CN115835278A

CN115835278A - Method for determining beam information, terminal and network side equipment

Info

Publication number: CN115835278A
Application number: CN202111082218.2A
Authority: CN
Inventors: 杨宇
Original assignee: Vivo Software Technology Co Ltd
Current assignee: Vivo Software Technology Co Ltd
Priority date: 2021-09-15
Filing date: 2021-09-15
Publication date: 2023-03-21
Also published as: WO2023040979A1

Abstract

The application discloses a method, a terminal and a network side device for determining beam information, which belong to the technical field of wireless communication, and the method for determining the beam information comprises the following steps: the terminal measures the signal quality on a target RS resource to be measured according to the received configuration information, wherein the target RS resource to be measured corresponds to a first object and a second object; the terminal determines first beam information of the first object and second beam information of the second object according to the measurement result; the terminal reports a target beam report based on the first beam information and the second beam information, wherein the target beam report comprises the first beam information and/or the second beam information; the terminal receives a first target beam indication signaling sent by network side equipment; and the terminal determines first target beam information of the first object and second target beam information of the second object according to the first target beam indication signaling.

Description

Method for determining beam information, terminal and network side equipment

Technical Field

The application belongs to the technical field of wireless communication, and particularly relates to a method for determining beam information, a terminal and network side equipment.

Background

When the bandwidth of one frequency band is large, a beam squint phenomenon may occur due to a difference in signal propagation characteristics at different frequency positions. For example, a large bandwidth frequency band edge frequency point and a large bandwidth frequency band center frequency point have a deviation in a beam direction, and when a network performs beam training according to the center frequency point and selects an optimal beam, the optimal beam is used to transmit a channel in a full bandwidth, and the beam direction at the edge frequency point will have a deviation, so that the quality of a beam link will also deteriorate.

The concepts of Independent Beam Management (IBM) and Common Beam Management (CBM) were introduced in the Third Generation Partnership Project (3 GPP) to describe two different modes of operation under inter-band Carrier Aggregation (CA) for Frequency Range (FR) 2.

The IBM refers to User Equipment (UE) that can independently select an optimal beam through independent beam management, where a Primary Component Carrier (PCC) and a Secondary Component Carrier (SCC) can independently select the optimal beam. In this case, different CCs may have relatively optimal transceiving performance, but the disadvantage is that signaling overhead is large and the architecture design of the UE is more complicated.

The CBM means that the UE performs a beam management process only by the PCC, and the SCC directly applies the configuration of the PCC. The method has the advantages of saving signaling overhead, simplifying the UE structure and reducing the cost. However, since FR2 employs hybrid beamforming, in this configuration, the beams of the PCC and the SCC are configured by using the same phase shifter, which may cause the beam pointing direction of the SCC to be deviated from the PCC to a certain degree, resulting in so-called "beam squint" and performance degradation.

As can be seen, the beam squint phenomenon may cause the performance of the beam link to be degraded when the bandwidth is large or the frequency band is crossed, and therefore, if the beam management result of the PCC is directly applied to the SCC, the beam link between the network and the UE may be misaligned on the SCC, resulting in poor performance.

Disclosure of Invention

The embodiment of the application provides a method for determining beam information, a terminal and a network side device, which can solve the problem of inaccurate beam link between a network and a UE due to beam squint.

In a first aspect, a method for determining beam information is provided, including: the terminal measures the Signal quality on a Reference Signal (RS) resource to be measured according to the received configuration information, wherein the RS resource to be measured corresponds to a first object and a second object; the terminal determines first beam information of the first object and second beam information of the second object according to the measurement result; the terminal reports a target beam report based on the first beam information and the second beam information, wherein the target beam report comprises the first beam information and/or the second beam information; the terminal receives a first target beam indication signaling sent by network side equipment; and the terminal determines first target beam information of the first object and second target beam information of the second object according to the first target beam indication signaling.

In a second aspect, an apparatus for determining beam information is provided, including: the device comprises a first measurement module, a second measurement module and a third measurement module, wherein the first measurement module is used for measuring the signal quality on a target RS resource to be measured according to received configuration information, and the target RS resource to be measured corresponds to a first object and a second object; a first determining module, configured to determine first beam information of the first object and second beam information of a second object according to a measurement result; a first sending module, configured to report a target beam report based on the first beam information and the second beam information, where the target beam report includes the first beam information and/or the second beam information; the first receiving module is used for receiving a first target beam indication signaling sent by network side equipment; a second determining module, configured to determine, according to the first target beam indication signaling, first target beam information of the first object and second target beam information of the second object.

In a third aspect, a method for determining beam information is provided, including: the method comprises the steps that network side equipment sends configuration information to a terminal, wherein the configuration information configures target RS resources to be measured for the terminal, and the target RS resources to be measured correspond to a first object and a second object; the network side equipment receives a target beam report reported by the terminal, wherein the target beam report comprises the first beam information and/or the second beam information; the network side device sends a first target beam indication signaling to the terminal based on the target beam report, where the first target beam indication signaling is used for enabling the terminal to determine first target beam information on the first object and second target beam information on the second object.

In a fourth aspect, an apparatus for determining beam information is provided, including: a second sending module, configured to send configuration information to a terminal, where the configuration information configures a target RS resource to be measured for the terminal, where the target RS resource to be measured corresponds to a first object and a second object; a second receiving module, configured to receive a target beam report reported by the terminal, where the target beam report includes the first beam information and/or the second beam information; a third transmitting module, configured to transmit first target beam indication signaling to the terminal based on the target beam report, where the first target beam indication signaling is used for the terminal to determine first target beam information on the first object and second target beam information on the second object.

In a fifth aspect, there is provided a terminal comprising a processor, a memory, and a program or instructions stored on the memory and executable on the processor, which when executed by the processor, performs the steps of the method according to the first aspect.

In a sixth aspect, a terminal is provided, which includes a processor and a communication interface, where the processor is configured to implement the steps of the method according to the first aspect, and the communication interface is configured to communicate with a network-side device.

In a seventh aspect, a network-side device is provided, which includes a processor, a memory, and a program or an instruction stored on the memory and executable on the processor, and when executed by the processor, the program or the instruction implements the steps of the method according to the third aspect.

In an eighth aspect, a network side device is provided, which includes a processor and a communication interface, where the processor is configured to implement the steps of the method according to the third aspect, and the communication interface is configured to communicate with a terminal.

In a ninth aspect, there is provided a readable storage medium on which is stored a program or instructions which, when executed by a processor, carries out the steps of the method of the first aspect or the steps of the method of the third aspect.

In a tenth aspect, a chip is provided, the chip comprising a processor and a communication interface, the communication interface being coupled to the processor, the processor being configured to execute a program or instructions to implement the steps of the method according to the first aspect or to implement the steps of the method according to the third aspect.

In an eleventh aspect, there is provided a computer program/program product stored in a non-transitory storage medium, the program/program product being executable by at least one processor to implement the steps of the method according to the first aspect, or to implement the steps of the method according to the third aspect.

In this embodiment of the present application, a terminal measures target RS to be measured resources corresponding to a first object and a second object to obtain first beam information of the first object and second beam information of the second object, and reports a target beam report based on the first beam information and the second beam information, where the target beam report includes the first beam information and/or the second beam information, so that a network side device may determine the first target beam information of the first object and the second target beam information of the second object based on the first beam information and/or the second beam information, and instruct the terminal, so that the terminal determines the first target beam information of the first object and the second target beam information of the second object, thereby enabling beam links of the terminal and the network side device on the first object and the second object to be aligned, and avoiding a problem of beam link alignment between a network and a UE due to beam squint.

Drawings

Fig. 1 shows a schematic diagram of a wireless communication system to which embodiments of the present application are applicable;

fig. 2 is a schematic flowchart illustrating a method for determining beam information according to an embodiment of the present application;

Fig. 3 is a schematic flowchart illustrating a method for determining beam information according to an embodiment of the present application;

fig. 4 is a schematic structural diagram illustrating a beam information determining apparatus provided in an embodiment of the present application;

fig. 5 is a schematic structural diagram illustrating another apparatus for determining beam information according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of a communication device provided in an embodiment of the present application;

fig. 7 is a schematic diagram illustrating a hardware structure of a terminal according to an embodiment of the present application;

fig. 8 shows a hardware structure diagram of a network-side device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be described below clearly with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application are within the scope of protection of the present application.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the terms so used are interchangeable under appropriate circumstances such that the embodiments of the application are capable of operation in other sequences than those illustrated or otherwise described herein, and that the terms "first" and "second" used herein generally refer to a class and do not limit the number of objects, for example, a first object can be one or more. In addition, "and/or" in the specification and the claims means at least one of connected objects, and a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

It is noted that the techniques described in the embodiments of the present application are not limited to Long Term Evolution (LTE)/LTE Evolution (LTE-Advanced) systems, but may also be used in other wireless communication systems, such as Code Division Multiple Access (CDMA), time Division Multiple Access (TDMA), frequency Division Multiple Access (FDMA), orthogonal Frequency Division Multiple Access (OFDMA), single-carrier Frequency-Division Multiple Access (SC-FDMA), and other systems. The terms "system" and "network" in the embodiments of the present application are often used interchangeably, and the described techniques can be used for both the above-mentioned systems and radio technologies, as well as for other systems and radio technologies. The following description describes a New Radio (NR) system for purposes of example, and NR terminology is used in much of the description below, but the techniques may also be applied to applications other than NR system applications, such as generation 6 (6) ^th Generation, 6G) communication system.

Fig. 1 shows a schematic diagram of a wireless communication system to which embodiments of the present application are applicable. The wireless communication system includes a terminal 11 and a network-side device 12. Wherein, the terminal 11 may also be called as a terminal Device or a User Equipment (UE), the terminal 11 may be a Mobile phone, a Tablet Personal Computer (Tablet Personal Computer), a Laptop Computer (Laptop Computer) or a notebook Computer, a Personal Digital Assistant (PDA), a palmtop Computer, a netbook, a super-Mobile Personal Computer (UMPC), a Mobile Internet Device (MID), a Wearable Device (Wearable Device) or a vehicle-mounted Device (VUE), a pedestrian terminal (PUE), and other terminal side devices, the Wearable Device includes: smart watches, bracelets, earphones, glasses, and the like. It should be noted that the embodiment of the present application does not limit the specific type of the terminal 11. The network-side device 12 may be a Base Station or a core network, where the Base Station may be referred to as a node B, an evolved node B, an access point, a Base Transceiver Station (BTS), a radio Base Station, a radio Transceiver, a Basic Service Set (BSS), an Extended Service Set (ESS), a node B, an evolved node B (eNB), a home node B, a home evolved node B, a WLAN access point, a WiFi node, a Transmit Receive Point (TRP), or some other suitable term in the field, as long as the same technical effect is achieved, the Base Station is not limited to a specific technical vocabulary, and it should be noted that, in the embodiment of the present application, only the Base Station in the NR system is taken as an example, but a specific type of the Base Station is not limited.

In addition, in the embodiment of the present application, the beam information may also be referred to as: beam information, spatial relationship (spatial relationship) information, spatial domain Transmission filter (spatial domain Transmission filter) information, spatial domain reception filter (spatial domain reception filter) information, spatial filter (spatial filter) information, transmission Configuration Indicator (TCI) state (state) information, quasi co-location (QCL) information, or QCL parameters, etc. The downlink beam information may be generally represented by TCI state information or QCL information. The uplink beam information may be generally represented using TCI state information, QCL information, or spatial relationship information.

And the mentioned antenna panel can also be called as: antenna group, antenna port group, antenna set, antenna port set, beam subset, antenna array, antenna port array, antenna sub array, antenna port sub array, logical entity, antenna entity, or the like.

The identification of the antenna Panel (Panel) may include, but is not limited to: the identifier of the antenna panel, the identifier of the reference signal resource set, the identifier of the TCI state, the identifier of the QCL information, the identifier of the spatial relationship, etc.

The following describes in detail a method for determining beam information provided by embodiments of the present application with reference to the accompanying drawings.

Fig. 2 shows a flowchart of a method for determining beam information in this embodiment, where the method 200 may be executed by a terminal. In other words, the method may be performed by software or hardware installed on the terminal. As shown in fig. 2, the method may include the following steps.

S210, the terminal measures the signal quality on the target RS resource to be measured according to the received configuration information, wherein the target RS resource to be measured corresponds to the first object and the second object.

In the related art, when performing beam measurement, a network side device configures configuration information of a beam report for a terminal, where the configuration information is associated with reference Signal resource setting (RS resource setting), where the setting includes at least one reference Signal resource set (RS resource set), and each set includes at least one RS resource, such as a Synchronization Signal/physical broadcast Channel Signal Block (or Synchronization Signal Block) (Synchronization Signal and PBCH Block, SSB) resource (resource) or a Channel State information reference Signal (CSI-RS) resource. The terminal measures the layer 1 Reference Signal Received Power (RSRP) and/or the layer 1 Signal-to-noise and Interference plus noise Ratio (SINR) of each RS Resource, and reports at least one optimal measurement result to the network, wherein the report content comprises SSB Resource Indicator (SSBRI) or CSI-RS Resource Indicator (CRI), and L1-RSRP and/or L1-SINR. In addition, in the configuration information of the beam report, it may be indicated whether the report is a packet-based beam report. If not, the UE will report at least one optimal beam and its quality for the network side to determine the beam to use to send channels or signals to the UE. If the UE is a packet-based beam report (packet-based beam report), the UE reports a pair of beams and their quality, and when the network side uses the pair of beams to send information to the UE, the UE can receive the information at the same time.

In this embodiment of the present application, the network side device may include a target RS resource to be measured in the configuration information, where the target RS resource to be measured may correspond to the first object and the second object. For example, the target RS resources to be measured may include a first RS resource to be measured corresponding to the first object and a second RS resource to be measured corresponding to the second object, or the target RS resources to be measured may also include a third RS resource to be measured corresponding to both the first object and the second object.

The target RS resource to be measured includes a first RS resource to be measured corresponding to the first object and a second RS resource to be measured corresponding to the second object, where the identifiers of the setting/set/resource/group of the RS resource to be measured configured for the first object and the RS resource to be measured configured for the second object by the network side device are different, for example, setting (setting) 1 is configured for the first object, and setting2 is configured for the second object. The target RS resource to be measured including the third RS resource to be measured corresponding to the first object and the second object at the same time means that the identifiers of the setting/set/resource/groups of the RS resources configured for the first object and the second object by the network side device are the same, or the RS resources configured for the network side device do not distinguish different objects. For example, RS resource setting1 is configured for both the first object and the second object, but the same RS resource may have different frequency domains on different objects, such as the time-frequency position of the same RS resource on the first object and the time-frequency position on the second object are converted to different positions according to the time-frequency parameters of each object.

When the target RS resource to be measured includes a first RS resource to be measured corresponding to the first object and a second RS resource to be measured corresponding to the second object, the network side device may configure, in the configuration information, the first RS resource to be measured corresponding to the first object and the second RS resource to be measured corresponding to the second object. For example, the configuration information received by the terminal may include configuration information of a CSI report, for example, CSI-ReportConfig, and the configuration information of the CSI report includes a first RS resource to be measured corresponding to the first object and a second RS resource to be measured corresponding to the second object.

Taking the first object as an example, the first RS resource to be measured corresponding to the first object may include one of the following:

(1) A first RS resource to be measured in a first RS resource set (resource set) to be measured corresponding to a first object; or,

(2) A first RS resource to be measured in a first RS resource setting (resource configuration or resource setting) to be measured corresponding to the first object;

(3) And a first RS resource to be measured in the first RS resource group to be measured corresponding to the first object.

The corresponding relation between the first object and the first to-be-measured RS resource can be determined in the following way:

(1) Adding a number or an ID of a first object to the first RS resource to be measured, the first RS resource to be measured setting, the first RS resource set to be measured (set), or the first RS resource group to be measured, for example, adding a number or an ID of a first object to the reference signal resource setting (setting), or the RS resource set included in the RS resource setting, or the RS resource in the RS resource set, or the description information of the RS resource group includes a number or an ID of a first object, and using the RS resource setting, the RS resource set, the RS resource group, or the RS resource group to correspond to the first object;

(2) Configuring a first RS resource to be measured, a first RS resource setting to be measured, a first RS resource set (set) to be measured or a first RS resource group to be measured in the configuration information of the first object; that is, the first RS resource to be measured corresponding to the first object is configured in the configuration information of the first object, where the configuration information may be one or more RS resources, or may be one RS resource setting, that is, all RS resources in the RS resource setting are indicated to correspond to the first object, or may also be one or more RS resource sets or RS resource groups.

(3) The configuration information of the CSI report includes the first RS resource to be measured, the setting of the first RS resource to be measured, the set (set) of the first RS resource to be measured, or the association or mapping relationship between the first RS resource group to be measured and the number or ID of the first object.

(4) The network side device indicates, through signaling, an association or mapping relationship between the first RS resource to be measured, the first RS resource to be measured setting, the first RS resource set to be measured (set), or the number or ID of the first RS resource set to be measured and the first object, for example, the network side device indicates the association or mapping relationship through a Medium Access Control (MAC) Control Element (CE) or DCI.

Wherein the first object and the second object may respectively include, but are not limited to, one of: (1) a cell (cell); (2) Bandwidth Part (BWP); (3) sub-band; (4) frequency band (band); (5) Transmitting a Reception Point (TRP); (6) a terminal panel (UE panel); and (7) carrying waves.

That is, a first object may be a cell, BWP, subband, band, TRP, UE panel or carrier, or any combination thereof, and likewise, a second object may be a cell, BWP, subband, band, TRP, UE panel or carrier, or any combination thereof. For example, the first object may be a first cell and the second object may be a second cell; alternatively, the first object may be a first carrier, the second object may be a second carrier, and so on.

S212, the terminal determines first beam information of the first object and second beam information of the second object according to the measurement result.

S214, the terminal reports a target beam report based on the first beam information and the second beam information, where the target beam report includes the first beam information and/or the second beam information.

S216, the terminal receives a first target beam indication signaling sent by the network side equipment.

S218, the terminal determines, according to the first target beam indication signaling, first target beam information of the first object and second target beam information of the second object.

The terminal measures target RS resources to be measured corresponding to a first object and a second object to obtain first beam information of the first object and second beam information of the second object, and reports a target beam report based on the first beam information and the second beam information, wherein the target beam report comprises the first beam information and/or the second beam information, so that a network side device can determine the first target beam information of the first object and the second target beam information of the second object based on the first beam information and/or the second beam information, and indicate a terminal through a first target beam indication signaling, and the terminal determines the first target beam information of the first object and the second target beam information of the second object according to the first target beam indication signaling, so that beam links of the terminal and the network side device on the first object and the second object can be aligned, and the problem that beam links between the network and the UE are not aligned due to beam squint is avoided.

