching pattern are punched.

In a third possible design of the third aspect of the present application, the rate matching indication information carried in the second downlink control information indicates a code division multiplexing group, and the code division multiplexing group is code division without carrying data information Multiplexing group; the second resource is the resource indicated by the code division multiplexing group.

Wherein, the first resource is the resource indicated by the demodulation reference signal port scheduled by the first downlink control information; the first downlink control information is associated with the first downlink control configuration parameter configured by the terminal . Optionally, the first physical downlink control channel configuration or the first control resource set group or the first search space group is related to the first transmission and reception point.

The terminal punctures all resources indicated by the code division multiplexing group indicated by the rate matching indication information carried in the second downlink control information.

In the above method provided in the third aspect of the present application, the relationship between the first resource and the second resource is received by the terminal through signaling, or is predefined for the protocol.

According to a fourth aspect of the present application, a transmission and reception point is provided, including:

A processor, configured to configure at least two downlink control configuration parameters to the terminal; wherein the at least two downlink control configuration parameters include a first downlink control configuration parameter and a second downlink control configuration parameter;

The processor is further configured to configure the first resource as a subset of the second resource; the first resource is a resource configured or associated with the first downlink control configuration parameter to transmit non-data information to the terminal, the The second resource is a resource indicated to the terminal by rate matching indication information associated with the second downlink control configuration parameter.

In a first possible design of the fourth aspect of the present application, the rate matching indication information indicates an aperiodic zero-power channel state information reference signal resource set; the second resource is the aperiodic zero-power channel state information reference Resources in the collection of signal resources;

The first resource is: a resource associated with the first downlink control configuration parameter and transmitting an aperiodic non-zero power channel state information reference signal;

The processor is specifically configured to configure the resource of the aperiodic non-zero power channel state information reference signal to the set of aperiodic zero-power channel state information reference signal resources indicated to the terminal by the rate matching indication information Subset of resources.

Wherein, the aperiodic zero-power channel state information reference signal resource set is one, and the processor is configured to configure the resource for transmitting the aperiodic non-zero power channel state information reference signal as the aperiodic zero-power channel state information A subset of resources in the reference signal resource set; or

The set of aperiodic zero-power channel state information reference signal resources is multiple, and the processor is configured to configure resources for transmitting aperiodic non-zero power channel state information reference signals as the multiple aperiodic zero-power channel state information references A subset of the resources of the signal resource collection.

In a second possible design of the fourth aspect of the present application, the rate matching indication information indicates a rate matching pattern in a rate matching pattern group; the rate matching pattern group is a second physical downlink shared channel configured by the terminal The rate matching pattern group indicated in the configuration; the second physical downlink shared channel configuration is related to the second transmission and receiving point;

The rate matching indication information is carried in second downlink control information; the second downlink control information is associated with the second downlink control configuration parameter, that is, the second physical downlink control channel configuration or the second control resource set Group or second search space group association.

Wherein, the processor is configured to configure the first resource as: the resource indicated by the first physical downlink control channel configuration associated with the first physical downlink shared channel configuration configured by the terminal; or the first configured by the terminal A resource indicated by the first control resource set group associated with a physical downlink shared channel configuration; or a resource indicated by the first search space group associated with the first physical downlink shared channel configuration where the terminal is configured.

The processor is configured to configure the resource indicated by the first physical downlink control channel configuration or the first control resource set group or the first search space group associated with the first physical downlink shared channel configuration as the second A subset of resources configured in the rate matching pattern other than the rate matching pattern group that is not activated in the rate matching indication information and configured in the physical downlink shared channel configuration.

In a third possible design of the fourth aspect of the present application, the rate matching indication information indicates a code division multiplexing group, and the code division multiplexing group is a code division multiplexing group that does not carry data information; the second The resource is the resource indicated by the code division multiplexing group;

The first resource is the resource indicated by the demodulation reference signal port scheduled by the first downlink control information; the first downlink control information and the first downlink control configuration parameter configured by the terminal, that is, The first physical downlink control channel configuration corresponds to the first control resource set group or the first search space group.

The rate matching indication information is carried in second downlink control information; the second downlink control information and the second downlink control configuration parameter configured by the terminal, that is, the second physical downlink control channel configuration or the second control resource The set group or the second search space group corresponds.

Wherein, the processor configures the resource indicated by the demodulation reference signal port scheduled by the first downlink control information as the code division multiplexing indicated by the rate matching indication information carried by the second downlink control information The subset of resources indicated by the group.

In the above various possible designs of the fourth aspect of the present application, the relationship between the first resource and the second resource is configured by the transmission and reception point to the terminal through signaling, or is predefined by a protocol.

Wherein, the transmission and reception point is a first transmission and reception point, or the second transmission and reception point, or another transmission and reception point in a multi-connection mode with the terminal.

A fifth aspect of the present application provides a transmission and reception point, including:

A processor configured to configure the first transmission and reception point to transmit the first resource of non-data information to the terminal;

The processor is further configured to configure the first resource that transmits non-data information as a subset of the second resource that the second transmission and reception point indicates to the terminal through rate matching indication information.

In a first possible design of the fifth aspect of the present application, the transmission and reception point instructs the terminal to perform rate matching through the channel state information reference signal. The rate matching indication information indicates an aperiodic zero-power channel state information reference signal resource set; the second resource is a resource in the aperiodic zero-power channel state information reference signal resource set;

The first resource is: a resource for transmitting aperiodic non-zero power channel state information reference signal;

The processor is specifically configured to configure the first transmission and reception point to transmit the resources of the aperiodic and non-zero power channel state information reference signal to the terminal, and configure the second transmission and reception point to use the rate matching indication information to The aperiodic zero-power channel state information indicated by the terminal refers to a subset of resources in the signal resource set.

In a second possible design of the fifth aspect of the present application, the transmission and reception point instructs the terminal to do rate matching through a rate matching pattern. The rate matching indication information is carried in the second downlink control information sent by the second transmission and receiving point to the terminal; and the rate matching indication information indicates the rate matching pattern in the rate matching pattern group; the rate matching The pattern group is the rate matching pattern group indicated in the second physical downlink shared channel configuration configured by the terminal; the second physical downlink shared channel configuration is related to the second transmission and reception point;

Wherein, the processor is configured to configure the first resource as: the resource indicated by the first physical downlink control channel configuration associated with the first physical downlink shared channel configuration configured by the terminal; or

The resource indicated by the first control resource set group associated with the first physical downlink shared channel configuration configured by the terminal; or

The resource indicated by the first search space group associated with the first physical downlink shared channel configuration configured by the terminal;

Wherein, the first physical downlink shared channel configuration, or the first control resource set group, or the first search space group corresponds to the first transmission and reception point.

Wherein, the processor is configured to configure the resources indicated by the first physical downlink control channel configuration or search space group associated with the first physical downlink shared channel configuration as configured in the second physical downlink shared channel configuration, A subset of resources corresponding to the rate matching pattern except the rate matching pattern group in which the rate matching indication information is not activated.

In a third possible design of the fifth aspect of the present application, the transmission and reception point instructs the terminal to perform rate matching by indicating the code division multiplexing group to the terminal. The rate matching indication information indicates a code division multiplexing group, and the code division multiplexing group is a code division multiplexing group that does not carry data information; the second resource is a resource indicated by the code division multiplexing group; The rate matching indication information is carried in the second downlink control information sent by the second transmission and reception point to the terminal; the second downlink control information corresponds to the second downlink control configuration parameter configured by the terminal, and That is, it corresponds to the second physical downlink control channel configuration or the second control resource set group or the second search space group; the second physical downlink control channel configuration or the second control resource set group or the second search space group and the first Two related to transmission and reception points;

The first resource is the resource indicated by the demodulation reference signal port scheduled by the first downlink control information; the first downlink control information is associated with the first downlink control configuration parameter configured by the terminal, and That is, detected from the control information resource indicated by one or more items in the first physical downlink control channel configuration or the first control resource set group or the first search space group, the first physical downlink control channel configuration or the first Two search space groups are related to the first transmission and reception point.

In the above designs of the fifth aspect of the present application, the relationship between the first resource and the second resource is configured by the transmission and reception point to the terminal through signaling, or is predefined by a protocol.

The transmission and reception point is a first transmission and reception point, or the second transmission and reception point, or another transmission and reception point in a multi-connection mode with the terminal.

The sixth aspect of the present application provides a terminal in a multi-connection mode, including:

A transceiver, configured to receive rate matching indication information carried in second downlink control information; the rate matching indication information indicates a second resource; wherein, the second downlink control information is the second in which the terminal is configured Detected in the control information resource indicated by the downlink control configuration parameter; wherein the second downlink control configuration parameter includes any one of the second physical downlink control channel configuration or the second control resource set group or the second search space group.

The transceiver is also used to receive non-data information on the subset of the second resource; the subset of the second resource is the first resource, and the first resource is the first downlink configured by the terminal Control configuration parameter configuration or associated resource for transmitting non-data information; the first downlink control configuration parameter includes any one or more of the first physical downlink control channel configuration or the first control resource set group or the first search space group item.

Optionally, the second physical downlink control channel configuration or the second control resource set or the second search space group is related to the second transmission and reception point.

The processor is configured to perform rate matching according to the second resource indicated by the rate matching indication information.

In a first possible design of the fourth aspect of the present application, the rate matching indication information carried in the second downlink control information received by the transceiver indicates a plurality of aperiodic zero-power channel state information reference signal resource sets;

The processor is specifically configured to puncture all resources in the plurality of aperiodic zero-power channel state information reference signal resource sets.

In a second possible design of the sixth aspect of the present application, the rate matching indication information carried in the second downlink control information received by the transceiver indicates the rate matching pattern in the rate matching pattern group; the rate matching pattern group is The rate matching pattern group indicated in the second physical downlink shared channel configuration configured by the terminal; optionally, the second physical downlink shared channel configuration is related to the second transmission and reception point;

The first resource received by the transceiver is the resource indicated by the first physical downlink control channel configuration associated with the first physical downlink shared channel configuration configured by the terminal; or the first resource configured by the terminal Configuring the resources indicated by the associated control resource set group for the physical downlink shared channel; or configuring the resources indicated by the associated search space group for the first physical downlink shared channel to which the terminal is configured;

Optionally, the first physical downlink shared channel configuration corresponds to the first transmission and reception point.

Wherein, the processor is specifically configured to puncture all resources corresponding to the rate matching patterns configured in the second physical downlink shared channel configuration except the rate matching pattern group in which the rate matching indication information is not activated.

Wherein, the transceiver is further used to receive rate matching indication information carried by the first downlink control information; the first downlink control information is that the processor is configured at the terminal with the first physical downlink control channel Detected in the control information resource indicated by any one or more of the configuration or the first control resource set or the first search space group;

The processor is further configured to configure the first physical downlink shared channel configuration according to the rate matching indication information carried in the first downlink control information, except for the rate matching pattern in which the rate matching indication information is not activated All resources corresponding to the rate matching pattern outside the group are punched.

In a third possible design of the sixth aspect of the present application, the rate matching indication information carried in the second downlink control information received by the transceiver indicates a code division multiplexing group, and the code division multiplexing group is not A code division multiplexing group carrying data information; the second resource is a resource indicated by the code division multiplexing group.

The first resource received by the transceiver is the resource indicated by the demodulation reference signal port scheduled by the first downlink control information; the first downlink control information and the first configured The physical downlink control channel configuration corresponds to the first search space group. Optionally, the first physical downlink control channel configuration or the first search space group is related to the first transmission and reception point.

Wherein, the processor is used to puncture all resources indicated by the code division multiplexing group indicated by the rate matching indication information carried in the second downlink control information.

Optionally, in the above various possible designs of the sixth aspect of the present application, the relationship between the first resource and the second resource is received by the transceiver through signaling, or looks up a predefined one for the processor Obtained by agreement.

According to a seventh aspect of the present application, there is provided a processor for performing any of the foregoing methods, wherein the steps related to transmission and reception are understood to be executed by the processor through the transceiver.

An eighth aspect of the present application provides a processing device, including:

Memory

The processor is used to read the instructions stored in the memory and perform any of the foregoing methods, where the steps involving transmission and reception should be understood as the processor executing through the transceiver.

The memory may be a non-transitory memory, such as a read-only memory (Read Only Memory, ROM), which may be integrated with the processor on the same chip or may be separately set on different chips, and the present invention is implemented The example does not limit the type of memory and the way of setting the memory and the processor.

A ninth aspect of this application provides a chip, including:

According to a tenth aspect of the present application, there is provided a computer-readable storage medium including instructions which, when run on a computer, cause the computer to perform any of the foregoing methods. The computer-readable storage medium is non-transitory.

According to an eleventh aspect of the present application, there is provided a computer program product containing instructions which, when run on a computer, causes the computer to perform any of the aforementioned methods.

The beneficial effect of the embodiment of the present invention is that, when each TRP communicates with the terminal in the prior art, when the terminal performs rate matching according to the rate matching indication information sent to it by a single TRP, resource conflicts may occur and the data cannot be demodulated Technical defects, in this application, by limiting one downlink control configuration parameter configuration or associated resources to send non-data information to the terminal to a subset of the resources indicated by the rate matching indication information associated with another downlink control configuration parameter, or , Limit the resources that one TRP sends non-data information to the terminal to a subset of the resources indicated by the rate matching indication information sent by another TRP to the terminal, thereby avoiding one TRP sending non-data information or not sending data information in another TRP When sending data information on the resource, the terminal can perform rate matching according to the rate matching indication information sent to it by the transmission and reception point, and then correctly demodulate the data. This application can be applied to different rate matching scenarios.

BRIEF DESCRIPTION

1 is a schematic diagram of a scenario of a multi-transmission receiving point in this application;

2 is a schematic diagram of a scenario of another multi-transmission receiving point in this application;

3 is a schematic diagram of the process interaction of the resource configuration method and rate matching method provided by this application;

4 is a schematic diagram of Embodiment 1 of a resource configuration method provided by this application;

5 is another schematic diagram of Embodiment 1 of the resource configuration method provided by this application;

6 is a schematic diagram of Embodiment 2 of the resource configuration method provided by this application;

7 is another schematic diagram of Embodiment 2 of the resource configuration method provided by this application;

8 is another schematic diagram of Embodiment 2 of the resource configuration method provided by this application;

Figure 9 is a schematic diagram of Embodiment 3 of the resource configuration method provided by this application;

10 is a schematic structural diagram of an embodiment of a transmission and receiving point provided by this application;

11 is a schematic structural diagram of an embodiment of a terminal provided by this application;

12 is another schematic structural diagram of an embodiment of a transmission and receiving point provided by this application;

13 is another schematic structural diagram of an embodiment of a terminal provided by this application.

detailed description

The technical solution of this application can be specifically applied to various communication systems, such as: Global System for Mobile (GSM), Code Division Multiple Access (CDMA), and Wideband Code Division Multiple Access (CDMA) Wideband Code Division Multiple Access (WCDMA), Time Division Synchronous Code Division Multiple Access (Time-Division-Synchronous Code Division Multiple Access (TD-SCDMA), Universal Mobile Telecommunications System (Universal Mobile Telecommunications System, UMTS), Long-Term Evolution (Long Term Evolution) LTE) system, etc., with the continuous development of communication technology, the technical solution of this application can also be used in future networks, such as 5G systems, and can also be called New Radio (NR) systems, or can be used for device to device (device to device (D2D) system, machine-to-machine (M2M) system, etc.

The network equipment involved in this application may refer to an entity on the network side used to send or receive information, for example, it may be a base station, or may be a transmission point (transmission point, TP), a transmission and reception point (transmission and reception point, TRP) ), Relay equipment, or other network equipment with base station functions, etc., this application is not limited. The communication device involved in this application may be a centralized control module or other network device.

In this application, a terminal device is a device with a communication function, which may include a handheld device with a wireless communication function, a vehicle-mounted device, a wearable device, a computing device, or other processing devices connected to a wireless modem. Terminal devices can be called different names in different networks, for example: terminal, user equipment (UE), mobile station, subscriber unit, relay, station, cell phone, personal digital assistant, wireless modem, Wireless communication equipment, handheld devices, laptop computers, cordless phones, wireless local loop stations, etc. The terminal device may refer to a wireless terminal or a wired terminal. The wireless terminal may be a device that provides voice and / or data connectivity to the user, a handheld device with wireless connection function, or other processing device connected to a wireless modem, which may be accessed via a wireless access network (such as RAN, radio access) network) to communicate with one or more core networks.

As shown in FIG. 1, FIG. 1 is a schematic diagram of a multi-transmission and reception point cooperative transmission provided by an embodiment of the present application. FIG. 1 uses transmission and reception point 1 (TRP1) and transmission and reception point 2 (TRP2) to respectively transmit data For example, it is not ruled out that in the scenario where multiple transmission and reception points cooperate to transmit, there are more than two TRPs for the terminal to transmit data. When the number of TRPs is greater than two, any two TRPs or at least two TRPs satisfy this The technical solution described in the application.

TRP1 and TRP2 shown in FIG. 1 communicate with the terminal respectively, and there is no real-time communication between them. TRP1 and TRP2 do not know each other's resources for sending data information and resources for transmitting non-data information to the terminal. For example, TRP1 in FIG. 1 transmits data information to the terminal on the data transmission resource shown in the left side of FIG. 1, and TRP2 transmits non-data information to the terminal on the resource where the "channel state information reference signal" shown in the right side of FIG. 1 is located. Or do not send data information. Wherein, a square in FIG. 1 represents a resource element (resource, element, RE), and the resource indicated by the rate matching indication information is the resource indicated by the black square shown on the right. Resources outside the black squares indicate resources that TRP2 can transmit data to the terminal. The terminal will perform the puncturing operation on the corresponding resources (the resources indicated by the square part on the right) according to the rate matching instruction information sent to it by TRP2. On these resources, TRP2 will not transmit data information to the terminal, and the terminal also uses these resources On the data demodulation.

Comparing the resources of TRP1 transmitting data to the terminal and the resources of TRP2 transmitting data information and non-data information to the terminal, it can be seen that when the terminal performs rate matching, TRP1 transmits non-data information resources after the hole is punctured. Data information will therefore affect the terminal's data demodulation.

Therefore, it is necessary to configure some resources of TRP1 to send data information or non-data information.

The “association” mentioned in the embodiments of the present application may be a clear relationship, for example, a one-to-one correspondence relationship, or may be an implicit relationship, such as controlling configuration parameters from downlink and related related parameters, such as downlink The control information can deduce the corresponding resources.

From the perspective of resource allocation:

One way is to configure a resource that is configured or associated with one of the downlink control configuration parameters to send non-data information as a subset of the resource indicated to the terminal by the rate matching indication information associated with the other downlink control configuration parameter. Another way is to configure the data transmission resource configured or associated in one downlink control configuration parameter to be in addition to the resource indicated by the rate matching indication information associated with another downlink control configuration parameter and other resources that transmit non-data information A subset of resources outside.

For a single transmission and reception point, the downlink control configuration parameters are configured to the terminal, usually a physical downlink control channel configuration is configured, and the physical downlink control channel configuration is configured with multiple control resource sets and multiple search spaces; wherein, one control resource set Multiple search spaces can be associated. Specifically, a search space includes a field for indicating its associated control resource set. For example, a PDCCH-config is configured with 3 CORESETs and 10 search spaces. The first CORESET of the 3 CORESETs is associated with the first search space, the second search space, the third search space, and the first search space. The second search space and the third search space include an identifier (ID), for example, ID = 1, indicating that they are associated with the first CORESET.

For multiple transmission and receiving point scenarios, when configuring downlink control configuration parameters to the terminal, the following three configuration methods are available:

1. Configure two physical downlink control channel configurations (PDCCH-config) to the terminal, each physical downlink control channel configuration (PDCCH-config) is configured with multiple control resource sets (CORESET) and multiple search spaces, of which, one The control resource set can be associated with multiple search spaces.

2. Configure a physical downlink control channel configuration (PDCCH-config) to the terminal, which includes two control resource set groups (CORESE) groups, each control resource set group (CORESET) group contains several control resource sets (CORESET), Each control resource set is associated with multiple search spaces.

For example, the terminal is configured with PDCCH-config-1, PDCCH-config-1 is configured with CORESET group-1, CORESET group-2, CORESET group-1 includes CORESET-1, CORESET-2, CORESET-3, CORESET-1 associated search space -1, search space1-2, search space-3; CORESET group-2 includes CORESET-4, CORESET-5, CORESET-6, CORESET-4 associated search space-4, search space1-5, search space-6, etc. . And so on.

3. Configure a physical downlink control channel configuration (PDCCH-config) to the terminal, which includes two search space groups, and each search space group contains several search spaces, and each search space is associated with a control resource set.

For example, the terminal is configured with PDCCH-config-1, PDCCH-config-1 is configured with search space group-1, search space group-2; search space group-1 includes search space-1, search space1-2, search space-3; search space-2 includes search space-4, search space-5, search space-6; among them, search space-1 is associated with CORESET-1, search space-2 is associated with CORESET-2, and so on.

In general, in the scenario of multiple transmission and receiving points, if two physical downlink control channel configurations are configured to the terminal by way 1, the terminal can separately detect two downlink control information from the two physical downlink control channel configuration indication control information resources . For example, PDCCH-config-1 and PDCCH-config-2 may be directly indicated to the terminal, and DCI-1 and DCI-2 may be detected from the control information resources indicated by PDCCH-config-1 and PDCCH-config-2, respectively.

Alternatively, in manner 2, when two control resource set groups are configured to the terminal, the terminal can separately detect two downlink control information from the two control resource set group indication control information resources. For example, CORESET, group-1, and CORESET group-2 can be directly indicated to the terminal, and DCI-1 and DCI-2 are respectively detected from the control information resources indicated by CORESET, group-1, and CORESET.

Or, in manner 3, when two search space groups are configured to the terminal, the terminal can separately detect two downlink control information from the control information resources indicated by the two search space groups. For example, you can directly indicate search space group-1, search space group-2 to the terminal, and detect DCI-1 and DCI-2 from the control information resources indicated by search space group-1, search space group-2, respectively.

From the perspective of the transmission and reception point: One way is to limit the resources of TRP1 to send non-data information to the resources indicated by TRP2 to the terminal through the rate matching indication information, which can be the same as the resources indicated by the rate matching indication information, or It is a subset of the resources indicated by the rate matching indication information. For example, as shown in Figure 2, the resources that TRP1 sends non-data information (the resources shown in the white square on the left) are the resources that do not send data information or the resources that send non-data information. In short, the resources that do not send data information, which are sent with TRP2 Non-data information or resources that do not send data information (the resources shown in the black square on the right) are the same. This design makes TRP1 not send data information on the resources that TRP2 sends non-data information, and the terminal can normally perform rate matching according to the rate matching instruction information of TRP2, so as to correctly demodulate the data.

Another way is to limit the resources of TRP1 to transmit data information to a subset of resources other than the resources indicated by TRP2 to the terminal through rate matching indication information. For example, as shown in FIG. 2, the resource of TRP1 sending data information (the resource shown in the square on the left) is the same as the resource other than the resource indicated by TRP2 through the rate matching indication information, that is, the resource sending data information of TRP2 (white on the right) The resources shown in the box are the same. Of course, the resource for sending data information by TRP1 may also be a subset of the resource for sending data information by TRP2. This design makes TRP1 not send data information on the resources that TRP2 sends non-data information. The terminal can normally perform rate matching according to the rate matching instruction information of TRP2, so as to correctly demodulate the data.

Another way is to restrict TRP1 from sending data information on resources indicated by TRP2 to the terminal through rate matching indication information. For example, as shown in FIG. 2, the resources indicated by the rate matching indication information (the resources shown in the square part on the right) of TRP2 to the terminal are resources that transmit non-data information or do not send data information between TRP2 and the terminal, and directly limit TRP1 to these The data cannot be sent on the resource, and the rate matching purpose of this application can also be achieved to help the terminal demodulate the data correctly.

Another way is to restrict TRP1 to send data information to the terminal in resources other than those indicated by the rate matching indication information in TRP2 to the terminal. For example, as shown in FIG. 2, the resources (the resources shown in the right square part) indicated by TRP2 to the terminal through the rate matching indication information (the resources shown in the right square part) are the data information transmitted between TRP2 and the terminal The resources directly limit TRP1 to send data on these resources, and can also achieve the rate matching purpose of this application to help the terminal demodulate the data correctly.

This application is mainly described in the previous way. Since the resources for transmitting data information or the resources for transmitting non-data information are often complementary to each other, the technical principles of the several methods are the same, as long as the above purpose of restricting resources is met, All belong to the protection scope of this application.

The above-mentioned resources that restrict TR1 and TRP2 to send data or non-data information can be implemented by limiting their corresponding downlink control configuration parameters, which are specifically as the resource configuration manners described above, and will not be described in detail.

The meanings of transmission and sending in this application are the same, and unless otherwise specified, the two can be interchanged.

The technical solution provided by the present application may be applicable to non-ideal backhaul scenarios of multiple transmission and reception points, and may also be applied to ideal backhaul scenarios. In the non-ideal backhaul scenario, the information transmission of the two TRPs is delayed and cannot be exchanged in real time. Therefore, if one TRP sends data information on a resource that sends non-data information or does not send data information in the other TRP, it will affect the terminal. Demodulate the data. In an ideal backhaul scenario, although two TRPs interact in real time, similar technical problems will not be ruled out. Therefore, the technical solution of the present application is also applicable to an ideal backhaul scenario.