The technical solutions provided in the embodiments of the present application are described below by taking as examples that the target RS resources to be measured include a first RS resource to be measured corresponding to the first object and a second RS resource to be measured corresponding to the second object, and the target RS resources to be measured may also include a third RS resource to be measured corresponding to both the first object and the second object.

The target RS resource to be measured comprises a first RS resource to be measured corresponding to the first object and a second RS resource to be measured corresponding to the second object

In a case that the target RS resource to be measured includes a first RS resource to be measured corresponding to the first object and a second RS resource to be measured corresponding to the second object, the configuration information may include measurement timing information of the first RS resource to be measured and measurement timing information of the second RS resource to be measured. For example, at least one of time or time window information, measured switching time information, measured pattern information, and the like of the first RS resource to be measured and the second RS resource to be measured is measured.

In a possible implementation manner, in S210, measuring the signal quality on the target RS resource to be measured when the target RS resource to be measured includes a first RS resource to be measured corresponding to the first object and a second RS resource to be measured corresponding to the second object, may include: and the terminal respectively measures the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured at different time. Namely, the terminal measures the first RS resource to be measured and the second RS resource to be measured at different times.

In the foregoing possible implementation manner, the network side device may dynamically instruct the terminal to measure the first RS resource to be measured and/or the second RS resource to be measured, and therefore, optionally, the separately measuring, by the terminal, the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured at different times includes: the terminal measures the signal quality of the first RS resource to be measured under the condition of receiving a first indication signaling sent by network side equipment, wherein the first indication signaling indicates that the signal quality of the first RS resource to be measured is measured; and/or the terminal measures the signal quality of the second RS resource to be measured under the condition of receiving a second indication signaling sent by the network side equipment, wherein the second indication signaling indicates that the signal quality of the second RS resource to be measured is measured. Namely, the terminal measures the signal quality on the first RS resource to be measured under the condition of receiving the first indication signaling, and measures the signal quality on the second RS resource to be measured under the condition of receiving the second indication signaling.

Or, the terminal may measure the signal quality on all the second RS resources to be measured after measuring the signal quality on all the first RS resources to be measured.

Or, the terminal may alternately measure the signal quality of the first RS resource to be measured and the signal quality of the second RS resource to be measured. For example, the terminal measures the signal quality on the first RS resource in the first RS resource to be measured, then measures the signal quality on the first RS resource in the second RS resource to be measured, then measures the signal quality on the second RS resource in the first RS resource to be measured, then measures the signal quality on the second RS resource in the second RS resource to be measured, and so on, alternately.

Or, the terminal may also measure the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured simultaneously. Optionally, the terminal may measure the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured, under the condition of receiving a third indication signaling sent by the network side device.

In one possible implementation manner, in order to improve the accuracy of the measurement, in S210, the terminal measures the signal quality on the target reference signal to be measured RS resource according to the received configuration information, and may further include: the terminal determines beam information used for measuring a second target RS resource according to a measurement result corresponding to a first target RS resource and/or a target beam report corresponding to the first target RS resource, wherein the first target RS resource comprises the first RS resource to be measured, the second target RS resource comprises the second RS resource to be measured, or the first target RS resource comprises the second RS resource to be measured, and the second target RS resource comprises the first RS resource to be measured.

For example, in the first time period, the UE measures CSI-RS resource set1 on band1, and determines the CSI-RS resource1 with the best quality after the measurement. In the second time period, when the UE measures CSI-RS resource set2 on band2, the beam information of each CSI-RS resource in CSI-RS resource set2 may be determined according to the beam information of the measured CSI-RS resource1. For example, the Rx beam1 used by the UE when measuring CSI-RS resource1 and the Tx beam1 used by the network side device when transmitting CSI-RS resource1 may be used by the UE when measuring each CSI-RS resource in CSI-RS resource set2, the UE may use the Rx beam1 or its neighboring Rx beam2 to measure each CSI-RS resource in CSI-RS resource set2, and the network side device may use the Tx beam1 or its neighboring Tx beam2 to transmit each CSI-RS resource in CSI-RS resource set 2. In this way, the beam measurement results on the two bands can be used for reference, and the final determined beam information on the two bands can be optimized as much as possible.

(II) the target RS resource to be measured includes a third RS resource to be measured corresponding to the first object and the second object at the same time

In another possible implementation manner, the terminal performs measurement on the first object and the second object respectively to obtain a first measurement result of the first object and a second measurement result of the second object. These two implementations are explained separately below.

1. Joint measurement

In this possible implementation manner, the first object and the second object are associated or configured with a same third RS resource to be measured, and when the terminal measures the signal quality on the third RS resource to be measured, for one RS resource in the third RS resource to be measured, the terminal measures a statistical average value of the RS resource on the first object and the second object. For example, assuming that the third RS resource to be measured includes 16 RS resources, the terminal may measure to obtain 16 average values, and then select 4 RS resources with better measurement results as joint measurement results to report.

In this possible implementation manner, optionally, the network side device may dynamically instruct the terminal to perform joint measurement, and therefore, according to the received configuration information, the measuring, by the terminal, the signal quality on the target reference signal to be measured RS resource may include: and under the condition that the terminal receives a fourth indication signaling sent by network side equipment, measuring the signal quality on the third RS resource to be measured corresponding to the first object and the second object to obtain the combined measurement result.

In a possible implementation manner, the terminal reports according to the joint measurement result, and the first beam information and/or the second beam information included in the reported beam report are/is common beam information of the first object and the second object. Therefore, in one possible implementation, the determining, by the terminal according to the measurement result, the first beam information of the first object and the second beam information of the second object may include: the terminal determines common beam information of the first object and the second object according to a measurement result of the third RS resource to be measured corresponding to the first object and the second object. The reporting, by the terminal, a target beam report based on the first beam information and the second beam information may include: and the terminal reports a target beam report, wherein the target beam report comprises the shared beam information.

In one possible implementation manner, the terminal may be capable of simultaneously using a first beam on the first object and a second beam on the second object, where the first beam and the second beam are beams corresponding to any one of the common beam information.

In a possible implementation manner, since the terminal reports the common beam information of the first object and the second object, the network side device sends, according to the common beam information, the first target beam indication signaling to indicate the target common beam information of the first object and the second object, that is, to indicate or activate the target common beam information of the first object and the second object. Therefore, in this possible implementation manner, the first target beam indication signaling may carry target common beam information; the determining, by the terminal according to the first target beam indication signaling, first target beam information of the first object and second target beam information of the second object includes: the terminal determines that the first target beam information of the first object and the second target beam information of the second object are both the target common beam information.

In one possible implementation, the method further comprises at least one of:

(1) Activating or jointly using the first object and the second object in case the signal quality on the third RS resource to be measured meets a first preset condition; for example, when L1-RSRP obtained by the terminal performing joint measurement on at least one third RS resource to be measured reaches a preset first threshold, the terminal may activate the first object and the second object or jointly use the first object and the second object.

In an embodiment of the present application, the joint use of the first object and the second object means that the terminal uses a common beam information transmission channel on the first object and the second object.

(2) Under the condition that the signal quality on the third RS resource to be measured meets a first preset condition, sending a first notification to network side equipment, wherein the first notification indicates that the first object and the second object are in an activated state or a combined use state; for example, when the L1-RSRP obtained by the terminal performing the joint measurement on at least one third RS resource to be measured reaches a preset first threshold, the terminal may activate the first object and the second object or jointly use the first object and the second object, and notify the network side device. The first notification may be carried in the beam report or may be sent separately, and the embodiment of the present application is not limited in this embodiment.

(3) And sending a second notification to network side equipment under the condition that the signal quality on the third RS resource to be measured meets a first preset condition, wherein the second notification indicates that the signal quality on the third RS resource to be measured meets the first preset condition. The second notification may be carried in the beam report or may be sent separately, and the embodiment of the present application is not limited in this embodiment.

(4) Deactivating the first object and the second object or canceling the joint use of the first object and the second object in a case where the signal quality on the third RS resource to be measured does not satisfy a first preset condition. For example, when L1-RSRP on the third RS resource to be measured is lower than a preset second threshold, the terminal may deactivate the first object and the second object or cancel the joint use of the first object and the second object.

In this possible implementation manner, in a case that the signal quality on the third RS resource to be measured does not satisfy the first preset condition, the terminal may deactivate the first object and the second object, or may cancel the joint use of the first object and the second object, that is, different beam information transmission channels are used on the first object and the second object, respectively.

(5) And sending a third notification to a network side device when the signal quality on the third RS resource to be measured does not meet a first preset condition, wherein the third notification indicates that the first object and the second object are in a deactivated state or in a non-joint use state. The third notification may be carried in the beam report or may be sent separately, and the embodiment of the present application is not limited in particular.

(6) Sending a fourth notification to network side equipment under the condition that the signal quality on the third RS resource to be measured does not meet a first preset condition, wherein the fourth notification indicates that the signal quality on the third RS resource to be measured does not meet the first preset condition; the fourth notification may be carried in the beam report or may be sent separately, and the embodiment of the present application is not limited in particular.

(7) Activating the first object and the second object or jointly using the first object and the second object in case that the signal quality of the common beam information satisfies a second preset condition. For example, when the common beam information, L1-RSRP, reaches a preset third threshold, the terminal may activate the first object and the second object or jointly use the first object and the second object.

(8) Sending the first notification to a network side device when the signal quality of the common beam information meets a second preset condition; for example, when the common beam information, that is, L1-RSRP, reaches a preset third threshold, the terminal may activate the first object and the second object or jointly use the first object and the second object, and send the first notification to the network side device. The terminal may select, in the beam report, a common beam information report whose signal quality satisfies a second preset condition to notify the network side device. Alternatively, the terminal may also transmit the first notification exclusively to the network-side device.

(9) And sending a fifth notification to a network side device when the signal quality of the common beam information meets a second preset condition, wherein the fifth notification indicates that the signal quality of the common beam information meets the second preset condition.

(10) And when the signal quality of the common beam information does not satisfy a second preset condition, deactivating the first object and the second object or not jointly using the first object and the second object.

(11) And sending the third notification to a network side device when the signal quality of the common beam information does not satisfy a second preset condition.

(12) And sending a sixth notification to the network side device when the signal quality of the common beam information does not satisfy a second preset condition, wherein the sixth notification indicates that the signal quality of the common beam information does not satisfy the second preset condition.

(13) The terminal activates the first object and the second object or jointly uses the first object and the second object in case that performance of transmitting a channel or a reference signal using the target common beam information satisfies a third preset condition.

(14) And the terminal sends the first notification when the performance of the target shared beam information transmission channel or the reference signal meets a third preset condition.

(15) And under the condition that the performance of the target shared beam information transmission channel or the reference signal meets a third preset condition, the terminal sends a seventh notification to network side equipment, wherein the seventh notification indicates that the performance of the terminal using the target shared beam information transmission channel or the reference signal meets the third preset condition.

(16) The terminal deactivates the first object and the second object or does not jointly use the first object and the second object in case the performance of using the target common beam information transmission channel or the reference signal does not satisfy a third preset condition.

(17) And the terminal sends the third notification when the performance of the target shared beam information transmission channel or the reference signal does not meet a third preset condition.

(18) Under the condition that the performance of the target shared beam information transmission channel or the reference signal does not meet a third preset condition, the terminal sends an eighth notification to network side equipment, wherein the eighth notification indicates that the performance of the terminal using the target shared beam information transmission channel or the reference signal does not meet the third preset condition;

(19) And the terminal activates the first object and the second object or jointly uses the first object and the second object according to a first signaling sent by network side equipment. The network side device may determine and instruct to activate the first object and the second object or jointly use the first object and the second object according to a target beam report sent by the terminal or the at least one notification sent by the terminal.

(20) And the terminal deactivates the first object and the second object or does not jointly use the first object and the second object according to a second signaling sent by the network side equipment. The network side device may determine and instruct to deactivate the first object and the second object or not to jointly use the first object and the second object according to a target beam report sent by the terminal or the at least one notification sent by the terminal.

2. Separately measure

In the respective measurements, the terminal may measure the third RS resource to be measured corresponding to the first object and the third RS resource to be measured corresponding to the second object at different times.

In one possible implementation manner, the terminal uses a first measurement result obtained on the third RS resource to be measured at a first time as the measurement result of the first object, and uses a second measurement result obtained on the third RS resource to be measured at a second time as the measurement result of the second object, where the first time is different from the second time.

Optionally, the network side device may dynamically instruct the terminal to perform measurement, and in this possible implementation manner, the measuring, by the terminal, the signal quality on the RS resource of the target reference signal to be measured according to the received configuration information includes:

the terminal measures the signal quality on the third RS resource to be measured corresponding to the first object under the condition of receiving a fifth indication signaling sent by network side equipment, and obtains a first measurement result;

and under the condition that the terminal receives a sixth indication signaling sent by network side equipment, measuring the signal quality on the third RS resource to be measured corresponding to the second object to obtain a second measurement result.

Or, the terminal may measure the signal quality on all the third RS resources to be measured corresponding to the second object after measuring the signal quality on all the third RS resources to be measured corresponding to the first object; alternatively, the terminal may alternately measure the signal quality of the third RS resource to be measured corresponding to the first object and the signal quality on the third RS resource to be measured corresponding to the second object. For example, the terminal measures a first RS resource among the third RS resources to be measured corresponding to the first object for a first time period, measures a first RS resource among the third RS resources to be measured corresponding to the second object for a next time period, then measures a second RS resource among the third RS resources to be measured corresponding to the first object for a next time period, and measures a second RS resource among the third RS resources to be measured corresponding to the second object for a next time period, and so on, repeatedly and alternately until the signal quality on all the third RS resources to be measured corresponding to the first object and the signal quality on all the third RS resources to be measured corresponding to the second object are measured.

In the foregoing possible implementation manner, the terminal may determine, according to a measurement result of the last measurement of the third RS resource to be measured corresponding to the first target object and/or a beam report of the measurement of the third RS resource to be measured corresponding to the first target object, beam information used for measuring the third RS resource to be measured corresponding to the second target object, where the first target object includes the first object and the second target object includes the second object, or the first target object includes the second object and the second target object includes the first object.

For example, in the first time period, the UE measures CSI-RS resource set1 on band1, and determines the CSI-RS resource1 with the best quality after the measurement. In the second time period, when the UE measures CSI-RS resource set1 on band2, the beam information of each CSI-RS resource in CSI-RS resource set1 on measurement band2 may be determined according to the beam information of measuring CSI-RS resource1. For example, rx beam1 used by the UE when measuring CSI-RS resource1 on band1 and Tx beam1 used by the network side device when transmitting CSI-RS resource1 may be used, when measuring each CSI-RS resource in CSI-RS resource set1 on band2, the UE may use Rx beam1 or Rx beam2 in the adjacent direction thereof to measure each CSI-RS resource on band2, and the network side device may use Tx beam1 or Tx beam2 in the adjacent direction thereof to transmit each CSI-RS resource on band 2. In this way, the beam measurement results on the two bands can be used for reference, and the final determined beam information on the two bands can be optimized as much as possible.

Or, in another possible implementation manner, the terminal may also measure a first signal quality and a second signal quality at the same time, where the first signal quality is a signal quality on the third RS resource to be measured corresponding to the first object, and the second signal quality is a signal quality on the third RS resource to be measured corresponding to the second object.

Optionally, the network side device may dynamically instruct the terminal to measure the first signal quality and the second signal quality, and therefore, the terminal may measure the first signal quality and the second signal quality when receiving a seventh indication signaling sent by the network side device.

In this possible implementation manner, optionally, the configuration information includes measurement timing information of the third RS resource to be measured corresponding to the first object and measurement timing information of the third RS resource to be measured corresponding to the second object.

Optionally, in a case that the first beam information and the second beam information are included in the target beam report, the target beam report further indicates that the first beam information corresponds to the first object, and the second beam information corresponds to the second object.

Optionally, the target beam report indicates that the first beam information corresponds to the first object and the second beam information corresponds to the second object, including one of:

(1) The target beam report includes a first beam report, where the first beam report carries the first beam information, the second beam information, identification information of the first object corresponding to the first beam information, and identification information of the second object corresponding to the second beam information.

For example, the numbers or identities of the first object and the second object are carried in the first beam report.

In this possible implementation, each beam information (e.g., SSBRI or CRI) in the first beam report corresponds to an identifier of the same or different RS resource. For example, the following information may be carried in the first beam report: { CRI1, CRI2, CRI3, CRI4}, { L1-RSRP1, L1-RSRP2, L1-RSRP3, L1-RSRP4}, { band1, band1, band1, band2}, indicating that the reported L1-RSRPs of CRI1, CRI2 and CRI3 on band1 are L1-RSRP1, L1-RSRP2 and L1-RSRP3 respectively, and the L1-RSRP of CRI4 on band2 is L1-RSRP4.

(2) And the first beam information and the second beam information are carried in the first beam report according to a preset arrangement order or position of the first object and the second object.

In this possible implementation manner, the first beam report does not include the identifiers of the first object and the second object, and the objects corresponding to the respective beam information are determined according to the arrangement order or the positions of the first beam information and the second beam information in the first beam report.

For example, the following information may be included in the first beam report: { CRI1, CRI2} { CRI3, CRI4} { L1-RSRP1, L1-RSRP2} { L1-RSRP3, L1-RSRP4}, wherein CRI1, CRI2 and L1-RSRP1, L1-RSRP2 correspond to band1, CRI3, CRI4 and L1-RSRP3, and L1-RSRP4 corresponds to band2.

(3) The target beam report includes a second beam report and a third beam report, wherein the second beam report carries the first beam information and the third beam report carries the second beam information. I.e. the first beam information and the second beam information are reported separately by different beam reports.

In the above possible implementation manner, the terminal may use the CBM mode, and the terminal may use the first beam and the second beam simultaneously. In one possible implementation manner, the first beam is a beam corresponding to any one of the first beam information, and the second beam is a beam corresponding to any one of the second beam information. I.e., any one of the first beam information may be associated with any one of the second beam information.

Wherein, for the first beam and the second beam which can be used by the terminal simultaneously, the terminal can receive information by using the first beam and the second beam simultaneously in downlink, and the network side device can transmit information by using the first beam and the second beam simultaneously.