Based on this, the present application has designed the technical aspects of resource allocation for the terminal and rate matching of the terminal, so that it can achieve the above-mentioned objectives.

Referring to FIG. 3, it is a schematic flowchart of a method for resource configuration and rate matching of a terminal in a multi-connection mode provided by the present application.

Step 100: Configure at least two downlink control configuration parameters to the terminal; in other words, the terminal is configured with at least two downlink control configuration parameters; the downlink control configuration parameters include physical downlink control channel configuration or search space group; for convenience of description, It is assumed that the at least two downlink control configuration parameters include a first downlink control configuration parameter and a second downlink control configuration parameter.

Step 101: Configure the first downlink control configuration parameter configuration or associated first resource for transmitting non-data information to the terminal, and configure the second downlink control configuration parameter associated rate matching indication information to indicate to the terminal A subset of the second resource. In other words, the first resource configured by the terminal is a subset of the second resource; wherein, the first resource is a resource that is configured or associated with the transmission of non-data information by the first downlink control configuration parameter, and the second resource is the second The resource indicated to the terminal by the rate matching indication information associated with the downlink control configuration parameter.

The above configuration of at least two downlink control configuration parameters to the terminal; configuring the terminal to transmit the first resource of non-data information, and configuring the first resource to be a subset of the second resource. These configuration-related operations may be as shown in FIG. 2 The first transmission and reception point TRP1 may be executed by the second transmission and reception point TRP2, or may be executed by TRPs other than TRP1 and TRP2.

That is, the first transmission and reception point TRP1 may configure at least two downlink control configuration parameters for the terminal, configure itself for transmitting non-data information resources to the terminal, and co-locate with the first transmission and reception point TRP1 at multiple transmission and reception points In the scenario, the second transmission and reception point TRP2 may also configure the first transmission and reception point TRP1 as a resource for transmitting non-data information, where the second transmission and reception point TRP2 is a plurality of transmission and reception points other than the first transmission and reception point TRP1 Either one, in the embodiment of the present application, the first transmission and reception point TRP1 or the second transmission and reception point TRP2 indicates a certain transmission and reception point, and does not limit the number or the order thereof.

Of course, the first transmission and reception point TRP1 may also configure at least two downlink control configuration parameters for the terminal, and configure the terminal for the second transmission and reception point TRP2 to transmit data or non-data information resources to the terminal. In short, any one of the multiple transmission and reception points in the multi-connection mode can configure at least two downlink control configuration parameters for the terminal in the multi-connection mode, and then configure itself or other transmission and reception points to transmit to the terminal Resources for data information or non-data information. The way to configure the first resource may also be that the transmission and reception point configures the terminal through high-level signaling, such as radio resource control (RRC) signaling, or through other downlink signaling, such as media access control control elements ( media access control (element, MAC-CE) signaling, select one or more instructions from multiple resources configured by RRC to the terminal.

The resources mentioned in all the embodiments of the present application may be time-domain resources, frequency-domain resources or air-domain resources, or a combination of any two or more of the three resources.

Wherein, the second resource indicated by the second transmission and reception point TRP2 to the terminal through the rate matching indication information is a resource that does not send data information or a resource that sends non-data information.

Step 102, the terminal receives non-data information on a subset of the second resources; wherein, the subset of the second resources is a first resource, and the first resource is a first downlink configured by the terminal Controls configuration parameter configuration or associated resources that transmit non-data information. The first downlink control configuration parameter includes any one or more of a first physical downlink control channel configuration, a first control resource set group, and a first search space group.

Step 103: The terminal receives rate matching indication information carried in second downlink control information; the rate matching indication information indicates a second resource; wherein, the second downlink control information is the first Detected in the control information resource indicated by the second downlink control configuration parameter; wherein, the second downlink control configuration parameter includes any one of the second physical downlink control channel configuration or the second control resource set group or the second search space group Or multiple items; that is, the second downlink control information is any one or more indications that the terminal is configured with a second physical downlink control channel configuration, a second control resource set group, and a second search space group Detected in the control information resource of the, optionally, the second physical downlink control channel configuration or the second search space group is related to the second transmission and reception point TRP2.

It should be noted that the above steps 102 and 103 are not limited in sequence.

Step 104: The terminal performs rate matching according to the second resource indicated by the rate matching indication information.

It should be noted that step 104 is executed after step 103, but there is no limitation on the sequence with step 102.

When the terminal performs rate matching, the aforementioned resources that do not send data information or resources that send non-data information do not transmit data information, so they need to be punctured, and the terminal does not demodulate data on these resources. The transmission of non-data information in this application may be a resource for transmitting a reference signal, a resource for transmitting a control channel or a resource for transmitting a control signal, or may refer to a resource that does not transmit data information.

The above configuration resources of the present application and the technical solution of terminal rate matching in multi-connection mode can be applied to the scenario where multiple transmission and reception points need to perform rate matching when cooperative transmission is performed, for example, the transmission and reception point passes the channel status The information reference signal instructs the terminal to do rate matching, and the transmission and reception point instructs the terminal to do rate matching through the rate matching pattern, and the transmission and reception point instructs the terminal to match the rate through the demodulation reference signal. The scenarios where the technical solution can be implemented are not limited to this.

The following will use the transmission and reception point to instruct the terminal to do rate matching through the channel state information reference signal, and the transmission and reception point to instruct the terminal to do rate matching through the rate matching pattern, and the transmission and reception point to instruct the terminal to rate through the demodulation reference signal. The matching scenario is taken as an example to introduce the embodiment of the present application.

Example one

The first embodiment is described by taking the example that the transmission and reception point instructs the terminal to perform rate matching through the channel state information reference signal.

In the multi-transmission and reception point (multi-TRP) scenario shown in FIG. 2, assume that the rate matching indication information sent by the second transmission and reception point TRP2 to the terminal indicates aperiodic zero-power channel state information. Reference signal resource set (aperiodic zero power channel state information-reference signal, resource, set, periodic ZP CSI-RS resource); the resources in the aperiodic zero-power channel state information reference signal resource set are called second resources; the non-periodic transmission of the first transmission and reception point TRP1 to the terminal The data information is: aperiodic non-zero power channel state information reference signal (aperiodic non-zero power channel information state-reference information, aperiodic NZP-CSI-RS), the resource name for transmitting the aperiodic non-zero power channel state information reference signal As the first resource.

Referring to FIG. 4, the set of aperiodic zero-power channel state information reference signal resources sent by the second transmission and reception point TRP2 to the terminal is multiple, such as pattern 1 (pattern1), pattern 2 (pattern2), and pattern 3 (shown in FIG. 4). The three sets shown in the black squares in pattern3). As shown in the lower left corner of FIG. 4, in all transmission time units, such as slots, when TRP2 sends PDSCH to the terminal, puncturing all aperiodic ZP CSI-RS resources set, that is, PDSCH is not sent at these resource locations, Referring to the lower left corner of FIG. 4, the black squares are resource elements (resources, REs) that send PDSCH, and the white squares are RE punched. Here, the resources of the aperiodic zero-power channel state reference signal are the union of the three sets shown in pattern 1, pattern 2, and pattern 3.

The lower right corner of FIG. 4 is the resource for TRP1 to send aperiodic non-zero power channel state information reference signal to the terminal (shown in black squares). Here, the resource that restricts TRP1 to send aperiodic non-zero power channel state information reference signal to the terminal is TRP2 A subset of resources to send aperiodic zero-power channel state reference signals to the terminal. Of course, restricting the resources that TRP1 sends aperiodic non-zero power channel state information reference signals to the terminal are all the resources that TRP2 sends aperiodic zero-power channel state reference signals to the terminal, and the same technical effect can also be achieved. In other words, the resource corresponding to the aperiodic non-zero power channel state information reference signal sent by TRP1 to the terminal is a subset of the resources corresponding to the union of a plurality of aperiodic zero-power channel state information reference signal resource sets sent by TRP2 to the terminal.

After the above configuration, TRP1 does not need to notify TRP2 of the resources of NZP-CSI-RS to be sent by TRP1, and the resources of NZP-CSI-RS to be sent by TRP1 and the resources of TSCH to send PDSCH will not conflict. TRP2 instructs the terminal to puncture REs that transmit ZP-CSI-RS corresponding to all patterns (such as pattern1, pattern2, and pattern3).

In this embodiment, TRP2 instructs the terminal to puncture REs that transmit ZP-CSI-RS in all patterns indicated in the RRC signaling, which can be indicated by adding independent signaling or multiplexing downlink control information (down control information, DCI) existing reserved (reserved) signaling to indicate. The terminal thinks that all the REs that transmit ZP-CSI-RS corresponding to all patterns (such as pattern1, pattern2, pattern3) do not send PDSCH, and the terminal performs rate matching according to all the aperiodic ZP CSI-RS resources sent to it by TRP2. ).

Referring to FIG. 5, the set of aperiodic zero-power channel state information reference signal resources sent by the second transmission and reception point TRP2 to the terminal is one, that is, when resources are configured for the terminal, it is in a multi-transmission reception point (multi-TRP) scenario Any TRP uses RRC signaling to configure only one aperiodic ZP CSI-RS resource for the terminal, or multiple media access control element (media access control (MAC-CE) signaling) configured from multiple RRCs. Choose one of aperiodic ZP CSI-RS resource set. If such configuration is not performed, TRP1 needs to be notified in advance to TRP2 through backhaul, and the resource and time of NZP-CSI-RS to be sent by TRP1.

In this scenario, it is necessary to limit the resources of the first transmission and reception point TRP1 to send the aperiodic non-zero power channel state information reference signal to the terminal is the resource in the aperiodic zero-power channel state information reference signal resource set sent by TRP2 to the terminal Subset.

In a specified time unit, for example, in a certain slot, when TRP2 communicates with the terminal, the resources corresponding to pattern 2 are used. TRP2 performs the RE that transmits ZP and CSI-RS corresponding to pattern 2 Punch. As shown in the lower left corner of FIG. 5, the black square indicates that the TRP2 sends the PDSCH RE to the terminal, and the white square indicates that the TRP2 sends the ZP CSI-RS RE to the terminal.

TRP2 triggers the rate matching of the terminal through the DCI zero-power channel state information reference signal (ZP CSI-RS trigger) field, and the ZP CSI-RS trigger field indicates the maximum 3 configured aperiodic ZP CSI-RS resources in the set One (for example, the corresponding aperiodic ZP CSI-RS resource set for pattern2), and PDSCH is not sent on the RE corresponding to the aperiodic ZP CSI-RS resource set. At this time, TRP1 sends the aperiodic NZP CSI-RS resources to the terminal, which is a subset of the resources in an aperiodic ZP CSI-RS resource corresponding to pattern2 sent by TRP2 to the terminal. As shown in the lower right corner of Figure 5, TRP1 indicated by a black square sends an REPERIOD NZP CSI-RS RE to the terminal, which is a subset of the resources in an APERIOD ZP CSI-RS resource corresponding to pattern2. Of course, TRP1 sends the RE of ap- erative NZP CSI-RS to the terminal, which is all the resources in an ap-periodic ZP CSI-RS resource corresponding to pattern 2, which can also achieve the technical effect of this embodiment.

The terminal performs rate matching according to the DCI instruction, that is, the terminal believes that the PDSCH is not sent on the aperiodic ZP CSI-RS resource indicated in the ZP CSI-RS trigger field. Therefore, the terminal indicates the pattern indicated in the ZP CSI-RS trigger field The corresponding RE that transmits ZP CSI-RS is punctured.

In the first embodiment, one TRP can avoid sending data information on a resource where another TRP sends a channel state information reference signal to the terminal, and the terminal can perform rate matching according to the channel state information reference signal resource or resource set indicated to it by the transmission and reception point , Data demodulation is not performed on the resources of the transmission channel state information reference signal, but the data is demodulated correctly on other resources.

Example 2

In the second embodiment, the transmission and reception point instructs the terminal to perform rate matching through the rate matching pattern as an example for description.

First, for a single TRP, the downlink control information it sends to the terminal contains a field rate matching indicator (rate matching) indicator, which indicates multiple rate matching pattern groups configured for the terminal in the form of a bitmap (bitmap) rateMatchPatternGroup) is activated.

As shown in FIG. 6, TRP configures multiple rate matching patterns (rateMatchPattern) and multiple (usually one or two) rate matching pattern groups (rateMatchPatternGroup) through PDSCH-config in RRC signaling, each rateMatchPatternGroup indicates several RateMatchPattern, of course, there may be several configured rateMatchPattern not indicated by any rateMatchPatternGroup, for example, the rate matching pattern in the rate matching pattern list outside the rate matching pattern group shown in Figure 6 (in Figure 6, each small The square represents a rateMatchPattern).

Under normal circumstances, each rate matching pattern (rateMatchPattern) may have two methods of indicating resources. One way is to indicate the frequency domain and time separately through the resource block (resource) block (RB) and the bitmap corresponding to the symbol. Another way to indicate the resource location of the domain is to indicate a control resource set (control reset, CORESET).

After receiving the DCI sent by the TRP, the terminal performs rate matching according to the indication of the rate matching indication field in the DCI. The specific method of rate matching is:

One way is that the terminal combines the rate matching pattern (rateMatchPattern) indicated in the rate matching pattern group (rateMatchPatternGroup) indicated by the DCI rate matching indication field, and two rate matching pattern groups 1 and 2 (Group 1 and Group 2) The rate matching patterns that are not included are punched. As shown in FIG. 7, the value of the added rate matching indication field is 10, which means the rate matching pattern indicated in Group 1 in the rate matching pattern group, and the rate matching patterns that are not included in the two rate matching pattern groups. All the resources indicated by the rate matching patterns in the rate pattern list (rateMatchPatternList) need to be punctured, as shown in FIG. 7 in particular, the black squares indicate that the resources indicated by the rate matching patterns are punctured.

Another way is if the resource indicated by the rate match pattern (rateMatchPattern) is CORESET, then puncture all control information resources indicated by the search space (search space) associated with this CORESET.

With reference to FIG. 2, in the second embodiment, TRP1, TRP2, and the terminal are in a multi-transmission receiving point (multi-TRP) scenario. The terminal will receive the downlink control information from TRP1 and the downlink control information from TRP2. For clear description, the first downlink control information represents the downlink control information sent by the first transmission and reception point to the terminal, and the second downlink control information represents the downlink control information sent by the second transmission and reception point to the terminal. It does not distinguish which downlink control information is from which transmission / reception point. The "first" and "second" here do not indicate the number of downlink control information, nor the number of downlink control information.

The first downlink control information is associated with the first physical downlink control channel configuration (PDCCH-config-1), and the second downlink control information is associated with the second physical downlink control channel configuration (PDCCH-config-2).

For the first transmission and reception point TRP1, the rate matching indication information it sends to the terminal is carried in the first downlink control information; for the second transmission and reception point TRP2, the rate matching indication information it sends to the terminal is carried in In the second downlink control information.

For the first transmission and reception point TRP1 or the second transmission and reception point TRP2, there are corresponding physical downlink shared channel configuration and physical downlink control channel configuration, and the physical downlink shared channel configuration and physical downlink control channel configuration of the same transmission and reception point are mutually Associated.

In this embodiment, it is necessary to configure resources for TRP1 and TRP2 to communicate with the terminal. Specifically, the resources indicated by a physical downlink control channel configuration (PDCCH-config) associated with a physical downlink shared channel configuration (PDSCH-config) are limited. Or the resource indicated by the CORESET group, or the resource indicated in the search space group, is the rate matching pattern (rateMatchPattern) indicated in another physical downlink shared channel configuration (PDSCH-config), but A subset of resources indicated by a rate matching pattern (rateMatchPattern) that is not in any rate matching pattern group (rateMatchPatternGroup).

As shown in FIG. 8, the terminal is configured with two PDSCH-configs, PDSCH-config-1 and PDSCH-config-2, respectively; each PDSCH-config indicates several rateMatchPatterns and at most two rateMatchPatternGroups.

The terminal is also configured with two PDCCH-configs, namely PDCCH-config-1 and PDCCH-config-2; or the terminal is also configured with two CORESET groups under one PDCCH-config, or the terminal is also configured Two search space groups under one PDCCH-config.

In addition, the terminal is also configured to associate two PDCCH-configs (or two CORESET groups, or two search spaces) with two PDSCH-configs, and one PDCCH-config is associated with one PDSCH-config, respectively. For example, PDCCH-config-1 is associated with PDSCH-config-1, and they are associated with TRP1. PDCCH-config-2 is associated with PDSCH-config-2, and they are associated with TRP2.

In this embodiment, the rate matching indication information sent by the second transmission and reception point TRP2 to the terminal directly indicates the rate matching pattern in the rate matching pattern group (PDSCH-config-2) configured in the second physical downlink shared channel configuration, In other words, which rate matching pattern in the rate matching pattern group should be punctured; and the second resource referred to in this embodiment is configured in the second physical downlink shared channel configuration, except that the rate matching indication information is not The resources corresponding to the rate matching pattern outside the activated rate matching pattern group, so the rate matching indication information indirectly indicates the configuration in the second physical downlink shared channel configuration by indicating the rate matching pattern group configured in the second physical downlink shared channel configuration The second resource corresponding to the other rate matching pattern.

Correspondingly, the first physical downlink control channel configuration (PDCCH-config) or the first control resource set group (CORESET) group or the first search space group (search space group) indication associated with the first physical downlink shared channel configuration is indicated The resource is configured as a subset of the resources corresponding to the rate matching pattern other than the rate matching pattern group that is not activated in the rate matching indication information and configured in the second physical downlink shared channel configuration.

Specifically, in this embodiment, the resources indicated by the PDCCH-config-1 associated with the PDSCH-config-1 are restricted, or the resources indicated by the control resource group (CORESET) group, or those indicated by the search space group (search space group) Resource 1 is a subset of resource 2 indicated by the rate matching pattern (rateMatchPattern) indicated in PDSCH-config-2, but not in any rate matching pattern group (rateMatchPatternGroup). At the same time, limit the resource 2 indicated in the PDCCH-config-2 or control resource set group (CORESET) group or search space group (PDSCH-config-2), which is the rate indicated in PDSCH-config-1 Match pattern (rateMatchPattern), but not in any rate match pattern group (rateMatchPatternGroup) Rate match pattern (rateMatchPattern) indicates a subset of resource 1.

Wherein, the above physical downlink control channel configuration may include one or more physical control channel configuration parameters or index numbers of physical control channel configuration parameters; the control resource set group may include one or more control resource set parameters or control resource set parameters. Index number; the search space group may include one or more search spaces or search space index numbers.

In specific implementation, TRP1 and TRP2 send DCI to the terminal respectively, and indicate the rate matching indicator in their respective DCIs, and at the same time puncture the PDSCH sent by them in accordance with the rate matching indicator. (I.e. no PDSCH is sent on the resources indicated by rate matching indicator)

For each PDCCH-config (or CORESET group or CORESET, or search space, or search space) configuration, the terminal indicates the PDSCH indicated by the DCI detected in the control information resource, and uses the PDSCH-config associated with the PDCCH-config The rateMatchPatternGroup and rateMatchPattern indicated in the figure are combined with the indication in the Rate field matching indicator field in DCI.

The specific method for the terminal to perform rate matching (rate matching) is that the terminal indicates the rate matching pattern (rateMatchPatternGroup) indicated in the rate matching pattern group (rateMatchPatternGroup) of the DCI rate matching indication (rate matching match indicator) field, and two rates Rate matching patterns (rateMatchPattern) not included in the matching pattern group (rateMatchPatternGroup) are punched. Among them, if the resource indicated by the rate matching pattern (rateMatchPattern) is a control resource set (CORESET), then all search space resources associated with this control resource set (CORESET) are punctured.

If the terminal detects DCI in both resource sets configured in the two PDCCH-configs, it performs the above-mentioned processing on the two PDSCHs indicated by the two DCIs respectively. In this way, the resources used by one TRP to transmit the PDCCH can ensure puncturing in the PDSCH of another TRP.

In the second embodiment, one TRP can avoid sending data information on the rate matching resource indicated by another TRP, and the terminal can perform rate matching according to the rate matching pattern indicated to it by any TRP, so as to correctly demodulate the data.

Example Three

In the third embodiment, the rate matching indication information sent by the second transmission and reception point to the terminal is carried in the second downlink control information; the second downlink control information is the second physical downlink control channel with the second transmission and reception point The configuration corresponds. Different from the scenario in the above embodiment, in the third embodiment, the rate matching indication information indicates a code division multiplexing group (code division multiplexing, CDM), and the code division multiplexing group is code division multiplexing that does not carry data information. Group; the second resource is the resource indicated by the code division multiplexing group. And the first resource is the resource indicated by the demodulation reference signal port scheduled by the first downlink control information; the first downlink control information and the first physical downlink control channel configuration or the first Corresponding to a search space group, the first physical downlink control channel configuration or the first search space group is related to the first transmission and reception point.

Correspondingly, the resource indicated by the demodulation reference signal (DMRS) port scheduled by the first downlink control information is configured as indicated by the rate matching indication information carried in the second downlink control information The subset of resources indicated by the code division multiplexing group.

In a specific implementation, the two TRPs shown in FIG. 2 respectively send DCI to the terminal, and indicate the antenna port in each DCI, and at the same time multiplex the code that does not transmit data indicated by the antenna port Puncturing with CDM (groups without data) (that is, PDSCH is not sent on the indicated resources), the antenna port indicated by the TRP to the terminal is the rate matching indication information.

After receiving one or more DCIs, the terminal obtains the number of CDM groups (number of DMRS CDM groups without data) of the DMRS that does not transmit data according to the antenna port field of each DCI, and Puncturing the resources corresponding to the CDM group means that no PDSCH indicated by this DCI is sent on these resources.

For example, as shown in Table 9, a codeword is used as an example. Suppose that TRP2 sends DCI to the terminal, the value indicated in the DCI is 2, and the corresponding number of CDM groups that do not send data is 1, indicates that no data is sent on CDM group 0. The CDM group 0 may send DMRS, or it may be occupied or scheduled by the system. In short, the CDM group that will not send data then the terminal is not in the CDM Data demodulation is performed on group 0. In this embodiment, the resource indicated by the demodulation reference signal port scheduled by TRP1 to send DCI to the terminal is limited to a subset of the resources corresponding to the CDM group indicated by the number of CDM groups that do not send data.

The situation of the two codewords shown in Table 9 is similar and will not be repeated here.

In the third embodiment, one TRP can avoid sending data information on the resource indicated by the DMRS port scheduled by another TRP, and the terminal can perform the rate based on the CDM groups (CDM groups without data) indicated by the transmission receiving point Match, do not demodulate the data on the CDM group that does not transmit data, and correctly demodulate the data on the other CDM groups.

If the terminal detects DCI in the resource set configured by the two physical downlink control channel configurations (PDCCH-config), it performs the above-mentioned processing on the two PDSCHs indicated by the two DCIs. In this way, the resources used by one TRP to send PDSCH and DMRS can ensure puncturing in the PDSCH of another TRP.

In Embodiments 1 to 3 above, one physical downlink shared channel configuration (PDSCH-config) and one physical downlink control channel configuration (PDCCH-config) are related to each other; that is, one physical downlink shared channel configuration corresponds to one physical downlink control channel Configuration, in which the configuration method of the association relationship between PDSCH-config and PDCCH-config can be as follows:

1. Configure a bandwidth partial downlink (BWP-Downlink Dedicated) parameter for the terminal to include two PDCCH-configs and two PDSCH-configs, and configure the mutual relationship.

The configuration of the relationship between the first resource and the second resource described in Embodiments 1 to 3 above, one case is that the transmission and reception point is configured to the terminal through signaling, and the other case is pre-defined in the protocol. In other words, the protocol is predefined, and the transmission and reception point directly performs related transmission according to the relationship between the first resource and the second resource predefined in the protocol.

The above embodiments describe the method flow involved in the present application from the perspective of the method flow for resource configuration and rate matching on the terminal side. The following describes the embodiments of the present application from the perspective of an apparatus.

Referring to FIG. 10, FIG. 10 is a schematic diagram of a hardware structure of a transmission and reception point according to an embodiment of the present application. As shown in FIG. 10, the transmission and reception point includes a processor 10, optional, and may also include a transceiver 11, multiple antennas, such as antenna 150 and antenna 151, and optionally, the transmission and reception point may further include a memory 12, I / O (input / output, input / output) interface 13 and bus 14. The transceiver 11 further includes a transmitter 110 and a receiver 111, and the memory 12 is further used to store instructions 120 and data 121. In addition, the processor 10, the transceiver 11, the memory 12, and the I / O interface 13 are communicatively connected to each other through the bus 14, and the antenna 150 and the antenna 151 are connected to the transceiver 11.

The processor 10 is configured to configure at least two downlink control configuration parameters to the terminal; the downlink control configuration parameters include physical downlink control channel configuration or control resource set group or search space group; wherein, the at least two downlink control configuration parameters Including the first downlink control configuration parameter and the second downlink control configuration parameter;

The processor 10 is further configured to configure the first downlink control configuration parameter or an associated first resource that transmits non-data information to the terminal, and configure the first downlink control configuration parameter associated rate matching indication information to A subset of the second resource indicated by the terminal.