Or, in another possible implementation manner, the associated first beam information and second beam information may be carried in the first beam report according to a first preset rule, or may be carried in the second beam report and the third beam report respectively according to a second preset rule. Thus, optionally, the first beam report carries the first beam information and the second beam information, including: carrying beam information of a first beam and beam information of a second beam in the first beam report according to a first preset rule; or, the second beam report carries the first beam information, and the third beam report carries the second beam information, including: according to a second preset rule, carrying the beam information of the first beam in the second beam report and carrying the beam information of the second beam in the third beam report; wherein the first beam and the second beam are two beams that can be used by the terminal at the same time, the beam information of the first beam is one of one or more pieces of the first beam information, and the beam information of the second beam is one of one or more pieces of the second beam information.

Optionally, the first preset rule may include one of: a preset sequence corresponding relation and a preset position corresponding relation; for example, the first bit of beam information ranked in the first beam information is associated with the first bit of beam information ranked in the second beam information, or the first bit of beam information ranked in the first beam information may be associated with the first and second bit of beam information ranked in the second beam information, respectively. For example, the following information may be included in the first beam report: { CRI1, CRI2} { CRI3, CRI4} { L1-RSRP1, L1-RSRP2} { L1-RSRP3, L1-RSRP4}, respectively, then CRI1 and CRI3 corresponding to the first object and the second object and ranked first, and CRI2 and CRI4 corresponding to the first object and the second object and ranked second, are associated.

Alternatively, the first preset rule may be that the beam information of the first beam and the beam information of the second beam are carried adjacently. For example, the beam information included in the first beam report is { CRI1, CRI3, CRI2, CRI4}, where CRI1 and2 correspond to band1, CRI3 and 4 correspond to band2, CRI1 and CRI3 are associated, and CRI2 and CRI4 are associated.

Optionally, the second preset rule includes: a preset sequence corresponding relationship or a preset position corresponding relationship. For example, the first bit of beam information arranged in the second beam report may be associated with the first bit of beam information arranged in the third beam report, or the first bit of beam information arranged in the second beam report may be associated with the first and second bits of beam information arranged in the third beam report, respectively. For example, the following information may be included in the second beam report: { CRI1, CRI2} { L1-RSRP1, L1-RSRP2}, the following information may be included in the third beam report: { CRI3, CRI4} { L1-RSRP3, L1-RSRP4}, CRI1 and CRI3 ranked first and CRI2 and CRI4 ranked second, respectively, are associated.

Optionally, the first target beam indication signaling may carry the first target beam information and/or the second target beam information.

In a possible implementation manner of the embodiment of the present application, the first target beam instruction may carry first target beam information of a first object, in which case, the terminal determines that the target beam information of the first object is the first target beam information carried by the first target beam indication signaling, and then the terminal may determine, according to the first target beam information, second target beam information of the second object.

In another possible implementation manner, the first target beam instruction may carry second target beam information of a second object, in which case, the terminal determines that the target beam information of the second object is the first target beam information carried by the first target beam indication signaling, and then, the terminal may determine the first target beam information of the first object according to the second target beam information.

In the two possible implementation manners, the terminal may determine, according to the correspondence between the first target beam information and the second target beam information, the target beam information being indicated in advance by the network side device or specified by a protocol, the other target beam information according to one of the target beam information.

In yet another possible implementation manner, the first target beam instruction may carry first target beam information of a first object and second target beam information of a second object, and the terminal determines that the target beam information of the first object is the first target beam information carried in the first target beam indication signaling, and the target beam information of the second object is the second target beam information carried in the first target beam indication signaling. For example, the first target beam indication signaling may carry an identifier of a first object and the first target beam information, and an identifier of a second object and the second target beam information.

In the foregoing possible implementation manner, the first target beam information is one of a first beam pool configured for the first object by the network side device; the second target beam information on the second object is one of the first beam pools, or the second target beam information on the second object is one of second beam pools configured by the network side device for the second object. For example, the first target beam indication signaling may include TCI state or spatial relationship information, where the TCI state or spatial relationship information is a pool (pool) configured by the network side device, and the pool may be configured to correspond to the first object only. And the second object may use a pool configured on the first object; or the second target beam information of the second object is determined by the network side device by measuring the SSB, CSI-RS, and SRS of the second object, and may be a pool configured by the network side device corresponding to the second object.

In the above possible implementation manner, the first target beam information may include identification information of the first target beam, for example, an ID or a number, such as tcistald. The second target beam information may include identification information of the second target beam, for example, an ID or a number, etc. Such as tcistatid.

In this embodiment, the first target beam indication signaling may be used to indicate or activate first target beam information of a first object and second target beam information of a second object, for example, to instruct a terminal to communicate with a network-side device on the first object using the first target beam information, and communicate with the network-side device on the second object using the second target beam information.

Optionally, after the terminal reports a target beam report, the method further includes: the terminal updates beam information of a first target object or updates RS resources to be measured of the first target object, wherein the first target object comprises: at least one of the first object and the second object.

Optionally, the terminal updates beam information of the first target object or updates RS resources to be measured of the first target object, including one of:

The terminal updates the beam information of the first object according to the first beam information, or updates the RS resource to be measured of the first object according to the first beam information;

the terminal updates the beam information of the second object according to the second beam information, or updates the RS resource to be measured of the second object according to the second beam information;

the terminal updates the beam information of the first object according to the first beam information and updates the beam information of the second object according to the second beam information; or, the terminal updates a first RS resource to be measured of the first object according to the first beam information, and updates a second RS resource to be measured of the second object according to the second beam information.

The terminal may automatically perform the update after reporting the target beam report, or may perform the update after receiving the second target beam indication signaling. Therefore, optionally, the updating, by the terminal, beam information of the first target object or updating RS resources to be measured of the first target object may include:

the terminal receives a second target beam indication signaling sent by network side equipment, wherein the second target beam indication signaling indicates to update beam information of the first target object or update an RS resource to be measured of the first target object;

And the terminal updates the beam information of the first target object or updates the RS resource to be measured of the first target object according to the second target beam indication signaling.

That is, in the above possible implementation manners, the network side device may instruct to update the beam information of the first object and/or the second object, or update the RS resources to be measured of the first object and/or the second object. For example, the configuring, by the network side device, the first RS resource to be measured corresponding to the first object includes: the terminal measures a first RS resource to be measured, selects 2 CSI-RS resources with better quality according to measurement results, reports CRI1 and CRI2 in a beam report, and corresponds to CRI1 and CRI2 UE Rx beam1 and Rx beam2, the network side equipment sends a second target beam indication signaling according to the beam report, the second target beam indication signaling carries first target beam information of a first object, for example, the first target beam information is TCIstate1, and the sourceRS of TCIstate1 is CSI-RSResource1, namely the terminal updates the first target beam information of the first object to TCIstate1, and uses the RxSourceam (RxSourcam 1) of the sourceRS (CSI-RSResource 1) to transmit CSI-RSResource1 to the network, so that the terminal can only need to transmit the first target beam information of the first object to be RSResource1, and can save the next measurement of the RSResource resources, and accordingly, the terminal can measure the next RSResource resources.

In practical application, the second target beam indication signaling and the first target beam indication signaling may be the same signaling, that is, the beam indication signaling is used for indicating, activating and updating beam information; alternatively, the second target beam indication signaling and the first target beam indication signaling may not be the same signaling, and the embodiment of the present application is not limited in this embodiment.

In a possible implementation manner, the second target beam indication signaling may carry first target beam information of the first object but not carry second target beam information of a second object, and in this case, the terminal may update the beam information of the first object to the first target beam information or update the RS resource to be measured of the first object to an RS resource corresponding to the first target beam information. Or, the terminal may update the beam information of the first object to the first target beam information or update the RS resource to be measured of the first object to an RS resource corresponding to the first target beam information, determine second target beam information of the second object according to the first target beam information, update the beam information of the second object to the second target beam information or update the RS resource to be measured of the second object to an RS resource corresponding to the second target beam information. For example, the terminal may determine, according to the beam information of the first object and the beam information of the second object that can be used simultaneously and reported in the target beam report according to the preset rule, the second target beam information that can be used simultaneously with the first target beam information according to the first target beam information. Or, a preset corresponding relationship exists between the first target beam information and the second target beam information, where the corresponding relationship may be indicated by the network side device, or may also be agreed by a protocol, for example, the protocol is agreed or the network side device configures offset information between the first target beam information and the second target beam information, and the terminal may determine the corresponding second target beam information according to the first target beam information.

In another possible implementation manner, the second target beam indication signaling may also carry second target beam information of the second object but not carry first target beam information of the first object, in which case, the terminal may update the beam information of the second object to the second target beam information or update the RS resource to be measured of the second object to an RS resource corresponding to the second target beam information. Or, the terminal may update the beam information of the second object to the second target beam information or update the RS resource to be measured of the second object to an RS resource corresponding to the second target beam information, and determine the first target beam information of the first object according to the second target beam information, update the beam information of the first object to the first target beam information or update the RS resource to be measured of the first object to an RS resource corresponding to the first target beam information. For example, a preset corresponding relationship exists between the first target beam information and the second target beam information, where the corresponding relationship may be indicated by the network side device, or may also be agreed by a protocol, or a pair of beam information that can be used simultaneously and is reported by the target beam report according to a preset rule, for example, the agreement is agreed by the protocol or the network side device configures offset information between the first target beam information and the second target beam information, and the terminal may determine the corresponding first target beam information according to the second target beam information.

In yet another possible implementation manner, the second target beam indication signaling may carry first target beam information of the first object and second target beam information of the second object, and in this case, the terminal may update the beam information of the first object to the first target beam information or update the RS resource to be measured of the first object to an RS resource corresponding to the first target beam information according to an indication of the second target beam indication signaling; updating the beam information of the second object to the second target beam information or updating the RS resource to be measured of the second object to the RS resource corresponding to the second target beam information. For example, the second target beam indication signaling may carry a corresponding relationship between the identification information of the first target beam and the identification information of the first object, and a corresponding relationship between the identification information of the second target beam and the identification information of the second object. Or, the second target beam indication signaling may also not carry the identification information of the first object and the identification information of the second object, but carry the first target beam information and the second target beam information according to a preset sequence or a preset position according to a protocol convention or a configuration of a network side device, indicating that the first target beam information corresponds to the first object and the second target beam information corresponds to the second object.

In a possible implementation manner, the step of the second target beam indication signaling carrying the first target beam information of the first object may include: the second target beam indication signaling carries a first common TCI state for a first component carrier group, wherein the first object belongs to or includes the first component carrier group.

Optionally, the step of carrying, by the second target beam indication signaling, second target beam information of the second object may include: the second target beam indicates a second common TCI state signaling carrying a second group of component carriers, wherein the second object belongs to or includes the second group of component carriers.

Optionally, the step of carrying, by the second target beam indication signaling, the first target beam information of the first object and the second target beam information of the second object may include: the second target beam indication signaling carries a first common TCI state of a first component carrier group and a second common TCI state of a second component carrier group, wherein the first object belongs to or includes the first component carrier group, and the second object belongs to or includes the second component carrier group.

In one possible implementation, the second target beam indication signaling indication to update the beam information of the first target object or update the RS to be measured resource of the first target object includes at least one of:

(1) The second target beam indication signaling indicates that the first transmission configuration of the first target object indicates that the TCI status is updated to the target TCI status. The first TCI state is a TCI state of the first target object indicated by the network-side device last time, that is, a currently used TCI state, or the first TCI state is a TCI state of the first target object activated by the network-side device last time, that is, a currently activated TCI state.

In this possible implementation manner, the network side device may carry the identifier of the target TCI state in the second target beam indication signaling.

(2) The second target beam indication signaling indicates that the RS resource of QCL type D in the first TCI state of the first target object is updated to the first target RS resource.

In this possible implementation manner, the network side device may update, through the second target beam indication signaling, the RS resource of QCL type D (QCL-type) in the first TCI state to be the first target RS resource. For example, the network side device updates the QCL-TypeD source RS resource in the first TCI state through a MAC CE command. The first TCI state may be the TCI state indicated by the network side device in the beam indication signaling last time, or the TCI state activated by the network side device last time, or the updated TCI state may be indicated to the UE by the network side device using the beam indication signaling or the activation command.

For example, if the second target beam indication signaling carries the first target beam information of the first object, the RS resource of QCL-type indicating the first TCI state of the first object is updated to the RS resource corresponding to the first target beam information. And if the second target beam indication signaling carries second target beam information of the second object, updating the RS resource of QCL-TypeD indicating the first TCI state of the second object to the RS resource corresponding to the second target beam information. And if the second target beam indication signaling carries the first target beam information of the first object and the second target beam information of the second object, indicating that the RS resource of the QCL-TypeD in the first TCI state of the first object is updated to the RS resource corresponding to the first target beam information, and updating the RS resource of the QCL-TypeD in the first TCI state of the second object to the RS resource corresponding to the second target beam information.

In one possible implementation manner, in a case that the first object belongs to or includes a first component carrier group, the terminal may update beam information of each component carrier in the first component carrier group based on the updated beam information of the first object.

And in the case that the second object belongs to or comprises a second component carrier group, the terminal updates the beam information of each component carrier in the second component carrier group based on the updated beam information of the second object.

In this embodiment of the present application, for a CA scenario, a network side device may configure at least one group of Component Carriers (CCs), where each group of CCs may correspond to different objects, for example, different bands. The target beam information (the first target beam information or the second target beam information) indicated by the second target beam indication signaling is used to simultaneously update the beam information of all CCs and all BWPs in a set of CCs. Alternatively, multiple sets of CCs may be associated, for example, if one object includes multiple sets of CCs, the target beam information (the first target beam information or the second target beam information) indicated by the second target beam indication signaling is used to determine beam information or RS resources of each set of CCs in the object, for example, QCL-type RS resources, i.e., source (source) RS resources of QCL-type RS, that is, QCL-type RS resources between sets are different, and the QCL-type RS resources of CCs in a set may be the same RS resource or different RS resources.

In case that the number of Downlink (DL) TCI states M >1 and/or the number of Uplink (UL) TCI states N >1 configured by the network side device, the second target beam indication signaling may indicate TCI states of different objects, where each TCI state is used to determine beam information of multiple channels or RSs on at least one CC on each object.

Optionally, the method may further comprise at least one of:

(1) Activating or using the first object under the condition that the signal quality on the RS resource to be measured corresponding to the first object meets a fourth preset condition; for example, the first object is activated or used when the signal quality on the first RS resource to be measured corresponding to the first object satisfies a fourth preset condition, or the first object is activated or used when the signal quality on the third RS resource to be measured corresponding to the first object satisfies the fourth preset condition.

(2) And sending a ninth notification to a network side device when the signal quality on the RS resource to be measured corresponding to the first object meets a fourth preset condition, where the first notification indicates that the first object is in an activated state or a used state.

(3) Sending a tenth notification to network side equipment when the signal quality on the RS resource to be measured corresponding to the first object meets a fourth preset condition, where the tenth notification indicates that the signal quality on the RS resource to be measured corresponding to the first object meets the fourth preset condition;

(4) Under the condition that the signal quality on the RS resource to be measured corresponding to the first object does not meet a fourth preset condition, deactivating or not using the first object;

(5) Under the condition that the signal quality on the RS resource to be measured corresponding to the first object does not meet a fourth preset condition, sending an eleventh notification to a network side device, wherein the eleventh notification indicates that the first object is in a deactivated state or a non-used state;

(6) Sending a twelfth notification to the network side device when the signal quality on the RS resource to be measured corresponding to the first object does not satisfy a fourth preset condition, where the twelfth notification indicates that the signal quality on the RS resource to be measured corresponding to the first object does not satisfy the fourth preset condition;

(7) Activating or using the first object in case that the signal quality of the first beam information satisfies a fifth preset condition;

(8) Sending the ninth notification to a network side device when the signal quality of the first beam information satisfies a fifth preset condition;

(9) Transmitting a thirteenth notification to a network side device when the signal quality of the first beam information satisfies a fifth preset condition, wherein the thirteenth notification indicates that the signal quality of the first beam information satisfies a second preset condition;

(10) Deactivating or not using the first object in case the signal quality of the first beam information does not satisfy a fifth preset condition;

(11) Sending the eleventh notification to a network side device when the signal quality of the first beam information does not satisfy a fifth preset condition;

(12) Sending a fourteenth notification to a network side device when the signal quality of the first beam information does not satisfy a fifth preset condition, wherein the fourteenth notification indicates that the signal quality of the first beam information does not satisfy the fifth preset condition;

(13) The terminal activates or uses the first object when the performance of using the first target beam information transmission channel or the reference signal satisfies a sixth preset condition;

(14) The terminal sends the ninth notification when the performance of using the first target beam information transmission channel or the reference signal meets a sixth preset condition;

(15) Under the condition that the performance of using the first target beam information transmission channel or the reference signal meets a sixth preset condition, the terminal sends a fifteenth notification to a network side device, wherein the fifteenth notification indicates that the performance of using the first target beam information transmission channel or the reference signal meets the sixth preset condition;

(16) The terminal deactivates or does not use the first object when the performance of using the first target beam information transmission channel or the reference signal does not satisfy a sixth preset condition;

(17) The terminal sends the eleventh notification when the performance of using the first target beam information transmission channel or the reference signal does not satisfy a sixth preset condition;

(18) Under the condition that the performance of using the first target beam information transmission channel or the reference signal does not meet a sixth preset condition, the terminal sends a sixteenth notification to network side equipment, wherein the sixteenth notification indicates that the performance of using the first target beam information transmission channel or the reference signal by the terminal does not meet the sixth preset condition;

(19) The terminal activates or uses the first object according to a third signaling sent by the network side equipment;

(20) And the terminal deactivates or does not use the first object according to a fourth signaling sent by the network side equipment.

Optionally, the method may further comprise at least one of:

(1) Activating or using the second object under the condition that the signal quality on the RS resource to be measured corresponding to the second object meets a seventh preset condition; for example, the second object is activated or used when the signal quality on the second RS resource to be measured corresponding to the second object satisfies a seventh preset condition, or the second object is activated or used when the signal quality on the third RS resource to be measured corresponding to the second object satisfies a seventh preset condition.