The second resource indicated by the second transmission and reception point to the terminal through the rate matching instruction information is a resource that does not send data information or a resource that sends non-data information.

The transceiver 11 is configured to send at least two downlink control configuration parameters configured by the processor 10 and the first resource to the terminal. Of course, in some implementations, the transmission and reception point configuring the first resource and the transmission and reception point sending the first resource may not be the same transmission and reception point.

Configure at least two downlink control configuration parameters to the terminal, the first transmission and reception point TRP1 transmits the first resource of non-data information to the terminal, and configure the first resource as a subset of the second resource. These configuration-related operations may be as follows: The first transmission and reception point TRP1 shown in FIG. 2 may be executed by the second transmission and reception point TRP2, or may be executed by other TRPs than TRP1 and TRP2. That is, the first transmission and reception point TRP1 can configure itself to transmit non-data information resources, and the second transmission and reception point TRP2, which is located in the cooperative transmission scenario of multiple transmission and reception points with the first transmission and reception point TRP1, can also be the first A transmission and reception point TRP1 configures resources for transmitting non-data information, wherein the second transmission and reception point TRP2 is any one of the plurality of transmission and reception points except the first transmission and reception point TRP1. In the embodiment of the present application, the first transmission and reception point The point TRP1 or the second transmission and reception point TRP2 indicates a certain transmission and reception point, and does not limit the number or the order thereof. Therefore, the transmission and reception points involved in the embodiments of the present application may be at multiple transmission and reception points (multi -TRP) any TRP in the scene.

The transmission and reception points provided in the embodiments of the present application may be applicable to a scenario where multiple transmission and reception points need to perform rate matching when cooperative transmission is performed, for example, the transmission and reception point instructs the terminal to perform rate matching through a channel state information reference signal Another example is the scenario where the transmission and reception point instructs the terminal to do rate matching through the rate matching pattern, and the scenario where the transmission and reception point indicates the terminal to match the rate through the demodulation reference signal.

In the first scenario, the second transmission and reception point sends rate matching indication information to the terminal, indicating an aperiodic zero-power channel state information reference signal resource set; the second resource is the aperiodic zero-power channel state information reference signal Resources in the resource set; correspondingly, the first resources sent by the first transmission and reception point to the terminal are: resources for transmitting aperiodic and non-zero power channel state information reference signals; the processor 10 is specifically used for A transmission and reception point transmits resources of the aperiodic non-zero power channel state information reference signal to the terminal, configured as the aperiodic zero-power channel state information reference indicated by the second transmission and reception point to the terminal through the rate matching indication information A subset of resources in the collection of signal resources.

In one case, the aperiodic zero-power channel state information reference signal resource set is one, and the processor 10 specifically configures the resource for transmitting the aperiodic non-zero power channel state information reference signal as the aperiodic zero The power channel state information refers to a subset of resources in the signal resource set; or

In another case, the aperiodic zero-power channel state information reference signal resource set is multiple, and the processor 10 is configured to configure resources for transmitting the aperiodic non-zero power channel state information reference signal to the multiple The aperiodic zero-power channel state information refers to a subset of resources of the signal resource set. Specifically, the processor 10 executes step 100 in the method embodiment shown in FIG. 3 and the corresponding resource configuration method flow in the foregoing first embodiment.

In the second scenario, the rate matching indication information indicates the rate matching pattern in the rate matching pattern group; and the rate matching indication information is carried in the second downlink control information sent by the second transmission and reception point to the terminal The rate matching pattern group is the rate matching pattern group indicated in the second physical downlink shared channel configuration where the terminal is configured; optionally, the second physical downlink shared channel configuration is related to the second transmission and reception point. In this embodiment, the second resource is configured in the second physical downlink shared channel configuration, and is a resource corresponding to the rate matching pattern except the rate matching pattern group in which the rate matching indication information is not activated.

The processor 10 is configured to configure the first resource as: a resource indicated by a first physical downlink control channel configuration associated with a first physical downlink shared channel configuration configured by the terminal; or a first configured by the terminal The resource indicated by the first control resource set group associated with the physical downlink shared channel configuration; or the resource indicated by the first search space group associated with the first physical downlink shared channel configuration configured by the terminal; optionally, the first The physical downlink shared channel configuration or the first control resource set group or the first search space group corresponds to the first transmission and reception point.

The processor 10 is further configured to configure the resource indicated by the first physical downlink control channel configuration or search space group associated with the first physical downlink shared channel configuration as configured in the second physical downlink shared channel configuration, A subset of resources corresponding to the rate matching pattern except the rate matching pattern group in which the rate matching indication information is not activated. Specifically, the processor 10 executes step 100 in the method embodiment shown in FIG. 3, and the corresponding resource configuration method flow in the foregoing second embodiment.

In the third scenario, the rate matching indication information sent by the second transmission and reception point to the terminal indicates a code division multiplexing group, and the code division multiplexing group is a code division multiplexing group that does not carry data information; the second resource is The resources indicated by the code division multiplexing group; the rate matching indication information is carried in the second downlink control information sent by the second transmission and reception point to the terminal; the second downlink control information and the second physical downlink configured by the terminal Any one or more of the control channel configuration or the second search space group corresponds; optionally, the second physical downlink control channel configuration or the second search space group is related to the second transmission and reception point;

The first resource sent by the first transmission and reception point to the terminal is the resource indicated by the demodulation reference signal port scheduled by the first downlink control information; the first downlink control information and the first physical downlink control configured by the terminal Channel configuration or any one or more associations of the first control resource set group or the second search space group, that is, the first downlink control information is from the first physical downlink control channel configuration or the first control resource set group or the first 2. detected in any one or more of the control information resources indicated by the search space group. Optionally, the first physical downlink control channel configuration or the first control resource set group or the second search space group is related to the first transmission and reception point.

In this embodiment, the processor 10 configures the resource indicated by the demodulation reference signal port scheduled by the first downlink control information as the code division multiplexing group indication indicated by the rate matching indication information carried in the second downlink control information Subset of resources.

In the transmission and reception point provided by the embodiment of the present application, the relationship between the first resource and the second resource is configured by the transmission and reception point to the terminal through signaling. In another implementation, the relationship between the first resource and the second resource is predefined by the protocol, and the transmission and reception points are only executed according to the predefined protocol.

In the transmission and reception points provided in the embodiments of the present application, the processor 10 may be a general-purpose processor, such as but not limited to, a central processing unit (Central Processing Unit, CPU), or a dedicated processor, such as but not limited to, a digital signal Processor (Digital Signal Processor, DSP), application specific integrated circuit (Application Specific Integrated Circuit, ASIC) and field programmable gate array (Field Programmable Gate Array, FPGA), etc. In addition, the processor 10 may also be a combination of multiple processors.

In particular, in the technical solution provided by the embodiment of the present invention, the processor 10 may be used to perform, for example, the step 100 in the method shown in FIG. 3 or the action performed by the processing module 30 shown in FIG. 12. The processor 10 may be a processor specially designed to perform the above steps and / or operations, or may be a processor that executes the above steps and / or operations by reading and executing instructions 120 stored in the memory 12, the processor 10 The data 121 may be needed in the process of performing the above steps and / or operations.

The transceiver 11 includes a transmitter 110 and a receiver 111, wherein the transmitter 110 is used to transmit a signal through at least one antenna among the plurality of antennas 150, 151. The receiver 111 is used to receive a signal through at least one antenna among the plurality of antennas 150, 151.

In particular, in the technical solution provided by the embodiment of the present invention, the transmitter 110 may be specifically configured to be executed by at least one antenna among the multiple antennas 150 and 151, for example, step 101 and diagram in the method shown in FIG. 3 12 indicates the operations performed by the transmitting module 31 of the transmission and reception point.

The memory 12 may be various types of storage media, such as random access memory (Random Access Memory, RAM), read-only memory (Read Only Memory, ROM), non-volatile RAM (Non-Volatile RAM, NVRAM), Programmable ROM (Programmable ROM, PROM), erasable PROM (Erasable PROM, EPROM), electrically erasable PROM (Electrically Erasable PROM, EEPROM), flash memory, optical memory and registers, etc. The memory 12 is specifically used to store instructions 120 and data 121. The processor 10 may perform the steps and / or operations described above by reading and executing the instructions 120 stored in the memory 12, while performing the above operations and / or steps Data 121 may be needed during the process.

The I / O interface 13 is used to receive commands and / or data from peripheral devices and to output commands and / or data to the peripheral devices.

It should be noted that in the specific implementation process, the transmission and reception point may also include other hardware devices, and this article will not list them one by one.

11 is a schematic diagram of a hardware structure of a terminal according to an embodiment of the present invention. As shown in FIG. 11, the terminal includes a processor 21, a transceiver 20, a plurality of antennas 250 and 251, a memory 22, an I / O (Input / Output) interface 23, and a bus 24. The transceiver 20 further includes a transmitter 200 and a receiver 201, and the memory 22 is further used to store instructions 220 and data 221. In addition, the processor 21, the transceiver 20, the memory 22, and the I / O interface 23 are communicatively connected to each other through the bus 24, and a plurality of antennas 250 and 251 are connected to the transceiver 20.

Referring to FIG. 11, it is a schematic structural diagram of a terminal in a multi-connection mode provided by the present application, including:

The transceiver 20 is configured to receive non-data information on a subset of the second resource; the subset of the second resource is the first resource, and the first resource is the first downlink control configuration parameter configuration configured by the terminal Or an associated resource for transmitting non-data information; the first downlink control configuration parameter includes any one or more of the first physical downlink control channel configuration or the first control resource set group or the first search space group.

The transceiver 20 is further configured to receive rate matching indication information carried in second downlink control information; the rate matching indication information indicates a second resource; wherein, the second downlink control information is where the terminal is configured Detected in the control information resource indicated by the second downlink control configuration parameter; where the second downlink control configuration parameter includes any of the second physical downlink control channel configuration or the second control resource set group or the second search space group One item. That is, the second downlink control information is detected from the control information resource indicated by any one or more of the second physical downlink control channel configuration or the second control resource set group or the second search space group. Optionally, the second physical downlink control channel configuration or the second control resource set group or the second search space group is related to the second transmission and reception point;

The processor 21 is configured to perform rate matching according to the second resource indicated by the rate matching indication information.

The terminal provided in the embodiments of the present application may be applicable to a scenario where the terminal performs rate matching when multiple transmission and reception points coordinate transmission, for example, a scenario where the transmission and reception point instructs the terminal to perform rate matching through a channel state information reference signal, and then a transmission and reception point The scenario of instructing the terminal to do rate matching through the rate matching pattern, or the scenario where the transmission and receiving point indicates the rate matching of the terminal through the demodulation reference signal, the scenarios that the technical solution provided by the present application can be implemented are not limited to this.

In the first scenario, the rate matching indication information carried in the second downlink control information received by the transceiver 20 of the terminal indicates a plurality of aperiodic zero-power channel state information reference signal resource sets; the processor 21 is specifically configured to use the multiple All aperiodic zero-power channel state information is punctured with reference to the resources in the signal resource set. Specifically, the transceiver 20 executes steps 102 and 103 shown in FIG. 3, and executes the method flow related to receiving and sending in the foregoing first embodiment; and the processor 21 executes step 104 shown in FIG. 3, And the method flow for performing rate matching in the foregoing first embodiment will not be repeated here.

In the second scenario, the rate matching indication information carried in the second downlink control information received by the transceiver 20 indicates the rate matching pattern in the rate matching pattern group; the rate matching pattern group is the second physical configuration of the terminal The rate matching pattern group indicated in the downlink shared channel configuration; the second physical downlink shared channel configuration is related to the second transmission and reception point; the second resource is configured in the second physical downlink shared channel configuration, Resources corresponding to rate matching patterns other than the rate matching pattern group in which the rate matching indication information is not activated.

The first resource received by the transceiver 20 is the resource indicated by the first physical downlink control channel configuration associated with the first physical downlink shared channel configuration configured by the terminal; or the first physical downlink shared configured by the terminal The resource indicated by the control resource set group associated with the channel configuration; or the resource indicated by the associated search space group for the first physical downlink shared channel configured by the terminal; the optional first physical downlink shared channel configuration The first transmission and reception point corresponds.

Correspondingly, the processor 21 is specifically configured to puncture all resources corresponding to the rate matching pattern configured in the second physical downlink shared channel configuration except the rate matching pattern group in which the rate matching indication information is not activated.

Wherein, the transceiver 20 is further configured to receive rate matching indication information carried in the first downlink control information; the first downlink control information is that the processor is configured at the terminal with the first physical downlink control Detected in the channel configuration or the control information resource indicated by the first control resource set group or the first search space group;

The processor 21 is further configured to divide the rate matching pattern indicated in the first physical downlink shared channel configuration according to the rate matching indication information carried in the first downlink control information, except for the rate matching pattern indicated by the rate matching indication information All resources corresponding to the rate matching pattern outside the group are punched.

Specifically, the transceiver 20 executes steps 102 and 103 shown in FIG. 3, and executes the method flow related to receiving and sending in the foregoing first embodiment; and the processor 21 executes step 104 shown in FIG. 3, And the method flow for performing rate matching in the foregoing second embodiment will not be repeated here.

In the third scenario, the rate matching indication information carried in the second downlink control information received by the transceiver 20 indicates a code division multiplexing group, and the code division multiplexing group is a code division multiplexing group that does not carry data information; The second resource is the resource indicated by the code division multiplexing group. The first resource received by the transceiver 20 is the resource indicated by the demodulation reference signal port scheduled by the first downlink control information; the first downlink control information and the first A physical downlink control channel configuration, or first control resource set group, or first search space group association. That is, the first downlink control information is control resource information indicated by one or more items of the first physical downlink control channel configuration configured by the terminal, or the first control resource set group, or the first search space group Detected. Optionally, the first physical downlink control channel configuration, or the first control resource set group or the first search space group is related to the first transmission and reception point.

Correspondingly, the processor 21 is used to puncture all resources indicated by the code division multiplexing group indicated by the rate matching indication information carried in the second downlink control information.

Specifically, the transceiver 20 executes steps 102 and 103 shown in FIG. 3, and executes the method flow related to receiving and sending in the foregoing first embodiment; and the processor 21 executes step 104 shown in FIG. 3, And the method flow for performing rate matching in the foregoing third embodiment will not be repeated here.

In the terminal provided by the embodiment of the present application, the relationship between the first resource and the second resource is received by the transceiver 20 of the terminal through signaling, or obtained by searching the processor 21 for a predefined protocol.

The processor 21 of the terminal provided in this embodiment of the present application may be a general-purpose processor, such as, but not limited to, a central processing unit (CPU), or a dedicated processor, such as, but not limited to, a digital signal processor Digital Signal (Processor, DSP), Application Specific Integrated Circuit (Application Specific Integrated Circuit, ASIC) and Field Programmable Gate Array (Field Programmable Gate Array, FPGA), etc. In addition, the processor 21 may also be a combination of multiple processors. In particular, in the technical solution provided by the embodiment of the present invention, the processor 21 may be used to perform, for example, step 104 in the method shown in FIG. 3 and operations performed by the processing module 41 of the terminal shown in FIG. 13. The processor 21 may be a processor specifically designed to perform the above steps and / or operations, or may be a processor that performs the above steps and / or operations by reading and executing instructions 220 stored in the memory 22, the processor 22 The data 221 may be needed in the process of performing the above steps and / or operations.

The transceiver 20 includes a transmitter 200 and a receiver 201, wherein the transmitter 200 is used to transmit a signal through at least one antenna among the plurality of antennas 250 and 251. The transmitter 200 is used to transmit a signal through at least one antenna among the plurality of antennas 250 and 251.

In particular, in the technical solution provided by the embodiment of the present invention, the transmitter 200 is specifically configured to perform the operation performed when the terminal shown in FIG. 13 transmits data through at least one antenna among the multiple antennas 250 and 251. The receiver 201 is used to receive a signal through at least one antenna among the plurality of antennas 250 and 251.

In particular, in the technical solution provided by the embodiment of the present invention, the receiver 201 is specifically configured to be executed by at least one antenna among the multiple antennas 250 and 251. Step 102 and step 103 in the method shown in FIG. 3 and the diagram 13 shows the operations performed by the receiving module 40 of the terminal.

The memory 22 may be various types of storage media, such as random access memory (random access memory, RAM), read only memory (read only memory, ROM), non-volatile RAM (non-volatile RAM, NVRAM), Programmable ROM (programmable ROM, PROM), erasable PROM (erasable PROM, EPROM), electrically erasable PROM (electrically erasable PROM, EEPROM), flash memory, optical memory and registers, etc. The memory 22 is specifically used to store instructions 220 and data 221. The processor 21 can read and execute the instructions 220 stored in the memory 22 to perform the steps and / or operations described above. Data 221 may be needed during the process.

The I / O interface 23 is used to receive commands and / or data from peripheral devices and to output commands and / or data to the peripheral devices.

It should be noted that in the specific implementation process, the terminal may also include other hardware devices, and this article will not list them one by one.

The technical solution provided by the embodiments of the present invention may be implemented by means of a processor + a transceiver, where the processor is used to perform various processing operations, such as but not limited to generating, determining, judging, searching, extracting, acquiring, reading , Receive input to be processed data and output processed data and other operations, the transceiver is used to perform operations such as transmission and reception. In the specific implementation process, the processor can be implemented in the following ways:

In the first way, the processor is a dedicated processor. In this case, the processor may further include an interface circuit and a processing circuit, wherein the interface circuit is used to receive data that needs to be processed by the processing circuit, and output processing by the processing circuit As a result, the processing circuit is used to perform the various processing operations described above.

In the second way, the processor is implemented using a general processor + memory architecture, where the general processor is used to execute the processing instructions stored in the memory, and these processing instructions are used to instruct the general processor to perform the various processing operations described above. It is not difficult to understand that the processing performed by the general-purpose processor depends on the processing instructions stored in the memory. By modifying the processing instructions in the memory, the general-purpose processor can be controlled to output different processing results.

Further, in the second manner described above, the general-purpose processor and the memory may be integrated on the same chip, for example, both the general-purpose processor and the memory may be integrated on the processing chip. In addition, the general-purpose processor and the memory may also be provided on different chips, for example, the general-purpose processor is provided on the processing chip, and the memory is provided on the storage chip.

The technical solution provided by the embodiments of the present invention may also be implemented by means of a computer-readable storage medium, where the computer-readable storage medium stores processing instructions for implementing the technical solutions of the embodiments of the present invention for reading by a general processing device To complete the technical solution provided by the embodiments of the present invention. The above-mentioned general-purpose processing device should be understood as a processing device containing necessary hardware devices such as a processor and a transceiver, and the operation of these hardware devices depends on the processing instructions stored in the computer-readable storage medium.

Referring to FIG. 12, a transmission and reception point provided by this application includes:

The processing module 30 is configured to configure at least two downlink control configuration parameters to the terminal; wherein, the at least two downlink control configuration parameters include a first downlink control configuration parameter and a second downlink control configuration parameter;

The processing module 30 is further configured to configure the first downlink control configuration parameter or an associated first resource for transmitting non-data information to the terminal, and configure the rate matching indication information associated with the second downlink control configuration parameter to The subset of the second resource indicated by the terminal. The second resource indicated to the terminal through the rate matching indication information is a resource that does not send data information or a resource that sends non-data information.

Optionally, the transmission and reception point may further include a sending module 31, configured to send the first resource configured by the processing module 30 to the terminal. Of course, in some implementations, the transmission and reception point configuring the first resource and the transmission and reception point sending the first resource may not be the same transmission and reception point.

Configure at least two downlink control configuration parameters to the terminal; configure the first transmission and reception point TRP1 to transmit the first resource of non-data information to the terminal, and configure the first resource to be a subset of the second resource. These configuration-related operations may be The first transmission and reception point TRP1 shown in FIG. 2 may be executed by the second transmission and reception point TRP2, or may be executed by other TRPs than TRP1 and TRP2. That is, the first transmission and reception point TRP1 can configure itself to transmit non-data information resources, and the second transmission and reception point TRP2, which is located in the cooperative transmission scenario of multiple transmission and reception points with the first transmission and reception point TRP1, can also be the first A transmission and reception point TRP1 configures resources for transmitting non-data information, wherein the second transmission and reception point TRP2 is any one of the plurality of transmission and reception points except the first transmission and reception point TRP1. In the embodiment of the present application, the first transmission and reception point The point TRP1 or the second transmission and reception point TRP2 indicates a certain transmission and reception point, and does not limit the number or the order thereof. Therefore, the transmission and reception points involved in the embodiments of the present application may be at multiple transmission and reception points (multi -TRP) any TRP in the scene.

The transmission and reception points provided in the embodiments of the present application may be applicable to a scenario where multiple transmission and reception points need to perform rate matching when cooperative transmission is performed, for example, the transmission and reception point instructs the terminal to perform rate matching through a channel state information reference signal Another example is the scenario where the transmission and reception point instructs the terminal to perform rate matching through the rate matching pattern, and the scenario where the transmission and reception point indicates the terminal to rate match through the demodulation reference signal. The scenarios that the technical solution provided by the present application can be implemented are not limited to this.

In the first scenario, the second transmission and reception point sends rate matching indication information to the terminal, indicating an aperiodic zero-power channel state information reference signal resource set; the second resource is the aperiodic zero-power channel state information reference signal Resources in the resource set; correspondingly, the first resources sent by the first transmission and reception point to the terminal are: resources for transmitting aperiodic and non-zero power channel state information reference signals; the processing module 30 is specifically configured to use the first A transmission and reception point transmits resources of the aperiodic non-zero power channel state information reference signal to the terminal, configured as the aperiodic zero-power channel state information reference indicated by the second transmission and reception point to the terminal through the rate matching indication information A subset of resources in the collection of signal resources.

In one case, the aperiodic zero-power channel state information reference signal resource set is one, and the processing module 30 specifically configures the resource for transmitting the aperiodic non-zero power channel state information reference signal as the aperiodic zero The power channel state information refers to a subset of resources in the signal resource set; or

In another case, the aperiodic zero-power channel state information reference signal resource set is multiple, and the processor 10 is configured to configure resources for transmitting the aperiodic non-zero power channel state information reference signal to the multiple The aperiodic zero-power channel state information refers to a subset of resources of the signal resource set. Specifically, the processing module 30 executes step 100 in the method embodiment shown in FIG. 3, and the corresponding resource configuration method flow in the foregoing first embodiment.

In the second scenario, the rate matching indication information is carried in the second downlink control information sent by the second transmission and receiving point to the terminal, and the rate matching indication information indicates the rate matching pattern in the rate matching pattern group The rate matching pattern group is the rate matching pattern group indicated in the second physical downlink shared channel configuration where the terminal is configured; optionally, the second physical downlink shared channel configuration is related to the second transmission and reception point. In this embodiment, the second resource is configured in the second physical downlink shared channel configuration, and is a resource corresponding to the rate matching pattern except the rate matching pattern group in which the rate matching indication information is not activated.

The processing module 30 is configured to configure the first resource as: a resource indicated by a first physical downlink control channel configuration associated with a first physical downlink shared channel configuration configured by the terminal; or a first configured by the terminal The resource indicated by the first control resource set group associated with the physical downlink shared channel configuration; or the resource indicated by the first search space group associated with the first physical downlink shared channel configuration configured by the terminal; optionally, the first The physical downlink shared channel configuration or the first control resource set group or the first search space group corresponds to the first transmission and reception point.

The processing module 30 is further configured to configure the resource indicated by the first physical downlink control channel configuration or the first control resource set group or the first search space group associated with the first physical downlink shared channel configuration as the second A subset of resources configured in the rate matching pattern other than the rate matching pattern group that is not activated in the rate matching indication information and configured in the physical downlink shared channel configuration. Specifically, the processing module 30 executes step 100 in the method embodiment shown in FIG. 3, and the corresponding resource configuration method flow in the foregoing second embodiment.

In the third scenario, the rate matching indication information sent by the second transmission and reception point to the terminal indicates a code division multiplexing group, and the code division multiplexing group is a code division multiplexing group that does not carry data information; the second resource is The resource indicated by the code division multiplexing group; the rate matching indication information is carried in the second downlink control information sent by the second transmission and reception point to the terminal; the second downlink control information and the second downlink control configured by the terminal Configuration parameter association, that is, associated with the second physical downlink control channel configuration or the second control resource set group or the second search space group; optionally, the second physical downlink control channel configuration or the second control resource set group or the second The search space group is related to the second transmission and reception point;

The first resource sent by the first transmission and reception point to the terminal is the resource indicated by the demodulation reference signal port scheduled by the first downlink control information; the first downlink control information and the first downlink control configured by the terminal Configuration parameter association, that is, corresponding to the first physical downlink control channel configuration or the first control resource set group or the second search space group, optionally, the first physical downlink control channel configuration or the first control resource set group or the second The search space group is related to the first transmission and reception point.

In this embodiment, the processing module 30 configures the resource indicated by the demodulation reference signal port scheduled by the first downlink control information as the code division multiplexing group indication indicated by the rate matching indication information carried in the second downlink control information Subset of resources. Specifically, the processing module 30 executes step 100 in the method embodiment shown in FIG. 3, and the corresponding resource configuration method flow in the foregoing third embodiment.