(2) Sending a seventeenth notification to a network side device when the signal quality on the RS resource to be measured corresponding to the second object meets a seventh preset condition, where the seventeenth notification indicates that the second object is in an active state or a use state;

(3) Sending an eighteenth notification to a network side device when the signal quality on the RS resource to be measured corresponding to the second object meets a seventh preset condition, where the eighteenth notification indicates that the signal quality on the RS resource to be measured corresponding to the second object meets the seventh preset condition;

(4) Under the condition that the signal quality on the RS resource to be measured corresponding to the second object does not meet a seventh preset condition, deactivating or not using the second object;

(5) Under the condition that the signal quality on the RS resource to be measured corresponding to the second object does not meet a seventh preset condition, sending a nineteenth notification to network side equipment, wherein the nineteenth notification indicates that the second object is in a deactivated state or a non-used state;

(6) Under the condition that the signal quality on the RS resource to be measured corresponding to the second object does not meet a seventh preset condition, sending a twentieth notification to network side equipment, wherein the twentieth notification indicates that the signal quality on the RS resource to be measured corresponding to the second object does not meet the seventh preset condition;

(7) Activating or using the second object in case that the signal quality of the second beam information satisfies an eighth preset condition;

(8) Sending the seventeenth notification to a network side device when the signal quality of the second beam information satisfies an eighth preset condition;

(9) Under the condition that the signal quality of the second beam information meets an eighth preset condition, sending a twenty-first notification to network side equipment, wherein the twenty-first notification indicates that the signal quality of the second beam information meets the eighth preset condition;

(10) Deactivating or not using the second object in case the signal quality of the second beam information does not satisfy an eighth preset condition;

(11) Transmitting the nineteenth notification to a network side device when the signal quality of the second beam information does not satisfy an eighth preset condition;

(12) Sending a twenty-second notification to a network side device when the signal quality of the second beam information does not satisfy an eighth preset condition, wherein the twentieth notification indicates that the signal quality of the second beam information does not satisfy the eighth preset condition;

(13) Activating or using the second object in case that performance of transmitting a channel or a reference signal using the second target beam information satisfies a ninth preset condition;

(14) Sending the seventeenth notification to a network side device when the performance of using the second target beam information transmission channel or the reference signal meets a ninth preset condition;

(15) Transmitting a twenty-third notification to a network side device when the performance of using the second target beam information transmission channel or the reference signal meets a ninth preset condition, wherein the twentieth notification indicates that the performance of using the second target beam information transmission channel or the reference signal meets the ninth preset condition;

(16) Deactivating or not using the second object in case the performance of using the second target beam information transmission channel or the reference signal does not satisfy a ninth preset condition;

(17) Sending the nineteenth notification to a network side device when the performance of using the second target beam information transmission channel or the reference signal does not satisfy a ninth preset condition;

(18) Sending a twenty-fourth notification to a network side device when the performance of using the second target beam information transmission channel or the reference signal does not satisfy a ninth preset condition, wherein the twenty-fourth notification indicates that the performance of using the second target beam information transmission channel or the reference signal does not satisfy the ninth preset condition;

(19) The terminal activates or uses the second object according to a fifth signaling of the network side equipment;

(20) And the terminal deactivates or does not use the second object according to the sixth signaling of the network side equipment.

For example, the first object is band1 and panel1, and the second object is band2 and panel2, i.e. two panels of the UE support different bands, respectively. The UE measures the CSI-RS resources on band1 using panel1 and measures the CSI-RS resources on band2 using panel 2. If the measurement result on one panel is poor and the measurement result on the other panel is good, the UE switches to the single panel mode, i.e. the panel with the good measurement result is used for transmitting the channel or the reference signal, and the panel with the poor measurement result is not used or deactivated.

Fig. 3 shows another flowchart of the method for determining beam information according to the embodiment of the present application, where the method 300 may be executed by a network side device. In other words, the method may be performed by software or hardware installed on the network-side device. As shown in fig. 3, the method may include the following steps.

S310, the network side equipment sends configuration information to a terminal, wherein the configuration information configures target RS resources to be measured for the terminal, and the target RS resources to be measured correspond to a first object and a second object.

The method 300 is an embodiment of a network-side device corresponding to the method 200, and has an implementation manner corresponding to the method 200, in the embodiment of the present application, only a part of the implementation manners may be described, and otherwise, reference may be made to the description in the method 200.

The target RS resource to be measured is the same as the target RS resource to be measured in the method 200, and may include a first RS resource to be measured corresponding to the first object and a second RS resource to be measured corresponding to the second object, or may include a third RS resource to be measured corresponding to the first object at the same time. For details, reference may be made to the related description in the method 200, and details are not repeated here.

S312, the network side device receives a target beam report reported by the terminal, where the target beam report includes the first beam information and/or the second beam information.

S314, the network side device sends a first target beam indication signaling to the terminal based on the target beam report, where the first target beam indication signaling is used for the terminal to determine first target beam information on the first object and second target beam information on the second object.

Two possible implementation manners that the target RS-to-be-measured resource includes a first RS-to-be-measured resource corresponding to the first object and a second RS-to-be-measured resource corresponding to the second object, and the target RS-to-be-measured resource includes a third RS-to-be-measured resource simultaneously corresponding to the first object are described below.

In this possible implementation manner, optionally, before the network-side device receives the target beam report reported by the terminal, the method further includes at least one of:

the network side equipment sends a first indication signaling to the terminal, wherein the first indication signaling indicates the terminal to measure the signal quality on the first RS resource to be measured;

the network side equipment sends a second indication signaling to the terminal, wherein the second indication signaling indicates the terminal to measure the signal quality on the second RS resource to be measured;

and the network side equipment sends a third indication signaling to the terminal, wherein the third indication signaling indicates that the terminal simultaneously measures the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured.

Optionally, the configuration information includes measurement timing information of the first RS resource to be measured and measurement timing information of the second RS resource to be measured.

The target RS resource to be measured comprises a third RS resource to be measured which simultaneously corresponds to the first object

In this possible implementation, the terminal may perform joint measurement of the first object and the second object, or may perform measurement of the first object and the second object separately, as described separately below.

1. Joint measurement

In this possible implementation manner, the network side device may configure a same third RS resource to be measured for the first object and the second object in a joint or in a joint manner, and when the terminal measures the signal quality on the third RS resource to be measured, the terminal measures a statistical average value of the RS resource in the first object and the second object for one RS resource in the third RS resource to be measured. For example, assuming that the third RS resource to be measured includes 16 RS resources, the terminal may measure to obtain 16 average values, and then select 4 RS resources with better measurement results as joint measurement results to report.

In this possible implementation manner, optionally, the network side device may dynamically instruct the terminal to perform the joint measurement, and therefore, before receiving the target beam report, the method may further include: and the network side equipment sends a fourth indication signaling to the terminal, wherein the fourth indication signaling indicates the terminal to measure the signal quality on the third RS resource to be measured corresponding to the first object and the second object, so as to obtain a joint measurement result of the first object and the second object.

In this possible implementation manner, the first beam information and/or the second beam information included in the target beam report is common beam information of the first object and the second object.

In this possible implementation manner, the network-side device may be capable of simultaneously using a first beam on the first object and a second beam on the second object, where the first beam and the second beam are beams corresponding to any one of the common beam information.

In this possible implementation manner, the network side device carries target shared beam information in the first target beam indication signaling, and both the first target beam information indicating the first object and the second target beam information indicating the second object are the target shared beam information. For example, the network side device may select one better shared beam information from the shared beam information reported by the terminal as the target shared beam information.

In one possible implementation, the method further comprises at least one of:

(1) Receiving a first notification sent by the terminal, wherein the first notification indicates that the first object and the second object are in an activated state or a combined use state; the terminal may send the first notification to the network-side device in the case described in the method 200 above.

(2) Receiving a second notification sent by the terminal, wherein the second notification indicates that the signal quality on the third RS resource to be measured meets a first preset condition; the second notification may be carried in the target beam report and may be reported separately, which is not limited in this embodiment of the present application.

(3) Receiving a third notification sent by the terminal, wherein the third notification indicates that the first object and the second object are in a deactivated state or in a non-joint use state;

(4) Receiving a fourth notification sent by the terminal, wherein the fourth notification indicates that the signal quality on the third RS resource to be measured does not meet a first preset condition;

(5) Activating the first object and the second object or jointly using the first object and the second object in case that the signal quality of the common beam information satisfies a second preset condition;

(6) Receiving a fifth notification sent by the terminal, wherein the fifth notification indicates that the signal quality of the shared beam information meets a second preset condition;

(7) Deactivating the first object and the second object or not jointly using the first object and the second object when the signal quality of the common beam information does not satisfy a second preset condition;

(8) Receiving a sixth notification sent by the terminal, wherein the sixth notification indicates that the signal quality of the common beam information does not satisfy a second preset condition;

(9) Activating the first object and the second object or jointly using the first object and the second object in case that performance of transmitting a channel or a reference signal using the target common beam information satisfies a third preset condition;

(10) Receiving a seventh notification sent by the terminal, wherein the seventh notification indicates that the performance of the terminal in using the target shared beam information transmission channel or the reference signal meets a third preset condition;

(11) Deactivating the first object and the second object or not jointly using the first object and the second object in case the performance of using the target common beam information transmission channel or the reference signal does not satisfy a third preset condition;

(12) Receiving an eighth notification sent by the terminal, wherein the eighth notification indicates that the performance of the terminal in using the target shared beam information transmission channel or the reference signal does not satisfy a third preset condition;

(14) Sending first signaling to the terminal, wherein the first signaling indicates to activate the first object and the second object or jointly use the first object and the second object;

For example, the network side device may determine to activate the first object and the second object or jointly use the first object and the second object according to the quality information corresponding to the common beam information reported in the target beam report and/or the at least one notification, and send the first signaling. Or, the network side may also determine to activate the first object and the second object or jointly use the first object and the second object when the target beam report includes the common beam information, and send the first signaling regardless of the quality information corresponding to the common beam information.

(15) And sending second signaling to the terminal, wherein the second signaling indicates that the first object and the second object are deactivated or are not jointly used.

2. Separate measurement

The terminal may measure the third RS resource to be measured corresponding to the first object and the third RS resource to be measured corresponding to the second object at different times when measuring separately. Thus, the first beam information of the first object and/or the second beam information of the second object may be included in the target beam report.

In one possible implementation manner, the network side device may dynamically instruct the terminal to measure the third RS resource to be measured corresponding to the first object and the third RS resource to be measured corresponding to the second object, and therefore, before receiving the target beam report, the method further includes at least one of:

The network side equipment sends a fifth indication signaling to the terminal, wherein the fifth indication signaling indicates the terminal to measure the signal quality on the third RS resource to be measured corresponding to the first object, so as to obtain a first measurement result corresponding to the first object;

the network side equipment sends a sixth indication signaling to the terminal, wherein the sixth indication signaling indicates the terminal to measure the signal quality on the third RS resource to be measured corresponding to the second object, so as to obtain a first measurement result corresponding to the second object;

and the network side equipment sends a seventh indication signaling to the terminal, wherein the seventh indication signaling indicates that the terminal measures a first signal quality and a second signal quality, the first signal quality is the signal quality on the third RS resource to be measured corresponding to the first object, and the second signal quality is the signal quality on the third RS resource to be measured corresponding to the second object.

Optionally, the configuration information includes measurement timing information of the third RS resource to be measured corresponding to the first object and measurement timing information of the third RS resource to be measured corresponding to the second object. The terminal may measure the first object and the second object simultaneously or not simultaneously according to the measurement timing information of the third RS resource to be measured corresponding to the first object and the measurement timing information of the third RS resource to be measured corresponding to the second object.

In this possible implementation, each beam information (e.g., SSBRI or CRI) in the first beam report may correspond to the same or different RS resource identifiers. For example, the following information may be carried in the first beam report: { CRI1, CRI2, CRI3, CRI4}, { L1-RSRP1, L1-RSRP2, L1-RSRP3, L1-RSRP4}, { band1, band1, band1, band2}, indicating that the reported L1-RSRPs of CRI1, CRI2 and CRI3 on band1 are L1-RSRP1, L1-RSRP2 and L1-RSRP3 respectively, and the L1-RSRP of CRI4 on band2 is L1-RSRP4.

In the above possible implementation manner, the terminal may use the CBM mode, and the network side device may communicate with the terminal through the first beam and the second beam that are used simultaneously. In one possible implementation manner, the first beam is a beam corresponding to any one of the first beam information, and the second beam is a beam corresponding to any one of the second beam information. I.e., any one of the first beam information may be associated with any one of the second beam information.

Or, in another possible implementation manner, the associated first beam information and second beam information may be carried in the first beam report according to a first preset rule, or may be carried in the second beam report and the third beam report respectively according to a second preset rule. Thus, optionally, the first beam report carries the first beam information and the second beam information, including: and carrying the beam information of the first beam and the beam information of the second beam in the first beam report according to a first preset rule. Or, the second beam report carries the first beam information, and the third beam report carries the second beam information, including: according to a second preset rule, carrying the beam information of the first beam in the second beam report, and carrying the beam information of the second beam in the third beam report. Wherein the first beam and the second beam are two beams that can be used by the terminal at the same time, the beam information of the first beam is one of one or more pieces of the first beam information, and the beam information of the second beam is one of one or more pieces of the second beam information.

Optionally, the first preset rule may include one of: a preset sequence corresponding relation and a preset position corresponding relation; for example, the first bit of beam information ranked in the first beam information is associated with the first bit of beam information ranked in the second beam information, or the first bit of beam information ranked in the first beam information may be associated with the first and second bit of beam information ranked in the second beam information, respectively. For example, the following information may be included in the first beam report: { CRI1, CRI2} { CRI3, CRI4} { L1-RSRP1, L1-RSRP2} { L1-RSRP3, L1-RSRP4}, then CRI1 and CRI3 corresponding to the first object and the second object respectively and ranked first, and CRI2 and CRI4 corresponding to the first object and the second object respectively and ranked second are associated.

Optionally, the second preset rule includes: a preset sequence corresponding relationship or a preset position corresponding relationship. For example, the first bit of beam information arranged in the second beam report may be associated with the first bit of beam information arranged in the third beam report, or the first bit of beam information arranged in the second beam report may be associated with the first and second bits of beam information arranged in the third beam report, respectively. For example, the following information may be included in the second beam report: { CRI1, CRI2} { L1-RSRP1, L1-RSRP2}, the following information can be included in the third beam report: { CRI3, CRI4} { L1-RSRP3, L1-RSRP4}, CRI1 and CRI3 ranked first and CRI2 and CRI4 ranked second, respectively, are associated.

The network side device may determine, according to the position or the order of the beam information of the first beam and the beam information of the second beam in the target beam report, the first beam and the second beam that may be simultaneously used by the network side device.

In the above two possible implementations, the first target beam information and the second target beam information may have a correspondence relationship that is indicated in advance or prescribed by a protocol.

In the foregoing possible implementation manner, the first target beam information is one of a first beam pool configured for the first object by the network side device; the second target beam information on the second object is one of the first beam pools, or the second target beam information on the second object is one of second beam pools configured by the network side device for the second object.

In this embodiment, the first target beam indication signaling may be used to indicate or activate first target beam information of a first object and second target beam information of a second object, for example, instruct a terminal to communicate with a network-side device on the first object using the first target beam information, and communicate with the network-side device on the second object using the second target beam information.

Optionally, after receiving the target beam report, the method may further include: the network side device updates the beam information of the first object to first target beam information or updates the RS resource to be measured of the first object to an RS resource corresponding to the first target beam information based on the first beam information of the first object and/or the second beam information of the second object in the target beam report; and/or updating the beam information of the second object to be second target beam information or updating the RS resource to be measured of the second object to be RS resource corresponding to the second target beam information.

In this embodiment, the terminal and the network side device may automatically update the beam information of the first object and the beam information of the second object according to the first beam information of the first object and/or the second beam information of the second object in the target beam report, respectively. Alternatively, the terminal may update the information under the instruction of the network side device. Therefore, optionally, after the network side device updates the beam information of the first object to the first target beam information or updates the RS resource to be measured of the first object to the RS resource corresponding to the first target beam information, and updates the beam information of the second object to the second target beam information or updates the RS resource to be measured of the second object to the RS resource corresponding to the second target beam information, the method may further include: the network side device sends a second target beam indication signaling to the terminal, where the second target beam indication signaling indicates to update beam information of a first target object or update RS resources to be measured of the first target object, where the first target object includes: at least one of the first object and the second object.

Optionally, the second target beam indication signaling indicates to update beam information of a first target object or update RS resources to be measured of the first target object, and includes one of:

the second target beam indication information carries the first target beam information, and indicates the terminal to update the beam information of the first object to the first target beam information, or update the RS resource to be measured of the first object to an RS resource corresponding to the first target beam information;

the second target beam indication information carries the first target beam information, and indicates the terminal to update the beam information of the first object to the first target beam information, or update the RS resource to be measured of the first object to an RS resource corresponding to the first target beam information; instructing the terminal to update the beam information of the second object to second target beam information corresponding to the first target beam information or update the RS resource to be measured of the second object to an RS resource corresponding to the second target beam information;

the second target beam indication information carries the second target beam information, and indicates the terminal to update the beam information of the second object to the second target beam information, or update the RS resource to be measured of the second object to an RS resource corresponding to the second target beam information;

The second target beam indication information carries the second target beam information, and indicates the terminal to update the beam information of the second object to the second target beam information, or update the RS resource to be measured of the second object to an RS resource corresponding to the second target beam information; instructing the terminal to update the beam information of the first object to first target beam information corresponding to the second target beam information or update the RS resource to be measured of the first object to an RS resource corresponding to the first target beam information;

the second target beam indication information carries first target beam information of a first object and second target beam information of a second object, and indicates the terminal to update the beam information of the first object to the first target beam information, or update an RS resource to be measured of the first object to an RS resource corresponding to the first target beam information; and instructing the terminal to update the beam information of the second object to the second target beam information or update the RS resource to be measured of the second object to an RS resource corresponding to the second target beam information.

Optionally, the second target beam indication signaling carries first target beam information of the first object, including: the second target beam indication signaling carries a first common TCI state for a first component carrier group, wherein the first object belongs to or includes the first component carrier group.

Optionally, the second target beam indication signaling carries first target beam information of the first object and second target beam information of the second object, including: the second target beam indication signaling carries a first common TCI state of a first component carrier group and a second common TCI state of a second component carrier group, wherein the first object belongs to or includes the first component carrier group, and the second object belongs to or includes the second component carrier group.

Optionally, the second target beam indication signaling indication to update beam information of the first target object or update RS to be measured resource of the first target object includes at least one of:

(1) The second target beam indication signaling indicates that the first TCI state of the first target object is updated to a target TCI state; the first TCI state is a TCI state of the first target object indicated by the network-side device last time, that is, a currently used TCI state, or the first TCI state is a TCI state of the first target object activated by the network-side device last time, that is, a currently activated TCI state.

In this possible implementation manner, the network side device may update, through the second target beam indication signaling, the RS resource of QCL type D (QCL-type) in the first TCI state to be the first target RS resource. For example, the network side device updates the QCL-TypeD source RS resource in the first TCI state through a MAC CE command. The first TCI state may be a TCI state indicated by the network side device in the beam indication signaling last time, or a TCI state activated by the network side device last time, or a TCI state updated after the network side device indicates the UE using the beam indication signaling or the activation command.

Optionally, the method further comprises: under the condition that the first object belongs to or comprises a first component carrier group, the network side equipment updates the beam information of each component carrier in the first component carrier group based on the updated beam information of the first object; and/or when the second object belongs to or comprises a second component carrier group, the network side equipment updates the beam information of each component carrier in the second component carrier group based on the updated beam information of the second object.

In this embodiment of the present application, for a CA scenario, a network side device may configure at least one group of Component Carriers (CCs), where each group of CCs may correspond to different objects, for example, different bands. The target beam information (the first target beam information or the second target beam information) indicated by the second target beam indication signaling is used to simultaneously update the beam information of all CCs and all BWPs in a set of CCs. Alternatively, multiple sets of CCs may be associated, for example, if one object includes multiple sets of CCs, the target beam information (the first target beam information or the second target beam information) indicated by the second target beam indication signaling is used to determine beam information or RS resources of each set of CCs in the object, for example, QCL-type RS resources, that is, QCL-type RS resources between sets are different, and the QCL-type RS resources of the CCs in the set may be the same RS resource or different RS resources.

Optionally, the first object and the second object each comprise at least one of:

a cell;

a carrier wave;

a bandwidth part (BWP);

sub-band (sub-band);

frequency band (band);

transmitting a reception point (TRP);

a termination panel.

Optionally, the method further comprises at least one of:

(1) Receiving a ninth notification sent by the terminal, wherein the ninth notification indicates that the first object is in an activated state or a used state;

(2) Receiving a tenth notification sent by the terminal, wherein the tenth notification indicates that the signal quality on the RS-to-be-measured resource corresponding to the first object meets a fourth preset condition;

(3) Receiving an eleventh notification sent by the terminal, wherein the eleventh notification indicates that the first object is in a deactivated state or a non-used state;

(4) Receiving a twelfth notification sent by the terminal, wherein the twelfth notification indicates that the signal quality on the RS resource to be measured corresponding to the first object does not satisfy a fourth preset condition;

(5) Activating or using the first object in case that the signal quality of the first beam information satisfies a fifth preset condition;

(6) Receiving a thirteenth notification sent by the terminal, wherein the thirteenth notification indicates that the signal quality of the first beam information satisfies a second preset condition;

(7) Deactivating or not using the first object in case the signal quality of the first beam information does not satisfy a fifth preset condition;

(8) Receiving a fourteenth notification sent by the terminal, wherein the fourteenth notification indicates that the signal quality of the first beam information does not satisfy a fifth preset condition;

(9) Activating or using the first object in case that performance of using the first target beam information transmission channel or the reference signal satisfies a sixth preset condition;

(10) Receiving a fifteenth notification sent by the terminal, wherein the fifteenth notification indicates that the performance of the terminal in using the first target beam information transmission channel or a reference signal meets a sixth preset condition;

(11) Deactivating or not using the first object in case the performance of using the first target beam information transmission channel or the reference signal does not satisfy a sixth preset condition;

(12) Receiving a sixteenth notification sent by the terminal, wherein the sixteenth notification indicates that performance of the terminal using the first target beam information transmission channel or the reference signal does not meet a sixth preset condition;

(13) Sending a third signaling to the terminal, wherein the third signaling indicates to activate or use the first object; the network side device may determine to activate or use the first object and send the third signaling according to the quality of the first beam information in the target beam report and/or the at least one notification, or may activate or use the first object and send the third signaling when the target beam report includes the first beam information.

(14) And sending fourth signaling to the terminal, wherein the fourth signaling indicates that the first object is deactivated or not used.

The network side device may determine to deactivate or not to use the first object and send the fourth signaling according to the quality of the first beam information in the target beam report and/or the at least one notification, or may deactivate or not to use the first object and send the fourth signaling when the target beam report does not include the first beam information of the first object.

Optionally, the method further comprises at least one of:

(1) Receiving a seventeenth notification sent by the terminal, wherein the seventeenth notification indicates that the second object is in an activated state or a used state;

(2) Receiving an eighteenth notification sent by the terminal, wherein the eighteenth notification indicates that the signal quality on the RS resource to be measured corresponding to the second object meets a seventh preset condition;

(3) Receiving a nineteenth notification sent by the terminal, wherein the nineteenth notification indicates that the second object is in a deactivated state or a non-used state;

(4) Receiving a twentieth notification sent by the terminal, wherein the twentieth notification indicates that the signal quality on the RS resource to be measured corresponding to the second object does not satisfy a seventh preset condition;

(5) Activating or using the second object in case that the signal quality of the second beam information satisfies an eighth preset condition;

(6) Receiving a twenty-first notification sent by the terminal, wherein the twenty-first notification indicates that the signal quality of the second beam information meets an eighth preset condition;

(7) Deactivating or not using the second object in case the signal quality of the second beam information does not satisfy an eighth preset condition;

(8) Receiving a twenty-second notification sent by the terminal, wherein the twenty-second notification indicates that the signal quality of the second beam information does not satisfy an eighth preset condition;

(9) Activating or using the second object in case that performance of transmitting a channel or a reference signal using the second target beam information satisfies a ninth preset condition;

(10) Receiving the transmitted twenty-third notification, wherein the twenty-third notification indicates that performance of the second target beam information transmission channel or a reference signal satisfies a ninth preset condition;

(11) Deactivating or not using the second object in case the performance of using the second target beam information transmission channel or the reference signal does not satisfy a ninth preset condition;

(12) Receiving a twenty-fourth notification sent by the terminal, wherein the twenty-fourth notification indicates that the performance of the second target beam information transmission channel or the reference signal does not satisfy a ninth preset condition;

(13) Sending a fifth signaling to the terminal, wherein the fifth signaling indicates to activate or use the second object; the network side device may determine to activate or use the second object and send the fifth signaling according to the quality of the second beam information in the target beam report and/or the at least one notification, or may activate or use the second object and send the fifth signaling when the target beam report includes the second beam information.

(14) And sending a sixth signaling to the terminal, wherein the sixth signaling deactivates or does not use the second object. The network side device may determine to deactivate or not use the second object and send a sixth signaling according to the quality of the second beam information in the target beam report and/or the at least one notification, or may deactivate or not use the second object and send the sixth signaling when the target beam report does not include the second beam information.

For example, the first object is band1 and panel1, and the second object is band2 and panel2, i.e. two panels of the UE support different bands, respectively. The UE uses panel1 to measure the CSI-RS resource on band1, and uses panel2 to measure the CSI-RS resource on band 2. If the measurement result on panel2 is poor and the measurement result on panel1 is good, the UE reports the measurement result in the beam report, that is, the CRI and the L1-RSRP corresponding to each band. The network side equipment can judge whether to activate or use the panel of each band according to the L1-RSRP value corresponding to each band. The network side equipment sends signaling to the UE to inform the UE to activate or use corresponding band and panel to transmit and receive channels or reference signals.

It should be noted that, in the method for determining beam information provided in the embodiment of the present application, the execution subject may be a device for determining beam information, or a control module in the device for determining beam information, which is used for executing the method for determining beam information. In the embodiment of the present application, a method for determining beam information by using a beam information determination apparatus is taken as an example, and the beam information determination apparatus provided in the embodiment of the present application is described.

Fig. 4 is a schematic structural diagram of a beam information determining apparatus provided in an embodiment of the present application, and as shown in fig. 4, the apparatus 400 mainly includes: a first measurement module 401, a first determination module 402, a first sending module 403, a first receiving module 404 and a second determination module 405.

In this embodiment of the present application, the first measurement module 401 is configured to measure, according to the received configuration information, signal quality on a target reference signal to be measured RS resource, where the target RS resource to be measured corresponds to a first object and a second object; a first determining module 402, configured to determine first beam information of the first object and second beam information of a second object according to a measurement result; a first sending module 403, configured to report a target beam report based on the first beam information and the second beam information, where the target beam report includes the first beam information and/or the second beam information; a first receiving module 404, configured to receive a first target beam indication signaling sent by a network side device; a second determining module 405, configured to determine, according to the first target beam indication signaling, first target beam information of the first object and second target beam information of the second object.

In one possible implementation, the target RS resource to be measured includes: and the RS resource to be measured corresponds to the first object and the RS resource to be measured corresponds to the second object.

In one possible implementation manner, the measuring the signal quality on the reference signal RS resource to be measured includes: and respectively measuring the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured at different time.

In one possible implementation manner, the separately measuring the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured at different times includes: under the condition of receiving a first indication signaling sent by network side equipment, measuring the signal quality on the first RS resource to be measured, wherein the first indication signaling indicates to measure the signal quality on the first RS resource to be measured; and/or measuring the signal quality on the second RS resource to be measured under the condition of receiving a second indication signaling sent by the network side equipment, wherein the second indication signaling indicates that the signal quality on the second RS resource to be measured is measured.

In one possible implementation manner, the separately measuring the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured at different times includes: after the signal quality on all the first RS resources to be measured is measured, measuring the signal quality on all the second RS resources to be measured; or, alternately measuring the signal quality of the first RS resource to be measured and the signal quality of the second RS resource to be measured.

In one possible implementation manner, the measuring the signal quality on the reference signal RS resource to be measured includes: and simultaneously measuring the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured.

In one possible implementation manner, the simultaneously measuring the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured includes: and under the condition of receiving a third indication signaling sent by the network side equipment, measuring the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured.

In one possible implementation manner, measuring signal quality on a target reference signal to be measured RS resource according to the received configuration information, further includes: and determining beam information used for measuring a second target RS resource according to a measurement result corresponding to a first target RS resource and/or a target beam report corresponding to the first target RS resource, wherein the first target RS resource comprises the first RS resource to be measured, and the second target RS resource comprises the second RS resource to be measured, or the first target RS resource comprises the second RS resource to be measured, and the second target RS resource comprises the first RS resource to be measured.

In a possible implementation manner, the configuration information includes measurement timing information of the first RS resource to be measured and measurement timing information of the second RS resource to be measured.

In one possible implementation, the target RS resource to be measured includes: and a third RS resource to be measured corresponding to the first object and the second object at the same time.

In a possible implementation manner, the measurement result obtained on the third RS resource to be measured is used as a joint measurement result of the first object and the second object.

In one possible implementation manner, measuring the signal quality on the RS resource of the target to-be-measured reference signal according to the received configuration information includes: and under the condition of receiving a fourth indication signaling sent by the network side equipment, measuring the signal quality on the third RS resource to be measured corresponding to the first object and the second object to obtain the combined measurement result.

In one possible implementation manner, determining the first beam information of the first object and the second beam information of the second object according to the measurement result includes: the terminal determines common beam information of the first object and the second object according to a measurement result of the third RS resource to be measured corresponding to the first object and the second object; reporting a target beam report based on the first beam information and the second beam information, comprising: and the terminal reports a target beam report, wherein the target beam report comprises the shared beam information.

In one possible implementation, the apparatus may be capable of simultaneously using a first beam on the first object and a second beam on the second object, where the first beam and the second beam are beams corresponding to any one of the common beam information.

In a possible implementation manner, the first target beam indication signaling carries target common beam information; determining first target beam information of the first object and second target beam information of the second object according to the first target beam indication signaling, including: determining that the first target beam information of the first object and the second target beam information of the second object are both the target common beam information.

In one possible implementation, the second determining module 405 is further configured to at least one of:

activating or jointly using the first object and the second object in case the signal quality on the third RS resource to be measured meets a first preset condition;

under the condition that the signal quality on the third RS resource to be measured meets a first preset condition, sending a first notification to network side equipment, wherein the first notification indicates that the first object and the second object are in an activated state or a combined use state;

Sending a second notification to network side equipment when the signal quality on the third RS resource to be measured meets a first preset condition, wherein the second notification indicates that the signal quality on the third RS resource to be measured meets the first preset condition;

deactivating the first object and the second object or canceling the joint use of the first object and the second object in the case that the signal quality on the third RS resource to be measured does not satisfy a first preset condition;

under the condition that the signal quality on the third RS resource to be measured does not meet a first preset condition, sending a third notification to a network side device, wherein the third notification indicates that the first object and the second object are in a deactivated state or a non-joint use state;

sending a fourth notification to network side equipment under the condition that the signal quality on the third RS resource to be measured does not meet a first preset condition, wherein the fourth notification indicates that the signal quality on the third RS resource to be measured does not meet the first preset condition;

activating the first object and the second object or jointly using the first object and the second object in case that the signal quality of the common beam information satisfies a second preset condition;

Sending the first notification to a network side device when the signal quality of the common beam information meets a second preset condition;

sending a fifth notification to a network side device when the signal quality of the shared beam information meets a second preset condition, wherein the fifth notification indicates that the signal quality of the shared beam information meets the second preset condition;

deactivating the first object and the second object or not jointly using the first object and the second object, in case the signal quality of the common beam information does not satisfy a second preset condition;

sending the third notification to a network side device when the signal quality of the common beam information does not satisfy a second preset condition;

transmitting a sixth notification to a network side device when the signal quality of the common beam information does not satisfy a second preset condition, wherein the sixth notification indicates that the signal quality of the common beam information does not satisfy the second preset condition;

the terminal activates the first object and the second object or jointly uses the first object and the second object in case that the performance of transmitting a channel or a reference signal using the target common beam information satisfies a third preset condition;

The terminal sends the first notification when the performance of the target shared beam information transmission channel or the reference signal meets a third preset condition;

under the condition that the performance of the target shared beam information transmission channel or the reference signal meets a third preset condition, the terminal sends a seventh notification to network side equipment, wherein the seventh notification indicates that the performance of the terminal using the target shared beam information transmission channel or the reference signal meets the third preset condition;

the terminal deactivating the first object and the second object or not jointly using the first object and the second object, in case that performance of using the target common beam information transmission channel or the reference signal does not satisfy a third preset condition;

the terminal sends the third notification when the performance of the target shared beam information transmission channel or the reference signal does not meet a third preset condition;

under the condition that the performance of the target shared beam information transmission channel or the reference signal does not meet a third preset condition, the terminal sends an eighth notification to network side equipment, wherein the eighth notification indicates that the performance of the terminal using the target shared beam information transmission channel or the reference signal does not meet the third preset condition;

Activating the first object and the second object or jointly using the first object and the second object according to a first signaling sent by a network side device;

and deactivating the first object and the second object or not jointly using the first object and the second object according to a second signaling sent by the network side equipment.

In one possible implementation manner, a first measurement result obtained on the third RS resource to be measured at a first time is used as the measurement result of the first object, and a second measurement result obtained on the third RS resource to be measured at a second time is used as the measurement result of the second object, where the first time is different from the second time.

In one possible implementation manner, measuring the signal quality on the RS resource of the target to-be-measured reference signal according to the received configuration information includes: under the condition of receiving a fifth indication signaling sent by network side equipment, measuring the signal quality on the third RS resource to be measured corresponding to the first object to obtain the first measurement result; and under the condition of receiving a sixth indication signaling sent by the network side equipment, measuring the signal quality on the third RS resource to be measured corresponding to the second object to obtain the second measurement result.

In one possible implementation manner, measuring the signal quality on the RS resource of the target to-be-measured reference signal according to the received configuration information includes: measuring signal quality on all the third RS resources to be measured corresponding to the second object after measuring the signal quality on all the third RS resources to be measured corresponding to the first object; or, alternately measuring a signal quality of the third RS resource to be measured corresponding to the first object and a signal quality on the third RS resource to be measured corresponding to the second object.

In one possible implementation manner, measuring signal quality on a target reference signal to be measured RS resource according to the received configuration information, further includes: and determining beam information used for measuring the third resource to be measured corresponding to a second target object according to the measurement result of the third RS resource to be measured corresponding to the first target object and/or the beam report of the third resource to be measured corresponding to the first target object, wherein the first target object comprises the first object, and the second target object comprises the second object, or the first target object comprises the second object, and the second target object comprises the first object.

In one possible implementation manner, measuring the signal quality on the RS resource of the target to-be-measured reference signal according to the received configuration information includes: and simultaneously measuring a first signal quality and a second signal quality, wherein the first signal quality is the signal quality on the RS resource to be measured corresponding to the first object, and the second signal quality is the signal quality on the RS resource to be measured corresponding to the second object.

In one possible implementation, simultaneously measuring the first signal quality and the second signal quality includes: and under the condition of receiving a seventh indication signaling sent by the network side equipment, measuring the first signal quality and the second signal quality.

In a possible implementation manner, the configuration information includes measurement timing information of the third RS resource to be measured corresponding to the first object and measurement timing information of the third RS resource to be measured corresponding to the second object.

In one possible implementation, in a case that the first beam information and the second beam information are included in the target beam report, the target beam report further indicates that the first beam information corresponds to the first object, and the second beam information corresponds to the second object.

In one possible implementation, the target beam report indicating that the first beam information corresponds to the first object and the second beam information corresponds to the second object includes one of:

the target beam report comprises a first beam report, wherein the first beam report carries the first beam information, the second beam information, identification information of the first object corresponding to the first beam information, and identification information of the second object corresponding to the second beam information;

the first beam information and the second beam information are carried in the first beam report according to a preset arrangement order or position of the first object and the second object;

the target beam report includes a second beam report and a third beam report, wherein the second beam report carries the first beam information and the third beam report carries the second beam information.

In one possible implementation manner, the apparatus may be configured to use a first beam and a second beam simultaneously, where the first beam is a beam corresponding to any one of the first beam information, and the second beam is a beam corresponding to any one of the second beam information.

In one possible implementation manner, the first beam report carrying the first beam information and the second beam information includes: carrying beam information of a first beam and beam information of a second beam in the first beam report according to a first preset rule; the second beam report carrying the first beam information and the third beam report carrying the second beam information, comprising: according to a second preset rule, carrying the beam information of the first beam in the second beam report, and carrying the beam information of the second beam in the third beam report. Wherein the first beam and the second beam are two beams that can be simultaneously used by the apparatus, the beam information of the first beam is one of one or more pieces of the first beam information, and the beam information of the second beam is one of one or more pieces of the second beam information.

In one possible implementation, the first preset rule includes one of: a preset sequence corresponding relation, a preset position corresponding relation and adjacent carrying of the beam information of the first beam and the beam information of the second beam; the second preset rule comprises: a preset sequence corresponding relationship or a preset position corresponding relationship.

In one possible implementation manner, determining, according to the first target beam indication signaling, first target beam information of the first object and second target beam information of the second object includes: determining that the target beam information of the first object is the first target beam information carried by the first target beam indication signaling under the condition that the first target beam indication signaling carries the first target beam information of the first object, and determining second target beam information of the second object according to the first target beam information; or, in a case that the first target beam indication signaling carries second target beam information of the second object, determining that the target beam information of the second object is the second target beam information carried by the first target beam indication signaling, and determining, according to the second target beam information, first target beam information of the first object.