Compared with the prior art, when each TRP communicates with a terminal, when the terminal performs rate matching according to the rate matching indication information sent to it by a single TRP, there will be a technical defect that resource conflicts can not demodulate the data. In this application, because On the network side, by configuring or associating resources in one of the downlink control configuration parameters with non-data information to be sent to a subset of the resources indicated to the terminal by the rate matching indication information associated with the other downlink control configuration parameter. Or, limit the resources that one TRP sends non-data information to the terminal to a subset of the resources indicated by the rate matching indication information sent by another TRP to the terminal, thereby avoiding one TRP sending non-data information or not sending data in another TRP When sending data information on the information resource, the terminal can perform rate matching according to the rate matching indication information sent to it by the transmission and reception point, and then correctly demodulate the data.

Referring to FIG. 13, it is a schematic structural diagram of a terminal in a multi-connection mode provided by the present application, including:

The receiving module 40 is configured to receive non-data information on a subset of the second resource; the subset of the second resource is the first resource, and the first resource is the first downlink control configuration parameter configuration configured by the terminal Or an associated resource for transmitting non-data information; the first downlink control configuration parameter includes any one or more of the first physical downlink control channel configuration or the first control resource set group or the first search space group. ;

The receiving module 40 is further configured to receive rate matching indication information carried in second downlink control information; the rate matching indication information indicates a second resource; wherein, the second downlink control information is where the terminal is configured Detected in the control information resource indicated by the second downlink control configuration parameter; where the second downlink control configuration parameter includes any of the second physical downlink control channel configuration or the second control resource set group or the second search space group One item. That is, the second downlink control information is detected from the control information resource indicated by any one or more of the second physical downlink control channel configuration or the second control resource set group or the second search space group. Optionally, the second physical downlink control channel configuration or the second control resource set group or the second search space group is related to the second transmission and reception point;

The processing module 41 is configured to perform rate matching according to the second resource indicated by the rate matching instruction information.

In the first scenario, the rate matching indication information carried in the second downlink control information received by the receiving module 40 of the terminal indicates a plurality of aperiodic zero-power channel state information reference signal resource sets; the processing module 41 is specifically configured to use the multiple All aperiodic zero-power channel state information is punctured with reference to the resources in the signal resource set. Specifically, the receiving module 40 executes steps 102 and 103 shown in FIG. 3 and the method flow related to receiving and sending in the foregoing first embodiment; and the processing module 41 executes step 104 shown in FIG. 3, And the method flow for performing rate matching in the foregoing first embodiment will not be repeated here.

In the second scenario, the rate matching indication information carried in the second downlink control information received by the receiving module 40 indicates the rate matching pattern in the rate matching pattern group; the rate matching pattern group is the second physical configuration of the terminal The rate matching pattern group indicated in the downlink shared channel configuration; the second physical downlink shared channel configuration is related to the second transmission and reception point; the second resource is configured in the second physical downlink shared channel configuration, Resources corresponding to rate matching patterns other than the rate matching pattern group in which the rate matching indication information is not activated.

The first resource received by the receiving module 40 is the resource indicated by the first physical downlink control channel configuration associated with the first physical downlink shared channel configuration configured by the terminal; or the first physical downlink shared configured by the terminal The resource indicated by the control resource set group associated with the channel configuration; or the resource indicated by the associated search space group for the first physical downlink shared channel configured by the terminal; optionally, the first physical downlink shared channel is configured with The first transmission and reception point corresponds.

Correspondingly, the processing module 41 is specifically configured to puncture all resources corresponding to the rate matching patterns configured in the second physical downlink shared channel configuration except the rate matching pattern group in which the rate matching indication information is not activated.

The receiving module 40 is further configured to receive rate matching indication information carried in the first downlink control information; the first downlink control information is that the processor is configured at the terminal with the first physical downlink control The channel configuration or the first control resource set group or the first search space group is detected in any single indication or multiple indications in the control information resource;

The processing module 41 is further configured to, according to the rate matching indication information carried in the first downlink control information, configure the first physical downlink shared channel configuration except the rate matching pattern activated by the rate matching indication information All resources corresponding to the rate matching pattern outside the group are punched.

Specifically, the receiving module 40 executes steps 102 and 103 shown in FIG. 3 and the method flow related to receiving and sending in the foregoing first embodiment; and the processing module 41 executes step 104 shown in FIG. 3, And the method flow for performing rate matching in the foregoing second embodiment will not be repeated here.

In the third scenario, the rate matching indication information carried in the second downlink control information received by the receiving module 40 indicates a code division multiplexing group, and the code division multiplexing group is a code division multiplexing group that does not carry data information; The second resource is the resource indicated by the code division multiplexing group. The first resource received by the receiving module 40 is the resource indicated by the demodulation reference signal port scheduled by the first downlink control information; the first downlink control information and the first A downlink control configuration parameter association, that is, detected from the control information resource indicated by one or more of the first physical downlink control channel configuration or the first control resource set group or the first search space group, The first physical downlink control channel configuration or the first control resource set group or the first search space group is related to the first transmission and reception point.

Correspondingly, the processing module 41 is used to puncture all resources indicated by the code division multiplexing group indicated by the rate matching indication information carried in the second downlink control information.

Specifically, the receiving module 40 executes steps 102 and 103 shown in FIG. 3 and the method flow related to receiving and sending in the foregoing first embodiment; and the processing module 41 executes step 104 shown in FIG. 3, And the method flow for performing rate matching in the foregoing third embodiment will not be repeated here.

In the terminal provided by the embodiment of the present application, the relationship between the first resource and the second resource is received by the receiving module 40 of the terminal through signaling, or obtained by searching the processing module 41 for a predefined protocol.

Compared with the prior art, when each TRP communicates with a terminal, when the terminal performs rate matching according to the rate matching indication information sent to it by a single TRP, there will be a technical defect that resource conflicts can not demodulate data. In this application, through Configure one of the downlink control configuration parameters to configure or associate a resource that transmits non-data information as a subset of the resources indicated to the terminal by the rate matching indication information associated with the other downlink control configuration parameter. Or, by limiting the resources of one TRP to send non-data information to the terminal to a subset of the resources indicated by the rate matching indication information sent by another TRP to the terminal, thereby avoiding one TRP sending non-data information or not sending at another TRP The data information is sent on the resource of the data information. Therefore, the terminal of the present application can perform rate matching according to the rate matching instruction information sent to it by the transmission and reception point, and then correctly demodulate the data.

An embodiment of the present application further provides a processor, which is used to execute any of the foregoing method flows, where the steps involving transmission and reception should be understood as the processor executing through the transceiver.

An embodiment of the present application also provides a processing device, including:

Memory

The processor is used to read the instructions stored in the memory and perform any of the foregoing methods, where the steps involving transmission and reception should be understood as the processor executing through the transceiver. Among them, the memory may be a non-transitory (non-transitory) memory, such as a read-only memory (Read Only Memory, ROM), which may be integrated with the processor on the same chip, or may be separately set on different chips. The embodiments of the invention do not limit the type of memory and the manner of setting the memory and the processor.

An embodiment of the present application also provides a chip, including:

A processor, used to read the instructions stored in the memory, the foregoing method flow as shown in FIG. 3, or any method involved in the first embodiment, the second embodiment, or the third embodiment, wherein the steps involved in transmitting and receiving should be It is understood that the processor executes through the transceiver.

An embodiment of the present application also provides a computer-readable storage medium, including instructions, which when executed on a computer, causes the computer to have the aforementioned method flow shown in FIG. 3, or the first or second embodiment, and the third embodiment. Any method involved. The computer-readable storage medium is non-transitory.

An embodiment of the present application also provides a computer program product containing instructions, which when executed on a computer, causes the computer to execute the foregoing method flow shown in FIG. 3, or the first or second embodiment, and the third embodiment relates to Any method.

The beneficial effect of the embodiment of the present invention is that, when each TRP communicates with the terminal in the prior art, when the terminal performs rate matching according to the rate matching indication information sent to it by a single TRP, resource conflicts may occur and the data cannot be demodulated Technical defects, in this application, by configuring one of the downlink control configuration parameters or associated resources to send non-data information to another downlink control configuration parameter associated with the rate matching indication information indicated to the terminal set. Or, limit the resources that one TRP sends non-data information to the terminal to a subset of the resources indicated by the rate matching indication information sent by another TRP to the terminal, thereby avoiding one TRP sending non-data information or not sending data in another TRP When sending data information on the information resource, the terminal can perform rate matching according to the rate matching indication information sent to it by the transmission and reception point, and then correctly demodulate the data. This application can be applied to different rate matching scenarios.

In the above embodiments, it can be implemented in whole or in part by software, hardware, firmware, or any combination thereof. When implemented using software, it can be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. When the computer program instructions are loaded and executed on the computer, all or part of the processes or functions according to the embodiments of the present invention are generated. The computer may be a general-purpose computer, a special-purpose computer, a computer network, or other programmable devices. The computer instructions may be stored in a computer-readable storage medium or transmitted from one computer-readable storage medium to another computer-readable storage medium, for example, the computer instructions may be from a website site, computer, server or data center Transmit to another website, computer, server or data center by wired (such as coaxial cable, optical fiber, digital subscriber line (DSL)) or wireless (such as infrared, wireless, microwave, etc.). The computer-readable storage medium may be any available medium that can be accessed by a computer or a data storage device including a server, a data center, and the like integrated with one or more available media. The available media may be magnetic media (eg, floppy disk, hard disk, magnetic tape), optical media (eg, DVD), or semiconductor media (eg, Solid State Disk (SSD)), and the like.

In summary, the above are only the embodiments of the present invention and are not intended to limit the protection scope of the present invention. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

A resource allocation method, characterized in that it includes:

Configure the first resource as a subset of the second resource; the first resource is a resource configured by the first downlink control configuration parameter or associated to transmit non-data information to the terminal, and the second resource is the second downlink control Resources indicated to the terminal by rate matching indication information associated with configuration parameters;

Sending the first downlink control configuration parameter and the second downlink control configuration parameter to a terminal.
The resource configuration method according to claim 1, wherein the rate matching indication information indicates a set of aperiodic zero-power channel state information reference signal resources to the terminal; the second resource is the aperiodic zero-power channel state Information refers to resources in the signal resource set;

The first resource associated with the first downlink control configuration parameter is: a resource for transmitting aperiodic non-zero power channel state information reference signal;

The configuration of the first resource as a subset of the second resource specifically includes:

The resource for transmitting the aperiodic non-zero power channel state information reference signal is configured as a subset of the resources in the aperiodic zero-power channel state information reference signal resource set.
The resource configuration method according to claim 2, wherein the aperiodic zero-power channel state information reference signal resource set is one, and the resource for transmitting the aperiodic non-zero power channel state information reference signal is the non-periodic resource Periodic zero-power channel state information refers to a subset of resources in the set of signal resources; or

The aperiodic zero-power channel state information reference signal resource set is multiple, and the resources for transmitting the aperiodic non-zero power channel state information reference signal resource are resources of the multiple aperiodic zero-power channel state information reference signal resource sets Subset.
The resource configuration method according to claim 1, wherein the rate matching indication information is carried in second downlink control information; the second downlink control information is associated with the second downlink control configuration parameter;

The rate matching indication information indicates the rate matching pattern in the rate matching pattern group; the rate matching pattern group is the rate matching pattern group indicated in the second physical downlink shared channel configuration;

The second resource is configured in the second physical downlink shared channel configuration, and is a resource corresponding to the rate matching pattern except the rate matching pattern group indicated by the rate matching indication information.
The resource configuration method according to claim 4, wherein the first downlink control configuration parameter is a first physical downlink control channel configuration associated with a first physical downlink shared channel configuration; the first resource is the The resource indicated by the first physical downlink control channel configuration associated with the first physical downlink shared channel configuration configured by the terminal; or

The first downlink control configuration parameter is a first control resource set group associated with a first physical downlink shared channel configuration; the first resource is a first control associated with a first physical downlink shared channel configuration configured by the terminal The resource indicated by the resource set; or

The first downlink control configuration parameter is a first search space group associated with a first physical downlink shared channel configuration; the first resource is a first search space associated with a first physical downlink shared channel configuration configured by the terminal The resource indicated by the group.
The resource configuration method according to claim 5, wherein the first physical downlink shared channel configuration is associated with a resource indicated by a first physical downlink control channel configuration or a first control resource set group or a first search space group, Is a subset of resources configured in the second physical downlink shared channel configuration except for the rate matching pattern group in which the rate matching indication information is not activated.
The resource configuration method according to claim 1, wherein the rate matching indication information is carried in second downlink control information; the second downlink control information is associated with the second downlink control configuration parameter;