In one possible implementation manner, determining, according to the first target beam indication signaling, first target beam information of the first object and second target beam information of the second object includes: and acquiring the first target beam information and the second target beam information indicated or activated by the first target beam indication signaling under the condition that the first target beam indication signaling carries the first target beam information of the first object and the second target beam information of the second object.

In a possible implementation manner, the first target beam information is one of a first beam pool configured for the first object by the network side device; the second target beam information on the second object is one of the first beam pools, or the second target beam information on the second object is one of second beam pools configured by the network side device for the second object.

In one possible implementation manner, the second determining module 405 is further configured to update beam information of the first target object or update RS resources to be measured of the first target object after reporting the target beam report, where the first target object includes: at least one of the first object and the second object.

In one possible implementation manner, the updating the beam information of the first target object or the updating the RS resource to be measured of the first target object includes one of:

updating the beam information of the first object according to the first beam information, or updating RS resources to be measured of the first object according to the first beam information;

updating the beam information of the second object according to the second beam information, or updating the RS resource to be measured of the second object according to the second beam information;

And updating the beam information of the first object according to the first beam information, and updating the beam information of the second object according to the second beam information, or updating the first RS resource to be measured of the first object according to the first beam information and updating the second RS resource to be measured of the second object according to the second beam information by the terminal.

In one possible implementation manner, the updating the beam information of the first target object or the updating the RS resource to be measured of the first target object includes: receiving a second target beam indication signaling sent by a network side device, wherein the second target beam indication signaling indicates to update beam information of the first target object or update an RS resource to be measured of the first target object; and updating the beam information of the first target object or updating the RS resource to be measured of the first target object according to the second target beam indication signaling.

In one possible implementation manner, according to the second target beam indication signaling, updating beam information of the first target object or updating RS resources to be measured of the first target object includes one of:

Under the condition that the second target beam indication signaling carries first target beam information of the first object, updating the beam information of the first object to the first target beam information, or updating an RS resource to be measured of the first object to an RS resource corresponding to the first target beam information;

under the condition that the second target beam indication signaling carries first target beam information of the first object, updating the beam information of the first object to the first target beam information, or updating an RS resource to be measured of the first object to an RS resource corresponding to the first target beam information; determining second target beam information of the second object according to the first target beam information, and updating the beam information of the second object to the second target beam information, or updating an RS resource to be measured of the second object to an RS resource corresponding to the second target beam information;

under the condition that the second target beam indication signaling carries second target beam information of the second object, updating the beam information of the second object to the second target beam information, or updating an RS resource to be measured of the second object to an RS resource corresponding to the second target beam information;

Under the condition that the second target beam indication signaling carries second target beam information of the second object, updating the beam information of the second object to the second target beam information, or updating an RS resource to be measured of the second object to an RS resource corresponding to the second target beam information; determining first target beam information of the first object according to the second target beam information, and updating the beam information of the first object to the first target beam information, or updating an RS resource to be measured of the first object to an RS resource corresponding to the first target beam information;

under the condition that the second target beam indication signaling carries first target beam information of the first object and second target beam information of the second object, updating the beam information of the first object to the first target beam information or updating an RS resource to be measured of the first object to an RS resource corresponding to the first target beam information according to the indication of the second target beam indication signaling; and updating the beam information of the second object to the second target beam information, or updating the RS resource to be measured of the second object to an RS resource corresponding to the second target beam information.

In a possible implementation manner, the step of the second target beam indication signaling carrying first target beam information of the first object includes: the second target beam indication signaling carries a first common TCI state for a first component carrier group, wherein the first object belongs to or includes the first component carrier group; or, the second target beam indication signaling carries second target beam information of the second object, including: the second target beam indication signaling carries a second common TCI state for a second group of component carriers, wherein the second object belongs to or includes the second group of component carriers; or, the second target beam indication signaling carries first target beam information of the first object and second target beam information of the second object, including: the second target beam indication signaling carries a first common TCI state of a first component carrier group and a second common TCI state of a second component carrier group, wherein the first object belongs to or includes the first component carrier group, and the second object belongs to or includes the second component carrier group.

In one possible implementation, the second target beam indication signaling indication to update the beam information of the first target object or update the RS to be measured resource of the first target object includes at least one of: the second target beam indication signaling indicates that the first transmission configuration indication TCI state of the first target object is updated to a target TCI state; the second target beam indication signaling indicates that the RS resource of QCL type D in the first TCI state of the first target object is updated to be a first target RS resource; the first TCI state is a TCI state of the first target object indicated last by the network side device, or the first TCI state is a TCI state of the first target object activated last by the network side device.

In one possible implementation manner, the second determining module 405 is further configured to:

updating beam information of each member carrier in a first member carrier group based on the updated beam information of the first object when the first object belongs to or comprises the first member carrier group; and/or

And updating the beam information of each component carrier in the second component carrier group based on the updated beam information of the second object when the second object belongs to or comprises the second component carrier group.

In one possible implementation, the first object and the second object each include at least one of: a cell; a carrier wave; a bandwidth part BWP; sub-band of sub-band; a frequency band; sending a receiving point TRP; and a terminal panel.

In one possible implementation, the second determining module is further configured to perform at least one of the following operations:

activating or using the first object under the condition that the signal quality on the RS resource to be measured corresponding to the first object meets a fourth preset condition;

under the condition that the signal quality on the RS resource to be measured corresponding to the first object meets a fourth preset condition, sending a ninth notification to network side equipment, wherein the ninth notification indicates that the first object is in an activated state or a used state;

Sending a tenth notification to a network side device when the signal quality on the RS resource to be measured corresponding to the first object meets a fourth preset condition, where the tenth notification indicates that the signal quality on the RS resource to be measured corresponding to the first object meets the fourth preset condition;

under the condition that the signal quality on the RS resource to be measured corresponding to the first object does not meet a fourth preset condition, deactivating or not using the first object;

under the condition that the signal quality on the RS resource to be measured corresponding to the first object does not meet a fourth preset condition, sending an eleventh notification to a network side device, wherein the eleventh notification indicates that the first object is in a deactivated state or a non-used state;

sending a twelfth notification to the network side device when the signal quality on the RS resource to be measured corresponding to the first object does not satisfy a fourth preset condition, where the twelfth notification indicates that the signal quality on the RS resource to be measured corresponding to the first object does not satisfy the fourth preset condition;

activating or using the first object in case that the signal quality of the first beam information satisfies a fifth preset condition;

Sending the ninth notification to a network side device when the signal quality of the first beam information satisfies a fifth preset condition;

transmitting a thirteenth notification to a network side device when the signal quality of the first beam information satisfies a fifth preset condition, wherein the thirteenth notification indicates that the signal quality of the first beam information satisfies the fifth preset condition;

deactivating or not using the first object in case the signal quality of the first beam information does not satisfy a fifth preset condition;

sending the eleventh notification to a network side device when the signal quality of the first beam information does not satisfy a fifth preset condition;

sending a fourteenth notification to a network side device when the signal quality of the first beam information does not satisfy a fifth preset condition, wherein the fourteenth notification indicates that the signal quality of the first beam information does not satisfy the fifth preset condition;

the terminal activates or uses the first object when the performance of using the first target beam information transmission channel or the reference signal satisfies a sixth preset condition;

transmitting the ninth notification when the performance of using the first target beam information transmission channel or the reference signal satisfies a sixth preset condition;

Sending a fifteenth notification to a network side device when the performance of using the first target beam information transmission channel or the reference signal meets a sixth preset condition, wherein the fifteenth notification indicates that the performance of using the first target beam information transmission channel or the reference signal by the terminal meets the sixth preset condition;

deactivating or not using the first object in case the performance of using the first target beam information transmission channel or the reference signal does not satisfy a sixth preset condition;

transmitting the eleventh notification when the performance of using the first target beam information transmission channel or the reference signal does not satisfy a sixth preset condition;

transmitting a sixteenth notification to a network side device when the performance of using the first target beam information transmission channel or the reference signal does not satisfy a sixth preset condition, wherein the sixteenth notification indicates that the performance of using the first target beam information transmission channel or the reference signal does not satisfy the sixth preset condition;

activating or using the first object according to a third signaling sent by the network side equipment;

and deactivating or not using the first object according to a fourth signaling sent by the network side equipment.

activating or using the second object under the condition that the signal quality on the RS resource to be measured corresponding to the second object meets a seventh preset condition;

sending a seventeenth notification to a network side device when the signal quality on the RS resource to be measured corresponding to the second object meets a seventh preset condition, where the seventeenth notification indicates that the second object is in an active state or a use state;

sending an eighteenth notification to a network side device when the signal quality on the RS resource to be measured corresponding to the second object meets a seventh preset condition, where the eighteenth notification indicates that the signal quality on the RS resource to be measured corresponding to the second object meets the seventh preset condition;

under the condition that the signal quality on the RS resource to be measured corresponding to the second object does not meet a seventh preset condition, deactivating or not using the second object;

under the condition that the signal quality on the RS resource to be measured corresponding to the second object does not meet a seventh preset condition, sending a nineteenth notification to network side equipment, wherein the nineteenth notification indicates that the second object is in a deactivated state or a non-used state;

Under the condition that the signal quality on the RS resource to be measured corresponding to the second object does not meet a seventh preset condition, sending a twentieth notification to network side equipment, wherein the twentieth notification indicates that the signal quality on the RS resource to be measured corresponding to the second object does not meet the seventh preset condition;

activating or using the second object in case that the signal quality of the second beam information satisfies an eighth preset condition;

sending the seventeenth notification to a network side device when the signal quality of the second beam information satisfies an eighth preset condition;

under the condition that the signal quality of the second beam information meets an eighth preset condition, sending a twenty-first notification to network side equipment, wherein the twenty-first notification indicates that the signal quality of the second beam information meets the eighth preset condition;

deactivating or not using the second object in case the signal quality of the second beam information does not satisfy an eighth preset condition;

sending the nineteenth notification to a network side device when the signal quality of the second beam information does not satisfy an eighth preset condition;

sending a twenty-second notification to a network side device when the signal quality of the second beam information does not satisfy an eighth preset condition, wherein the twentieth notification indicates that the signal quality of the second beam information does not satisfy the eighth preset condition;

Activating or using the second object in case that performance of transmitting a channel or a reference signal using the second target beam information satisfies a ninth preset condition;

sending the seventeenth notification to a network side device when the performance of using the second target beam information transmission channel or the reference signal meets a ninth preset condition;

transmitting a twenty-third notification to a network side device when the performance of using the second target beam information transmission channel or the reference signal satisfies a ninth preset condition, wherein the twentieth notification indicates that the performance of using the second target beam information transmission channel or the reference signal satisfies the ninth preset condition;

deactivating or not using the second object in case the performance of using the second target beam information transmission channel or the reference signal does not satisfy a ninth preset condition;

sending the nineteenth notification to a network side device when the performance of using the second target beam information transmission channel or the reference signal does not satisfy a ninth preset condition;

transmitting twenty-fourth notification to a network side device when the performance of transmitting the channel or the reference signal using the second target beam information does not satisfy a ninth preset condition, wherein the twenty-fourth notification indicates that the performance of transmitting the channel or the reference signal using the second target beam information does not satisfy the ninth preset condition;

Activating or using the second object according to a fifth signaling of the network side equipment;

and deactivating or not using the second object according to the sixth signaling of the network side equipment.

The determination device of the beam information in the embodiment of the present application may be a device, or may be a component, an integrated circuit, or a chip in the terminal. The device can be a mobile terminal or a non-mobile terminal. For example, the mobile terminal may include, but is not limited to, the above-listed type of terminal 11, and the non-mobile terminal may be a server, a Network Attached Storage (NAS), a Personal Computer (PC), a Television (TV), a teller machine, a kiosk, or the like, and the embodiments of the present application are not limited in particular.

The beam information determination device in the embodiment of the present application may be a device having an operating system. The operating system may be an Android (Android) operating system, an ios operating system, or other possible operating systems, and embodiments of the present application are not limited specifically.

The device for determining beam information provided in the embodiment of the present application can implement each process implemented by the terminal in the method embodiments of fig. 2 to fig. 3, and achieve the same technical effect, and is not described here again to avoid repetition.

Fig. 5 is a schematic structural diagram of another apparatus for determining beam information according to an embodiment of the present application, and as shown in fig. 5, the apparatus 500 mainly includes: a second sending module 501, a second receiving module 502 and a third sending module 503.

In this embodiment of the present application, the second sending module 501 is configured to send configuration information to a terminal, where the configuration information configures a target RS resource to be measured for the terminal, where the target RS resource to be measured corresponds to a first object and a second object; a second receiving module 502, configured to receive a target beam report reported by the terminal, where the target beam report includes the first beam information and/or the second beam information; a third sending module 503, configured to send first target beam indication signaling to the terminal based on the target beam report, where the first target beam indication signaling is used for the terminal to determine first target beam information on the first object and second target beam information on the second object.

In one possible implementation, the third sending module 503 is further configured to at least one of:

sending a first indication signaling to the terminal, wherein the first indication signaling indicates the terminal to measure the signal quality on the first RS resource to be measured;

sending a second indication signaling to the terminal, wherein the second indication signaling indicates the terminal to measure the signal quality on the second RS resource to be measured, and the second time is different from the first time;

and sending a third indication signaling to the terminal, wherein the third indication signaling indicates that the terminal simultaneously measures the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured.

In one possible implementation, the target RS resource to be measured includes: a third RS resource to be measured corresponding to both the first object and the second object.

In a possible implementation manner, the third sending module 503 is further configured to send a fourth indication signaling to the terminal, where the fourth indication signaling indicates that the terminal measures signal quality on the third RS resource to be measured corresponding to the first object and the second object, so as to obtain a joint measurement result of the first object and the second object.

In one possible implementation, the first beam information and/or the second beam information included in the target beam report is common beam information of the first object and the second object.

In a possible implementation manner, the first target beam indication signaling carries target shared beam information, and both the first target beam information indicating the first object and the second target beam information indicating the second object are the target shared beam information.

In one possible implementation, the apparatus further includes: an execution module to perform at least one of the following operations:

receiving a first notification sent by the terminal, wherein the first notification indicates that the first object and the second object are in an activated state or a combined use state;

receiving a second notification sent by the terminal, wherein the second notification indicates that the signal quality on the third RS resource to be measured meets a first preset condition;

Receiving a third notification sent by the terminal, wherein the third notification indicates that the first object and the second object are in a deactivated state or in a non-joint use state;

receiving a fourth notification sent by the terminal, wherein the fourth notification indicates that the signal quality on the third RS resource to be measured does not meet a first preset condition;

receiving a fifth notification sent by the terminal, wherein the fifth notification indicates that the signal quality of the shared beam information meets a second preset condition;

deactivating the first object and the second object or not jointly using the first object and the second object when the signal quality of the common beam information does not satisfy a second preset condition;

receiving a sixth notification sent by the terminal, wherein the sixth notification indicates that the signal quality of the common beam information does not satisfy a second preset condition;

activating the first object and the second object or jointly using the first object and the second object in case that performance of transmitting a channel or a reference signal using the target common beam information satisfies a third preset condition;

Receiving a seventh notification sent by the terminal, wherein the seventh notification indicates that the performance of the terminal in using the target shared beam information transmission channel or the reference signal meets a third preset condition;

deactivating the first object and the second object or not jointly using the first object and the second object in case the performance of using the target common beam information transmission channel or the reference signal does not satisfy a third preset condition;

receiving an eighth notification sent by the terminal, wherein the eighth notification indicates that the performance of the terminal in using the target shared beam information transmission channel or the reference signal does not satisfy a third preset condition;

sending a first signaling to the terminal, wherein the first signaling indicates to activate the first object and the second object or to jointly use the first object and the second object;

and sending second signaling to the terminal, wherein the second signaling indicates that the first object and the second object are deactivated or are not jointly used.

Sending a fifth indication signaling to the terminal, wherein the fifth indication signaling indicates the terminal to measure the signal quality on the third RS resource to be measured corresponding to the first object, so as to obtain a first measurement result corresponding to the first object;

sending a sixth indication signaling to the terminal, wherein the sixth indication signaling indicates the terminal to measure the signal quality on the third RS resource to be measured corresponding to the second object, so as to obtain a first measurement result corresponding to the second object;

and sending a seventh indication signaling to the terminal, wherein the seventh indication signaling indicates that the terminal measures a first signal quality and a second signal quality at the same time, the first signal quality is the signal quality on the third RS resource to be measured corresponding to the first object, and the second signal quality is the signal quality on the third RS resource to be measured corresponding to the second object.

In one possible implementation manner, the first beam report carrying the first beam information and the second beam information includes: carrying beam information of a first beam and beam information of a second beam in the first beam report according to a first preset rule; the second beam report carrying the first beam information and the third beam report carrying the second beam information, comprising: according to a second preset rule, carrying the beam information of the first beam in the second beam report, and carrying the beam information of the second beam in the third beam report. Wherein the first beam and the second beam are two beams that can be used by the terminal at the same time, the beam information of the first beam is one of one or more pieces of the first beam information, and the beam information of the second beam is one of one or more pieces of the second beam information.

In a possible implementation manner, the first target beam indication signaling carries the first target beam information and/or the second target beam information.

In one possible implementation, the first target beam information is one of a first beam pool configured for the first object; the second target beam information on the second object is one of the first beam pool, or the second target beam information on the second object is one of a second beam pool configured for the second object.

In one possible implementation, the apparatus further includes: an execution module, configured to update beam information of a first target object or update RS resources of the first target object based on the first beam information and/or the second beam information included in the target beam report, where the first target object includes: at least one of the first object and the second object.

In a possible implementation manner, the third sending module is further configured to send a second target beam indication signaling to the terminal, where the second target beam indication signaling indicates to update beam information of the first target object or update RS resources to be measured of the first target object.

In one possible implementation manner, the second target beam indication signaling indicates to update beam information of the first target object or update RS resources to be measured of the first target object, where the second target beam indication signaling indicates to update beam information of the first target object, and the second target beam indication signaling includes one of:

In a possible implementation manner, the step of the second target beam indication signaling carrying first target beam information of the first object includes: the second target beam indication signaling carries a first common TCI state for a first component carrier group, wherein the first object belongs to or includes the first component carrier group; or, the second target beam indication signaling carries second target beam information of the second object, including: the second target beam indication signaling carries a second common TCI state for a second group of component carriers, wherein the second object belongs to or includes the second group of component carriers; the second target beam indication signaling carries first target beam information of the first object and second target beam information of the second object, including: the second target beam indication signaling carries a first common TCI state of a first component carrier group and a second common TCI state of a second component carrier group, wherein the first object belongs to or includes the first component carrier group, and the second object belongs to or includes the second component carrier group.

In a possible implementation manner, the apparatus further includes an execution module, configured to update beam information of each component carrier in a first component carrier group based on the updated beam information of the first object, where the first object belongs to or includes the first component carrier group; and/or updating the beam information of each component carrier in the second component carrier group based on the updated beam information of the second object under the condition that the second object belongs to or comprises the second component carrier group.

In one possible implementation, the first object and the second object each include at least one of: a cell; a carrier wave; a bandwidth part BWP; sub-band of sub-band; a frequency band; sending a receiving point TRP; a termination panel.

In one possible implementation manner, the apparatus further includes an execution module configured to perform at least one of the following operations:

receiving a ninth notification sent by the terminal, wherein the ninth notification indicates that the first object is in an activated state or a used state;

receiving a tenth notification sent by the terminal, wherein the tenth notification indicates that the signal quality on the RS-to-be-measured resource corresponding to the first object meets a fourth preset condition;

Receiving an eleventh notification sent by the terminal, wherein the eleventh notification indicates that the first object is in a deactivated state or a non-used state;

receiving a twelfth notification sent by the terminal, wherein the twelfth notification indicates that the signal quality on the RS resource to be measured corresponding to the first object does not satisfy a fourth preset condition;

receiving a thirteenth notification sent by the terminal, wherein the thirteenth notification indicates that the signal quality of the first beam information satisfies a fifth preset condition;

receiving a fourteenth notification sent by the terminal, wherein the fourteenth notification indicates that the signal quality of the first beam information does not satisfy a fifth preset condition;

activating or using the first object in case that performance of using the first target beam information transmission channel or the reference signal satisfies a sixth preset condition;

receiving a fifteenth notification sent by the terminal, wherein the fifteenth notification indicates that the performance of the terminal in using the first target beam information transmission channel or a reference signal meets a sixth preset condition;

Deactivating or not using the first object in case that performance of using the first target beam information transmission channel or the reference signal does not satisfy a sixth preset condition;

receiving a sixteenth notification sent by the terminal, wherein the sixteenth notification indicates that the performance of the terminal using the first target beam information transmission channel or the reference signal does not meet a sixth preset condition;

sending a third signaling to the terminal, wherein the third signaling indicates to activate or use the first object;

and sending fourth signaling to the terminal, wherein the fourth signaling indicates that the first object is deactivated or not used.

receiving a seventeenth notification sent by the terminal, wherein the seventeenth notification indicates that the second object is in an activated state or a used state;

receiving an eighteenth notification sent by the terminal, wherein the eighteenth notification indicates that the signal quality on the RS resource to be measured corresponding to the second object meets a seventh preset condition;

receiving a nineteenth notification sent by the terminal, wherein the nineteenth notification indicates that the second object is in a deactivated state or a non-used state;

Receiving a twentieth notification sent by the terminal, wherein the twentieth notification indicates that the signal quality on the RS resource to be measured corresponding to the second object does not satisfy a seventh preset condition;

receiving a twenty-first notification sent by the terminal, wherein the twenty-first notification indicates that the signal quality of the second beam information meets an eighth preset condition;

receiving a twenty-second notification sent by the terminal, wherein the twenty-second notification indicates that the signal quality of the second beam information does not satisfy an eighth preset condition;

receiving the transmitted twenty-third notification, wherein the twenty-third notification indicates that performance of the second target beam information transmission channel or a reference signal satisfies a ninth preset condition;

receiving a twenty-fourth notification sent by the terminal, wherein the twenty-fourth notification indicates that the performance of the second target beam information transmission channel or the reference signal does not satisfy a ninth preset condition;

sending a fifth signaling to the terminal, wherein the fifth signaling indicates to activate or use the second object;

and sending a sixth signaling to the terminal, wherein the sixth signaling deactivates or does not use the second object.

The device for determining beam information provided in the embodiment of the present application can implement each process implemented by the network side device in the method embodiments of fig. 2 to fig. 3, and achieve the same technical effect, and is not described here again to avoid repetition.

Optionally, as shown in fig. 6, an embodiment of the present application further provides a communication device 600, which includes a processor 601, a memory 602, and a program or an instruction stored on the memory 602 and executable on the processor 601, for example, when the communication device 600 is a terminal, the program or the instruction is executed by the processor 601 to implement the processes of the embodiment of the beam information determination method 200, and the same technical effect can be achieved. When the communication device 600 is a network-side device, the program or the instructions are executed by the processor 601 to implement the processes of the embodiment of the method 300 for determining beam information, and the same technical effects can be achieved.

The embodiment of the present application further provides a terminal, which includes a processor and a communication interface, where the processor is configured to implement each process of the foregoing method 200 for determining beam information, and the communication interface is configured to communicate with a network side device. The terminal embodiment corresponds to the terminal-side method embodiment, and all implementation processes and implementation manners of the method embodiment can be applied to the terminal embodiment and can achieve the same technical effect. Specifically, fig. 7 is a schematic diagram of a hardware structure of a terminal for implementing the embodiment of the present application.

The terminal 700 includes, but is not limited to: a radio frequency unit 701, a network module 702, an audio output unit 703, an input unit 704, a sensor 705, a display unit 706, a user input unit 707, an interface unit 708, a memory 709, and a processor 710.

Those skilled in the art will appreciate that the terminal 700 may further include a power supply (e.g., a battery) for supplying power to various components, which may be logically connected to the processor 710 via a power management system, so as to manage charging, discharging, and power consumption management functions via the power management system. The terminal structure shown in fig. 7 does not constitute a limitation of the terminal, and the terminal may include more or less components than those shown, or combine some components, or have a different arrangement of components, and will not be described again here.

It should be understood that in the embodiment of the present application, the input Unit 704 may include a Graphics Processing Unit (GPU) 7041 and a microphone 7042, and the Graphics Processing Unit 7041 processes image data of still pictures or videos obtained by an image capturing device (e.g., a camera) in a video capturing mode or an image capturing mode. The display unit 706 may include a display panel 7061, and the display panel 7061 may be configured in the form of a liquid crystal display, an organic light emitting diode, or the like. The user input unit 707 includes a touch panel 7071 and other input devices 7072. The touch panel 7071 is also referred to as a touch screen. The touch panel 7071 may include two parts of a touch detection device and a touch controller. Other input devices 7072 may include, but are not limited to, a physical keyboard, function keys (e.g., volume control keys, switch keys, etc.), a trackball, a mouse, and a joystick, which are not described in detail herein.

In the embodiment of the present application, the radio frequency unit 701 receives downlink data from a network side device and then processes the downlink data in the processor 710; in addition, the uplink data is sent to the network side equipment. In general, radio frequency unit 701 includes, but is not limited to, an antenna, at least one amplifier, a transceiver, a coupler, a low noise amplifier, a duplexer, and the like.

The memory 709 may be used to store software programs or instructions as well as various data. The memory 709 may mainly include a storage program or instruction area and a storage data area, wherein the storage program or instruction area may store an operating system, an application program or instruction (such as a sound playing function, an image playing function, etc.) required by at least one function, and the like. In addition, the Memory 709 may include a high-speed random access Memory and a non-transitory Memory, wherein the non-transitory Memory may be a Read-Only Memory (ROM), a Programmable ROM (PROM), an Erasable Programmable PROM (EPROM), an Electrically Erasable Programmable ROM (EEPROM), or a flash Memory. Such as at least one magnetic disk storage device, flash memory device, or other non-transitory solid state storage device.

Processor 710 may include one or more processing units; alternatively, processor 710 may integrate an application processor that handles primarily the operating system, user interface, and application programs or instructions, etc. and a modem processor that handles primarily wireless communications, such as a baseband processor. It will be appreciated that the modem processor described above may not be integrated into processor 710.

The processor 710 is configured to measure, according to the received configuration information, signal quality on a target reference signal to be measured RS resource, where the target RS resource to be measured corresponds to a first object and a second object; determining first beam information of the first object and second beam information of a second object according to the measurement result;

a radio frequency unit 701, configured to report a target beam report based on the first beam information and the second beam information, where the target beam report includes the first beam information and/or the second beam information; receiving a first target beam indication signaling sent by network side equipment;

the processor 710 is further configured to determine first target beam information of the first object and second target beam information of the second object according to the first target beam indication signaling.

The embodiment of the present application further provides a network side device, which includes a processor and a communication interface, where the processor is configured to implement each process of the foregoing beam information determining method 300, and the communication interface is configured to communicate with a terminal. The embodiment of the network side device corresponds to the embodiment of the method of the network side device, and all implementation processes and implementation manners of the embodiment of the method can be applied to the embodiment of the network side device and can achieve the same technical effect.

Specifically, the embodiment of the application further provides a network side device. As shown in fig. 8, the network device 800 includes: antenna 801, radio frequency device 802, baseband device 803. The antenna 801 is connected to a radio frequency device 802. In the uplink direction, the rf device 802 receives information via the antenna 801 and sends the received information to the baseband device 803 for processing. In the downlink direction, the baseband device 803 processes information to be transmitted and transmits the information to the radio frequency device 802, and the radio frequency device 802 processes the received information and transmits the processed information through the antenna 801.

The above band processing means may be located in the baseband means 803, and the method performed by the network side device in the above embodiment may be implemented in the baseband means 803, where the baseband means 803 includes a processor 804 and a memory 805.

The baseband apparatus 803 may include, for example, at least one baseband board, on which a plurality of chips are disposed, as shown in fig. 8, where one chip, for example, the processor 804, is connected to the memory 805 to call up the program in the memory 805 to perform the network device operations shown in the above method embodiments.

The baseband device 803 may further include a network interface 806, such as a Common Public Radio Interface (CPRI), for exchanging information with the radio frequency device 802.

Specifically, the network side device of the embodiment of the present invention further includes: the instructions or programs stored in the memory 805 and capable of being executed on the processor 804, and the processor 804 calls the instructions or programs in the memory 805 to execute the methods executed by the modules shown in fig. 5, and achieve the same technical effects, which are not described herein for avoiding repetition.

The embodiment of the present application further provides a readable storage medium, where a program or an instruction is stored on the readable storage medium, and when the program or the instruction is executed by a processor, the program or the instruction implements each process of the embodiment of the method for determining beam information, and can achieve the same technical effect, and in order to avoid repetition, details are not repeated here.

Wherein, the processor is the processor in the terminal described in the above embodiment. The readable storage medium includes a computer readable storage medium, such as a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and so on.

The embodiment of the present application further provides a chip, where the chip includes a processor and a communication interface, the communication interface is coupled to the processor, and the processor is configured to execute a program or an instruction to implement each process of the foregoing method for determining beam information, and can achieve the same technical effect, and in order to avoid repetition, details are not repeated here.

It should be understood that the chips mentioned in the embodiments of the present application may also be referred to as a system-on-chip, a system-on-chip or a system-on-chip, etc.

The embodiments of the present application further provide a computer program/program product, where the computer program/program product is stored in a non-transitory storage medium, and the program/program product is executed by at least one processor to implement each process of the foregoing method for determining beam information, and can achieve the same technical effect, and in order to avoid repetition, details are not repeated here.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a component of' 8230; \8230;" does not exclude the presence of another like element in a process, method, article, or apparatus that comprises the element. Further, it should be noted that the scope of the methods and apparatus of the embodiments of the present application is not limited to performing the functions in the order illustrated or discussed, but may include performing the functions in a substantially simultaneous manner or in a reverse order based on the functions involved, e.g., the methods described may be performed in an order different than that described, and various steps may be added, omitted, or combined. In addition, features described with reference to certain examples may be combined in other examples.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present application may be embodied in the form of a computer software product, which is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present application.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A method for determining beam information, comprising:

the terminal measures the signal quality on a target Reference Signal (RS) resource to be measured according to the received configuration information, wherein the target RS resource to be measured corresponds to a first object and a second object;

the terminal determines first beam information of the first object and second beam information of a second object according to the measurement result;

the terminal reports a target beam report based on the first beam information and the second beam information, wherein the target beam report comprises the first beam information and/or the second beam information;

the terminal receives a first target beam indication signaling sent by network side equipment;

and the terminal determines first target beam information of the first object and second target beam information of the second object according to the first target beam indication signaling.

2. The method according to claim 1, wherein the target RS resource to be measured comprises: a first RS resource to be measured corresponding to the first object and a second RS resource to be measured corresponding to the second object.

3. The method according to claim 2, wherein measuring the signal quality on the RS resource of the target reference signal to be measured comprises:

And the terminal respectively measures the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured at different time.

4. The method according to claim 3, wherein the terminal measures the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured at different times, respectively, and comprises:

the terminal measures the signal quality of the first RS resource to be measured under the condition of receiving a first indication signaling sent by network side equipment, wherein the first indication signaling indicates that the signal quality of the first RS resource to be measured is measured; and/or the presence of a gas in the gas,

and the terminal measures the signal quality of the second RS resource to be measured under the condition of receiving a second indication signaling sent by the network side equipment, wherein the second indication signaling indicates that the signal quality of the second RS resource to be measured is measured.

5. The method according to claim 3, wherein the terminal measures the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured at different times, respectively, and comprises:

After the terminal finishes measuring the signal quality on all the first RS resources to be measured, measuring the signal quality on all the second RS resources to be measured; or,

and the terminal alternately measures the signal quality of the first RS resource to be measured and the signal quality of the second RS resource to be measured.

6. The method according to claim 2, wherein measuring the signal quality on the RS resource of the target reference signal to be measured comprises:

and the terminal simultaneously measures the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured.

7. The method according to claim 6, wherein the terminal simultaneously measures the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured, comprising:

and the terminal measures the signal quality on the first RS resource to be measured and the signal quality on the second RS resource to be measured under the condition of receiving a third indication signaling sent by network side equipment.

8. The method according to any one of claims 2 to 5, wherein the terminal measures the signal quality on the RS resource of the target reference signal to be measured according to the received configuration information, and comprises:

The terminal determines beam information used for measuring a second target RS resource according to a measurement result corresponding to a first target RS resource and/or a target beam report corresponding to the first target RS resource, wherein the first target RS resource comprises the first RS resource to be measured, the second target RS resource comprises the second RS resource to be measured, or the first target RS resource comprises the second RS resource to be measured, and the second target RS resource comprises the first RS resource to be measured.

9. The method according to any of claims 2 to 7, wherein the configuration information comprises measurement timing information of the first RS resource to be measured and measurement timing information of the second RS resource to be measured.

10. The method according to claim 1, wherein the target RS resource to be measured comprises: and a third RS resource to be measured corresponding to the first object and the second object at the same time.

11. A method according to claim 10, characterized in that the terminal takes the measurement result obtained on the third RS resource to be measured as a joint measurement result of the first object and the second object.

12. The method according to claim 11, wherein the terminal measures the signal quality on the RS resource of the target reference signal to be measured according to the received configuration information, and comprises:

and under the condition that the terminal receives a fourth indication signaling sent by network side equipment, measuring the signal quality on the third RS resource to be measured corresponding to the first object and the second object to obtain the combined measurement result.

13. The method according to claim 11 or 12,

the terminal determines first beam information of the first object and second beam information of the second object according to the measurement result, and the method comprises the following steps: the terminal determines common beam information of the first object and the second object according to a joint measurement result of the third RS resource to be measured corresponding to the first object and the second object;

the terminal reporting a target beam report based on the first beam information and the second beam information, including: and the terminal reports a target beam report, wherein the target beam report comprises the shared beam information.

14. The method of claim 13, wherein the terminal is capable of simultaneously using a first beam on the first object and a second beam on the second object, and wherein the first beam and the second beam are beams corresponding to any one of the common beam information.

15. The method of claim 13,

the first target beam indication signaling carries target common beam information;

the determining, by the terminal according to the first target beam indication signaling, first target beam information of the first object and second target beam information of the second object includes:

the terminal determines that the first target beam information of the first object and the second target beam information of the second object are both the target common beam information.

16. The method of claim 13, further comprising at least one of:

sending a third notification to a network side device when the signal quality on the third RS resource to be measured does not meet a first preset condition, wherein the third notification indicates that the first object and the second object are in a deactivated state or in a non-combined use state;

Sending a fifth notification to a network side device when the signal quality of the common beam information meets a second preset condition, wherein the fifth notification indicates that the signal quality of the common beam information meets the second preset condition;

the terminal activates the first object and the second object or jointly uses the first object and the second object in case that performance of using the target common beam information transmission channel or the reference signal satisfies a third preset condition;

the terminal deactivates the first object and the second object or does not jointly use the first object and the second object in case the performance of using the target common beam information transmission channel or the reference signal does not satisfy a third preset condition;

under the condition that the performance of the target shared beam information transmission channel or the reference signal does not meet a third preset condition, the terminal sends an eighth notification to network side equipment, wherein the eighth notification indicates that the performance of the target shared beam information transmission channel or the reference signal does not meet the third preset condition;

The terminal activates the first object and the second object or jointly uses the first object and the second object according to a first signaling sent by network side equipment;

and the terminal deactivates the first object and the second object or does not jointly use the first object and the second object according to a second signaling sent by the network side equipment.

17. The method according to claim 10, wherein the terminal uses a first measurement result obtained on the third RS resource to be measured at a first time as the measurement result of the first object and a second measurement result obtained on the third RS resource to be measured at a second time as the measurement result of the second object, wherein the first time is different from the second time.

18. The method according to claim 17, wherein the terminal measures the signal quality on the RS resource of the target reference signal to be measured according to the received configuration information, and comprises:

the terminal measures the signal quality on the third RS resource to be measured corresponding to the first object under the condition of receiving a fifth indication signaling sent by network side equipment, and obtains the first measurement result; and/or the presence of a gas in the gas,

19. The method according to claim 17, wherein the terminal measures the signal quality on the RS resource of the target reference signal to be measured according to the received configuration information, and comprises:

after measuring the signal quality on all the third RS resources to be measured corresponding to the first object, the terminal measures the signal quality on all the third RS resources to be measured corresponding to the second object; or,

the terminal alternately measures the signal quality of the third RS resource to be measured corresponding to the first object and the signal quality on the third RS resource to be measured corresponding to the second object.

20. The method according to claim 17, wherein the terminal measures the signal quality on the RS resource of the target reference signal to be measured according to the received configuration information, further comprising:

and determining beam information used for measuring the third resource to be measured corresponding to a second target object according to the measurement result of the third RS resource to be measured corresponding to the first target object and/or the beam report of the third resource to be measured corresponding to the first target object, wherein the first target object comprises the first object, and the second target object comprises the second object, or the first target object comprises the second object, and the second target object comprises the first object.