The rate matching indication information indicates a code division multiplexing group, and the code division multiplexing group is a code division multiplexing group that does not carry data information; the second resource is a resource indicated by the code division multiplexing group;

The first resource is a resource indicated by a demodulation reference signal port scheduled by the first downlink control information; the first downlink control information is associated with the first downlink control configuration parameter.
The resource configuration method according to claim 7, wherein the resource indicated by the demodulation reference signal port scheduled by the first downlink control information is rate matching indication information carried by the second downlink control information The indicated subset of resources indicated by the code division multiplexing group.
The resource configuration method according to any one of claims 1 to 7, comprising: the relationship between the first resource and the second resource is configured to the terminal through signaling, or is predefined for the protocol.
A method for terminal rate matching in multi-connection mode, which includes:

The terminal receives rate matching indication information carried in second downlink control information; the rate matching indication information indicates a second resource; wherein, the second downlink control information is the second downlink control in which the terminal is configured Detected in the control information resource indicated by the configuration parameter;

The terminal receives non-data information on the subset of the second resources; the subset of the second resources is the first resource, and the first resource is the first downlink control configuration parameter configuration configured by the terminal or Associated resources transmitting non-data information;

The terminal performs rate matching according to the second resource indicated by the rate matching indication information.
The method for terminal rate matching in multi-connection mode according to claim 10, wherein the rate matching indication information carried in the second downlink control information indicates a plurality of aperiodic zero-power channel state information reference signal resource sets ;

Then, the terminal performing rate matching according to the second resource indicated by the rate matching indication information includes:

The terminal punctures all resources in the plurality of aperiodic zero-power channel state information reference signal resource sets.
The method for rate matching of a terminal in a multi-connection mode according to claim 10, wherein the rate matching indication information carried in the second downlink control information indicates the rate matching pattern in the rate matching pattern group; the rate The matching pattern group is the rate matching pattern group indicated in the second physical downlink shared channel configuration where the terminal is configured;

The second resource is configured in the second physical downlink shared channel configuration, and is a resource corresponding to the rate matching pattern except the rate matching pattern group in which the rate matching indication information is not activated.
The method for rate matching of a terminal in a multi-connection mode according to claim 12, wherein the first downlink control configuration parameter is a first physical downlink control channel configuration associated with a first physical downlink shared channel configuration; The first resource is a resource indicated by a first physical downlink control channel configuration associated with a first physical downlink shared channel configuration configured by the terminal; or

The first downlink control configuration parameter is a first control resource set group associated with a first physical downlink shared channel configuration; the first resource is a first control associated with a first physical downlink shared channel configuration configured by the terminal The resource indicated by the resource set; or

The first downlink control configuration parameter is a first search space group associated with a first physical downlink shared channel configuration; the first resource is a first search space associated with a first physical downlink shared channel configuration configured by the terminal The resource indicated by the group.
The method for terminal rate matching in a multi-connection mode according to claim 13, wherein the terminal performing rate matching according to the second resource indicated by the rate matching indication information includes:

All resources configured in the second physical downlink shared channel configuration except the rate matching pattern group in which the rate matching indication information is not activated are punctured.
The method for rate matching of a terminal in the multi-connection mode according to claim 14, wherein the terminal further receives rate matching indication information carried in the first downlink control information; the first downlink control information is The terminal is detected in the control information resource indicated by the first downlink control configuration parameter configured by the terminal;

Then, according to the rate matching indication information carried in the first downlink control information, the terminal configures the first physical downlink shared channel configuration except the rate matching pattern group in which the rate matching indication information is not activated All resources corresponding to the rate matching pattern are punched.
The method for rate matching of a terminal in a multi-connection mode according to claim 10, wherein the rate matching indication information carried in the second downlink control information indicates a code division multiplexing group, and the code division multiplexing group Is a code division multiplexing group that does not carry data information; the second resource is a resource indicated by the code division multiplexing group.
The method for rate matching of a terminal in a multi-connection mode according to claim 16, wherein the first resource is a resource indicated by a demodulation reference signal port scheduled by the first downlink control information; the first A piece of downlink control information is detected by the terminal in the control information resource indicated by the first downlink control configuration parameter configured by the terminal.
The method for rate matching of a terminal in a multi-connection mode according to claim 17, wherein the terminal performing rate matching according to the second resource indicated by the rate matching indication information includes:

The terminal punctures all resources indicated by the code division multiplexing group indicated by the rate matching indication information carried in the second downlink control information.
The method for rate matching of a terminal in a multi-connection mode according to any one of claims 10 to 18, comprising: the relationship between the first resource and the second resource is received by the terminal through signaling, or Predefined for the agreement.
A transmission and reception point, characterized in that it includes:

A processor, configured to configure the first resource as a subset of the second resource; the first resource is a resource configured by the first downlink control configuration parameter or associated to transmit non-data information to the terminal, and the second resource is Resources indicated to the terminal by the rate matching indication information associated with the second downlink control configuration parameter;

The transceiver is configured to send the first downlink control configuration parameter and the second downlink control configuration parameter to the terminal.
The transmission and reception point according to claim 20, wherein the rate matching indication information indicates an aperiodic zero-power channel state information reference signal resource set; the second resource is the aperiodic zero-power channel state information reference Resources in the collection of signal resources;

The first resource is: a resource associated with the first downlink control configuration parameter and transmitting an aperiodic non-zero power channel state information reference signal;

The processor is specifically configured to configure resources of the aperiodic non-zero power channel state information reference signal as a subset of resources in the aperiodic zero-power channel state information reference signal resource set.
The transmission and reception point according to claim 21, wherein the aperiodic zero-power channel state information reference signal resource set is one, and the processor is configured to use the transmission aperiodic non-zero power channel state information reference signal Is configured as a subset of the resources in the set of aperiodic zero-power channel state information reference signal resources; or

The set of aperiodic zero-power channel state information reference signal resources is multiple, and the processor is configured to configure resources for transmitting aperiodic non-zero power channel state information reference signals as the multiple aperiodic zero-power channel state information references A subset of the resources of the signal resource collection.
The transmission and reception point according to claim 20, wherein the rate matching indication information is carried in second downlink control information; the second downlink control information is associated with the second downlink control configuration parameter;

The rate matching indication information indicates a rate matching pattern in a rate matching pattern group; the rate matching pattern group is a rate matching pattern group indicated in the second physical downlink shared channel configuration where the terminal is configured;

The second resource is configured in the second physical downlink shared channel configuration, and is a resource corresponding to the rate matching pattern except the rate matching pattern group in which the rate matching indication information is not activated.
The transmission and reception point according to claim 23, wherein the first downlink control configuration parameter is a first physical downlink control channel configuration associated with a first physical downlink shared channel configuration; the processor is configured to use the The first resource configuration is: the resource indicated by the first physical downlink control channel configuration associated with the first physical downlink shared channel configuration configured by the terminal; or

The first downlink control configuration parameter is a first control resource set group associated with a first physical downlink shared channel configuration; the processor is configured to configure the first resource as: the first physical downlink configured by the terminal The resource indicated by the first control resource set group associated with the shared channel configuration; or

The first downlink control configuration parameter is a first search space group associated with the first physical downlink shared channel configuration; the processor is configured to configure the first resource as: the first physical downlink shared by the terminal The resource indicated by the first search space group associated with the channel configuration.
The transmission and reception point according to claim 24, wherein the processor is configured to associate the first physical downlink control channel configuration or the first control resource set group or the first physical downlink control channel configuration associated with the first physical downlink shared channel configuration The resources indicated by the search space group are configured as the subset of resources corresponding to the rate matching patterns other than the rate matching pattern group that is not activated in the rate matching indication information and configured in the second physical downlink shared channel configuration.
The transmission and reception point according to claim 20, wherein the rate matching indication information is carried in second downlink control information; the second downlink control information is associated with the second downlink control configuration parameter;

The rate matching indication information indicates a code division multiplexing group, and the code division multiplexing group is a code division multiplexing group that does not carry data information; the second resource is a resource indicated by the code division multiplexing group;

The first resource is a resource indicated by a demodulation reference signal port scheduled by the first downlink control information; the first downlink control information is associated with the first downlink control configuration parameter.
The transmission and reception point according to claim 26, wherein the processor configures the resource indicated by the demodulation reference signal port scheduled by the first downlink control information as the second downlink control information The subset of resources indicated by the code division multiplexing group indicated by the rate matching indication information carried.
The transmission and reception point according to any one of claims 20 to 26, comprising: the relationship between the first resource and the second resource is configured by the transmission and reception point to the terminal through signaling, or a protocol pre-defined.
The transmission and reception point according to any one of claims 20 to 26, wherein the transmission and reception point is the first transmission and reception point, or the second transmission and reception point, or is located with the terminal Other transmission and reception points in multi-connection mode.
A terminal in multi-connection mode is characterized by including:

A transceiver, configured to receive rate matching indication information carried in second downlink control information; the rate matching indication information indicates a second resource; wherein, the second downlink control information is the second in which the terminal is configured Detected in the control information resource indicated by the downlink control configuration parameter;

The transceiver is also used to receive non-data information on the subset of the second resource; the subset of the second resource is the first resource, and the first resource is the first downlink control configured by the terminal Configuration parameter configuration or associated resources that transmit non-data information;

The processor is configured to perform rate matching according to the second resource indicated by the rate matching indication information.
The terminal in multi-connection mode according to claim 30, wherein the rate matching indication information carried in the second downlink control information received by the transceiver indicates a plurality of aperiodic zero-power channel state information reference signal resource sets ;

The processor is specifically configured to puncture all resources in the plurality of aperiodic zero-power channel state information reference signal resource sets.
The terminal in multi-connection mode according to claim 30, wherein the rate matching indication information carried in the second downlink control information received by the transceiver indicates the rate matching pattern in the rate matching pattern group; the rate The matching pattern group is the rate matching pattern group indicated in the second physical downlink shared channel configuration where the terminal is configured; the second resource is configured in the second physical downlink shared channel configuration, except for the rate matching indication The resource corresponding to the rate matching pattern outside the information inactive rate matching pattern group.
The terminal in the multi-connection mode according to claim 32, wherein the first resource received by the transceiver is a first physical downlink control associated with a first physical downlink shared channel configuration configured by the terminal The resources indicated by the channel configuration; or the resources indicated by the associated first control resource set group for the first physical downlink shared channel configured by the terminal; or the associated resources for the first physical downlink shared channel configured by the terminal The resource indicated by the first search space group.
The terminal in the multi-connection mode according to claim 33, wherein the processor is specifically configured to configure the second physical downlink shared channel configuration except the rate in which the rate matching indication information is not activated All resources corresponding to rate matching patterns outside the matching pattern group are punched.
The terminal in multi-connection mode according to claim 34, wherein the transceiver is further configured to receive rate matching indication information carried in the first downlink control information; the first downlink control information is the The processor detects in the control information resource indicated by the first downlink control configuration parameter configured by the terminal;

The processor is further configured to configure the first physical downlink shared channel configuration according to the rate matching indication information carried in the first downlink control information, except for the rate matching pattern in which the rate matching indication information is not activated All resources corresponding to the rate matching pattern outside the group are punched.
The terminal in multi-connection mode according to claim 30, wherein the rate matching indication information carried in the second downlink control information received by the transceiver indicates a code division multiplexing group, and the code division multiplexing The usage group is a code division multiplexing group that does not carry data information; the second resource is a resource indicated by the code division multiplexing group.
The terminal in multi-connection mode according to claim 36, wherein the first resource received by the transceiver is a resource indicated by a demodulation reference signal port scheduled by the first downlink control information; The first downlink control information is detected by the terminal in the control information resource indicated by its configured first downlink control configuration parameter.
The terminal in the multi-connection mode according to claim 37, wherein the processor is configured to play all resources indicated by the code division multiplexing group indicated by the rate matching indication information carried in the second downlink control information hole.
A chip, characterized in that the chip includes at least one circuit for performing the resource allocation method according to any one of claims 1 to 9 or for performing any one of claims 10 to 19 A method for rate matching by a terminal in a multi-connection mode.
A processing device, comprising a processor and a memory, the processor includes at least one circuit, the memory stores instructions, and the at least one circuit reads the instructions to execute claims 1-9 The resource configuration method according to any one or the method for performing rate matching by a terminal in a multi-connection mode according to any one of claims 10 to 19.
A computer-readable storage medium, characterized in that instructions are stored in the computer-readable storage medium, and when the instructions run on a processing component of a computer, the processing component is caused to perform any of claims 1-9 A resource allocation method as described in one item or a method for performing rate matching of a terminal in a multi-connection mode as claimed in any one of claims 10-19.