21. The method according to claim 10, wherein the terminal measures the signal quality on the RS resource of the target reference signal to be measured according to the received configuration information, and comprises:

and the terminal simultaneously measures a first signal quality and a second signal quality, wherein the first signal quality is the signal quality on the RS resource to be measured corresponding to the third object, and the second signal quality is the signal quality on the RS resource to be measured corresponding to the second object.

22. The method of claim 21, wherein the terminal simultaneously measures a first signal quality and a second signal quality, comprising:

and the terminal measures the first signal quality and the second signal quality under the condition of receiving a seventh indication signaling sent by network side equipment.

23. The method according to any one of claims 10 to 12 and 17 to 22, wherein the configuration information comprises measurement timing information of the third RS resource to be measured corresponding to the first object and measurement timing information of the third RS resource to be measured corresponding to the second object.

24. The method according to any of claims 1 to 8, 10, 17 to 22, wherein in case the first beam information and the second beam information are included in the target beam report, the target beam report further indicates that the first beam information corresponds to the first object and the second beam information corresponds to the second object.

25. The method of claim 24, wherein the target beam report indicates that the first beam information corresponds to the first object and the second beam information corresponds to the second object, and wherein one of:

26. The method of claim 25, wherein the terminal can use a first beam and a second beam simultaneously, and wherein the first beam is a beam corresponding to any one of the first beam information and the second beam is a beam corresponding to any one of the second beam information.

27. The method of claim 25,

the first beam report carrying the first beam information and the second beam information, comprising: carrying beam information of a first beam and beam information of a second beam in the first beam report according to a first preset rule;

the second beam report carrying the first beam information and the third beam report carrying the second beam information, comprising: according to a second preset rule, carrying the beam information of the first beam in the second beam report and carrying the beam information of the second beam in the third beam report;

wherein the first beam and the second beam are two beams that can be used by the terminal at the same time, the beam information of the first beam is one of one or more pieces of the first beam information, and the beam information of the second beam is one of one or more pieces of the second beam information.

28. The method of claim 27,

the first preset rule comprises one of the following: a preset sequence corresponding relation, a preset position corresponding relation and adjacent carrying of the beam information of the first beam and the beam information of the second beam;

The second preset rule comprises: a preset sequence corresponding relationship or a preset position corresponding relationship.

29. The method according to any one of claims 1 to 8, 10, and 17 to 22, wherein the terminal determines, according to the first target beam indication signaling, first target beam information of the first object and second target beam information of the second object, and includes one of:

under the condition that the first target beam indication signaling carries first target beam information of the first object, the terminal determines that the target beam information of the first object is the first target beam information carried by the first target beam indication signaling, and determines second target beam information of the second object according to the first target beam information;

under the condition that the first target beam indication signaling carries second target beam information of the second object, the terminal determines that the target beam information of the second object is the second target beam information carried by the first target beam indication signaling, and determines first target beam information of the first object according to the second target beam information;

Under the condition that the first target beam indication signaling carries first target beam information of the first object and second target beam information of the second object, the terminal determines that the target beam information of the first object is the first target beam information carried by the first target beam indication signaling, and the target beam information of the second object is the second target beam information carried by the first target beam indication signaling.

30. The method according to any one of claims 1 to 8, 10, and 17 to 22, wherein the first target beam information is one of a first beam pool configured for the first object by the network side device; the second target beam information on the second object is one of the first beam pools, or the second target beam information on the second object is one of second beam pools configured by the network side device for the second object.

31. The method according to any of claims 1-8, 10, 17-22, wherein after the terminal reports a target beam report, the method further comprises:

the terminal updates beam information of a first target object or updates RS resources to be measured of the first target object, wherein the first target object comprises: at least one of the first object and the second object.

32. The method according to claim 31, wherein the terminal updates beam information of the first target object or updates RS resources to be measured of the first target object, and comprises one of:

and the terminal updates the beam information of the first object according to the first beam information and updates the beam information of the second object according to the second beam information, or the terminal updates the first RS resource to be measured of the first object according to the first beam information and updates the second RS resource to be measured of the second object according to the second beam information.

33. The method according to claim 31, wherein the terminal updates beam information of the first target object or updates RS resources to be measured of the first target object, comprising:

34. The method according to claim 33, wherein the terminal updates the beam information of the first target object or updates the RS to be measured resource of the first target object according to the second target beam indication signaling, and comprises one of:

under the condition that the second target beam indication signaling carries first target beam information of the first object, the terminal updates the beam information of the first object to the first target beam information, or updates an RS resource to be measured of the first object to an RS resource corresponding to the first target beam information;

under the condition that the second target beam indication signaling carries first target beam information of the first object, the terminal updates the beam information of the first object to the first target beam information, or updates an RS resource to be measured of the first object to an RS resource corresponding to the first target beam information; the terminal determines second target beam information of the second object according to the first target beam information, updates the beam information of the second object to the second target beam information, or updates the RS resource to be measured of the second object to an RS resource corresponding to the second target beam information;

Under the condition that the second target beam indication signaling carries second target beam information of the second object, the terminal updates the beam information of the second object to the second target beam information, or updates an RS resource to be measured of the second object to an RS resource corresponding to the second target beam information;

under the condition that the second target beam indication signaling carries second target beam information of the second object, the terminal updates the beam information of the second object to the second target beam information, or updates an RS resource to be measured of the second object to an RS resource corresponding to the second target beam information; the terminal determines first target beam information of the first object according to the second target beam information, updates the beam information of the first object to the first target beam information, or updates an RS resource to be measured of the first object to an RS resource corresponding to the first target beam information;

under the condition that the second target beam indication signaling carries first target beam information of the first object and second target beam information of the second object, the terminal updates the beam information of the first object to the first target beam information or updates an RS resource to be measured of the first object to an RS resource corresponding to the first target beam information according to the indication of the second target beam indication signaling; and updating the beam information of the second object to the second target beam information, or updating the RS resource to be measured of the second object to an RS resource corresponding to the second target beam information.

35. The method of claim 34,

the second target beam indication signaling carries first target beam information of the first object, including: the second target beam indication signaling carries a first common TCI state for a first component carrier group, wherein the first object belongs to or includes the first component carrier group; or,

the second target beam indication signaling carries second target beam information of the second object, including: the second target beam indication signaling carries a second common TCI state for a second group of component carriers, wherein the second object belongs to or includes the second group of component carriers; or,

the second target beam indication signaling carries first target beam information of the first object and second target beam information of the second object, including: the second target beam indication signaling carries a first common TCI status of a first component carrier group and a second common TCI status of a second component carrier group, where the first object belongs to or includes the first component carrier group, and the second object belongs to or includes the second component carrier group.

36. The method according to claim 33, wherein the second target beam indication signaling indication updating the beam information of the first target object or updating the RS resources to be measured of the first target object comprises at least one of:

the second target beam indication signaling indicates that the first transmission configuration indication TCI state of the first target object is updated to a target TCI state;

the second target beam indication signaling indicates that the RS resource of QCL type D in the first TCI state of the first target object is updated to be a first target RS resource;

the first TCI state is a TCI state of the first target object indicated last by the network side device, or the first TCI state is a TCI state of the first target object activated last by the network side device.

37. The method of any one of claims 31 to 36, further comprising:

under the condition that the first object belongs to or comprises a first component carrier group, the terminal updates the beam information of each component carrier in the first component carrier group based on the updated beam information of the first object; and/or

38. The method of any one of claims 1 to 7, 10 to 12, 14 to 22, 25 to 28, 30, 32 to 36, wherein the first object and the second object each comprise at least one of: a cell; a carrier wave; a bandwidth part BWP; sub-band of sub-band; a frequency band; sending a receiving point TRP; a termination panel.

39. The method of any one of claims 1 to 7, 10, 17 to 22, 25 to 28, 30, 32 to 36, further comprising at least one of:

the terminal sends the ninth notification when the performance of using the first target beam information transmission channel or the reference signal meets a sixth preset condition;

Under the condition that the performance of using the first target beam information transmission channel or the reference signal meets a sixth preset condition, the terminal sends a fifteenth notification to a network side device, wherein the fifteenth notification indicates that the performance of using the first target beam information transmission channel or the reference signal meets the sixth preset condition;

the terminal deactivates or does not use the first object when the performance of using the first target beam information transmission channel or the reference signal does not satisfy a sixth preset condition;

the terminal sends the eleventh notification when the performance of using the first target beam information transmission channel or the reference signal does not satisfy a sixth preset condition;

under the condition that the performance of using the first target beam information transmission channel or the reference signal does not meet a sixth preset condition, the terminal sends a sixteenth notification to network side equipment, wherein the sixteenth notification indicates that the performance of using the first target beam information transmission channel or the reference signal by the terminal does not meet the sixth preset condition;

the terminal activates or uses the first object according to a third signaling sent by the network side equipment;

And the terminal deactivates or does not use the first object according to a fourth signaling sent by the network side equipment.

40. The method of any one of claims 1 to 7, 10, 17 to 22, 25 to 28, 30, 32 to 36, further comprising at least one of:

activating or using the second object in case that performance of using the second target beam information transmission channel or the reference signal satisfies a ninth preset condition;

transmitting a twenty-third notification to a network side device when the performance of using the second target beam information transmission channel or the reference signal meets a ninth preset condition, wherein the twentieth notification indicates that the performance of using the second target beam information transmission channel or the reference signal by the terminal meets the ninth preset condition;

Transmitting the nineteenth notification to a network side device when the performance of using the second target beam information transmission channel or the reference signal does not satisfy a ninth preset condition;

sending a twenty-fourth notification to a network side device when the performance of using the second target beam information transmission channel or the reference signal does not satisfy a ninth preset condition, wherein the twenty-fourth notification indicates that the performance of using the second target beam information transmission channel or the reference signal by the terminal does not satisfy the ninth preset condition;

the terminal activates or uses the second object according to a fifth signaling of the network side equipment;

and the terminal deactivates or does not use the second object according to the sixth signaling of the network side equipment.

41. A method for determining beam information, comprising:

the method comprises the steps that network side equipment sends configuration information to a terminal, wherein the configuration information configures target RS resources to be measured for the terminal, and the target RS resources to be measured correspond to a first object and a second object;

the network side equipment receives a target beam report reported by the terminal, wherein the target beam report comprises the first beam information and/or the second beam information;

The network side device sends a first target beam indication signaling to the terminal based on the target beam report, wherein the first target beam indication signaling is used for enabling the terminal to determine first target beam information on the first object and second target beam information on the second object.

42. The method according to claim 41, wherein the target RS resource to be measured comprises: and the RS resource to be measured corresponds to the first object and the RS resource to be measured corresponds to the second object.

43. The method of claim 42, wherein before the network-side device receives the target beam report reported by the terminal, the method further comprises at least one of:

44. The method according to claim 42, wherein the configuration information includes measurement timing information of the first RS resource to be measured and measurement timing information of the second RS resource to be measured.

45. The method according to claim 41, wherein the target RS resource to be measured comprises: and a third RS resource to be measured corresponding to the first object and the second object at the same time.

46. The method of claim 45, wherein before the network-side device receives the target beam report reported by the terminal, the method further comprises:

and the network side equipment sends a fourth indication signaling to the terminal, wherein the fourth indication signaling indicates the terminal to measure the signal quality on the third RS resource to be measured corresponding to the first object and the second object, so as to obtain a joint measurement result of the first object and the second object.

47. The method according to claim 45 or 46, wherein the first beam information and/or the second beam information comprised in the target beam report is common beam information of the first object and the second object.

48. The method of claim 47, wherein the network-side device is capable of simultaneously using a first beam on the first object and a second beam on the second object, and wherein the first beam and the second beam are beams corresponding to any one of the common beam information.

49. The method of claim 47, wherein the first target beam indication signaling carries target shared beam information, and both the first target beam information indicating the first object and the second target beam information indicating the second object are the target shared beam information.

50. The method of claim 47, further comprising at least one of:

activating the first object and the second object or jointly using the first object and the second object in case that performance of using the target common beam information transmission channel or the reference signal satisfies a third preset condition;

sending first signaling to the terminal, wherein the first signaling indicates to activate the first object and the second object or jointly use the first object and the second object;

51. The method of claim 45, wherein prior to receiving the target beam report, the method further comprises at least one of:

and the network side equipment sends a seventh indication signaling to the terminal, wherein the seventh indication signaling indicates the terminal to measure a first signal quality and a second signal quality, the first signal quality is the signal quality on the third RS resource to be measured corresponding to the first object, and the second signal quality is the signal quality on the third RS resource to be measured corresponding to the second object.

52. The method according to any one of claims 45 to 46 and 48 to 51, wherein the configuration information comprises measurement timing information of the RS resource to be measured corresponding to the first object and measurement timing information of the RS resource to be measured corresponding to the second object.

53. The method according to any of claims 41-45, 51, wherein in case the first beam information and the second beam information are included in the target beam report, the target beam report further indicates that the first beam information corresponds to the first object and the second beam information corresponds to the second object.

54. The method of claim 53, wherein the target beam report indicates that the first beam information corresponds to the first object and the second beam information corresponds to the second object, and wherein one of:

55. The method according to claim 54, wherein the network-side device is capable of using a first beam and a second beam simultaneously, wherein the first beam is a beam corresponding to any one of the first beam information, and the second beam is a beam corresponding to any one of the second beam information.

56. The method of claim 54,

57. The method of claim 56,

the second preset rule comprises: a preset sequence correspondence or a preset position correspondence.

58. Method according to any of claims 41 to 45, 51, 54 to 57, wherein said first target beam indication signalling carries said first and/or second target beam information.

59. The method of claim 58, wherein the first target beam information is one of a first beam pool configured for the first object by the network-side device; the second target beam information on the second object is one of the first beam pools, or the second target beam information on the second object is one of second beam pools configured by the network side device for the second object.

60. The method according to any of claims 41-45, 51, 54-57, 59, wherein after receiving a target beam report, the method further comprises:

The network side device updates beam information of a first target object or updates RS resources of the first target object based on the first beam information and/or the second beam information included in the target beam report, where the first target object includes: at least one of the first object and the second object.

61. The method of claim 60, wherein after updating the beam information of the first target object or updating the RS resources of the first target object based on the first beam information and/or the second beam information being included in the target beam report, the method further comprises:

and the network side equipment sends a second target beam indication signaling to the terminal, wherein the second target beam indication signaling indicates to update the beam information of the first target object or update the RS resource to be measured of the first target object.

62. The method according to claim 61, wherein the second target beam indication signaling indicates to update beam information of the first target object or to update RS resources to be measured of the first target object, and comprises one of:

63. The method of claim 62,

the second target beam indication signaling carries first target beam information of the first object, including: the second target beam indication signaling carries a first common TCI status of a first component carrier group, wherein the first object belongs to or includes the first component carrier group; or,

the second target beam indication signaling carries second target beam information of the second object, including: the second target beam indicates a second common TCI state in which signaling carries a second group of component carriers, wherein the second object belongs to or includes the second group of component carriers;

the second target beam indication signaling carries first target beam information of the first object and second target beam information of the second object, including: the second target beam indication signaling carries a first common TCI state of a first component carrier group and a second common TCI state of a second component carrier group, wherein the first object belongs to or includes the first component carrier group, and the second object belongs to or includes the second component carrier group.

64. The method according to claim 61, wherein the second target beam indication signalling indication to update the beam information of the first target object or to update the RS resource to be measured of the first target object comprises at least one of:

the first TCI status is a TCI status of the first target object indicated by the network side device last time, or the first TCI status is a TCI status of the first target object activated by the network side device last time.

65. The method of any one of claims 60 to 64, further comprising:

under the condition that the first object belongs to or comprises a first component carrier group, the network side equipment updates the beam information of each component carrier in the first component carrier group based on the updated beam information of the first object; and/or

And when the second object belongs to or comprises a second component carrier group, the network side equipment updates the beam information of each component carrier in the second component carrier group based on the updated beam information of the second object.

66. The method of any one of claims 41 to 45, 48 to 51, 54 to 56, 58, 61 to 64, wherein the first object and the second object each comprise at least one of: a cell; a carrier wave; a bandwidth part BWP; sub-band of sub-band; a frequency band; sending a receiving point TRP; and a terminal panel.

67. The method of any one of claims 41 to 45, 51, 54 to 56, 58, 61 to 64, further comprising at least one of:

receiving a tenth notification sent by the terminal, where the tenth notification indicates that the signal quality on the RS-to-be-measured resource corresponding to the first object meets a fourth preset condition;

68. The method of any one of claims 41 to 45, 51, 54 to 56, 58, 61 to 64, further comprising at least one of:

69. An apparatus for determining beam information, comprising:

the device comprises a first measurement module, a second measurement module and a third measurement module, wherein the first measurement module is used for measuring the signal quality on a target Reference Signal (RS) resource to be measured according to received configuration information, and the target RS resource to be measured corresponds to a first object and a second object;

a first determining module, configured to determine first beam information of the first object and second beam information of a second object according to a measurement result;

a first sending module, configured to report a target beam report based on the first beam information and the second beam information, where the target beam report includes the first beam information and/or the second beam information;

the first receiving module is used for receiving a first target beam indication signaling sent by network side equipment;

A second determining module, configured to determine, according to the first target beam indication signaling, first target beam information of the first object and second target beam information of the second object.

70. An apparatus for determining beam information, comprising:

a second sending module, configured to send configuration information to a terminal, where the configuration information configures a target RS resource to be measured for the terminal, where the target RS resource to be measured corresponds to a first object and a second object;

a second receiving module, configured to receive a target beam report reported by the terminal, where the target beam report includes the first beam information and/or the second beam information;

a third transmitting module, configured to transmit first target beam indication signaling to the terminal based on the target beam report, where the first target beam indication signaling is used for the terminal to determine first target beam information on the first object and second target beam information on the second object.

71. A terminal comprising a processor, a memory, and a program or instructions stored on the memory and executable on the processor, the program or instructions when executed by the processor implementing the steps of the method of determining beam information according to any one of claims 1 to 40.

72. A network side device comprising a processor, a memory and a program or instructions stored on the memory and executable on the processor, the program or instructions when executed by the processor implementing the steps of the method for determining beam information according to any one of claims 41 to 68.

73. A readable storage medium, on which a program or instructions are stored, which when executed by a processor, implement the steps of the method for determining beam information of any one of claims 1 to 40, or implement the steps of the method for determining beam information of any one of claims 41 to 68.