Method for measuring channel status information, measuring device, communication equipment, and storage medium

Abstract

Embodiments of the present disclosure provide a method for measuring channel state information executed by a terminal, including determining a measurement resource for measuring channel state information (CSI) based on state indication information, where the state indication information is used at least to indicate a period during which a spatial unit of a base station is turned off and / or a period during which it is turned on.

Description

【Technical Field】 【0001】 This disclosure relates to the field of wireless communication technology, but is not limited to the field of wireless communication technology, and particularly relates to a method for measuring channel state information, a measuring device, a communication device, and a storage medium. 【Background Art】 【0002】 In order to reduce the energy consumption of a base station, several spatial units related to an antenna, such as an antenna panel, can be dynamically turned on or off. Dynamically turning on or off a spatial unit brings about a change in the actually transmitted beam or pilot. In the related art, a terminal needs to report channel state information (CSI), and before reporting CSI, the terminal needs to perform CSI measurement, for example, measure a pilot (also called a reference signal). To perform CSI measurement, it is necessary to use measurement resources. At this time, if the base station dynamically turns off the beam or pilot for CSI measurement, how to determine the measurement resources for performing CSI measurement is a problem to be considered. 【Summary of the Invention】 【Means for Solving the Problems】 【0003】 Embodiments of this disclosure disclose a method for measuring channel state information, a measuring device, a communication device, and a storage medium. 【0004】 According to a first aspect of embodiments of this disclosure, a method for measuring channel state information executed by a terminal is provided, including determining a measurement resource for measuring channel state information CSI according to state indication information, where the state indication information is at least used to indicate a period during which a spatial unit of a base station is turned off and / or a period during which it is turned on. 【0005】 In one embodiment, the measurement resource is associated with the CSI report. 【0006】 In one embodiment, the space unit is Antenna unit and Antenna port and, Sending and receiving links, A beam and, The pilot, Includes at least one of the antenna panels. 【0007】 In one embodiment, determining the measurement resource for measuring channel state information based on the state indication information is: This includes determining the measurement resource for measuring channel state information based on the setting results of predetermined upper-layer parameters and the state indication information, The predetermined upper layer parameters are, The first parameter is a parameter for channel measurement, It includes at least one of the following parameters: a second parameter which is a parameter for interferometry. 【0008】 In one embodiment, determining the measurement resource for measuring channel state information based on the setting result of the predetermined upper layer parameters and the state indication information is: In the event that the first parameter is not set and the status indicator information indicates a period during which the spatial unit is turned off, the measurement resource is determined to be a non-zero power consumption channel state information reference signal NZP CSI-RS resource whose time-domain position is before the channel state information CSI reference resource and is not within the period during which it is turned off, In the event that the second parameter is not set and the status indication information indicates a period during which the spatial unit is turned off, it is determined that the measurement resource is a channel state information interference measurement CSI-IM resource whose time-domain position is before the CSI reference resource and is not within the period during which it is turned off. In the event that the second parameter is not set and the status indicator information indicates a period during which the spatial unit is turned off, it is determined that the measurement resource is an NZP CSI-RS resource for interference measurement whose time-domain position is in front of the CSI reference resource and is not within the period during which it is turned off, In response to the setting of the first parameter and the status indicator information indicating a period during which the spatial unit is turned off, the measurement resource is located in one NZP CSI-RS resource whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing of reporting the CSI report. S To decide that it exists, In response to the setting of the second parameter and the status indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is one CSI-IM resource whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing of reporting the CSI report. The second parameter is set, and in response to the status indicator information indicating a period during which the spatial unit is turned off, the measurement resource is determined to be an NZP CSI-RS resource for one interferometry measurement whose time domain position is ahead of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. 【0009】 In one embodiment, the measurement method is: The operation further includes performing the action of sending a CSI report to the base station based on the aforementioned status information. 【0010】 In one embodiment, the operation of transmitting a CSI report to the base station based on the status indication information is: Transmitting a CSI report to a base station in response to the time domain position of the measurement resource being ahead of the CSI reference resource, the time domain position not being within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or receiving at least one CSI-RS transmission timing, The terminal is set to connection mode non-continuous receive C-DRX, the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or the terminal transmits a CSI report to the base station in response to receiving at least one CSI-RS transmission timing during the active period, The terminal is configured as C-DRX, the CSR-RS resource set for channel measurement associated with the CSI report is configured as a first quantity resource set and a second quantity resource pair, the CSI report is transmitted to the base station in response that the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or at least one CSI-RS transmission timing has been received for each CSI-RS resource in each resource pair within the same active period, The terminal is configured to C-DRX, the terminal is configured to monitor downlink control information DCI format 2-6, the terminal is configured to ps-TransmitOtherPeriodicCSI, the report configuration type is set to periodic type, the report amount is not a preset amount, the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or transmits a CSI report to the base station in response to receiving at least one CSI-RS transmission timing. 【0011】 In one embodiment, the measurement method further includes: receiving the status indication information transmitted from the base station. 【0012】 According to a second aspect of the embodiments of the present disclosure, a method for measuring channel state information executed by a base station is provided, including transmitting status indication information to a terminal, wherein the status indication information is used to determine a measurement resource for the terminal to measure channel state information CSI, and the status indication information is at least used to indicate a period during which a spatial unit of the base station is turned off and / or a period during which it is turned on. 【0013】 In one embodiment, the measurement resource is associated with a CSI report. 【0014】 In one embodiment, the spatial unit includes an antenna unit, an antenna port, a transmission / reception link, a beam, a pilot, and at least one of an antenna panel. 【0015】 According to a third aspect of the embodiments of the present disclosure, a measurement apparatus for channel state information is provided, and the measurement apparatus includes a determination module configured to determine a measurement resource for measuring channel state information CSI according to status indication information, wherein the status indication information is at least used to indicate a period during which a spatial unit of the base station is turned off and / or a period during which it is turned on. 【0016】 In one embodiment, the determination module is further configured such that the measurement resource is associated with a CSI report. 【0017】 In one embodiment, the determination module Further configured to determine the measurement resource for measuring the channel state information according to the setting result of the predetermined upper layer parameter and the state indication information. The predetermined upper layer parameter is at least one of a first parameter which is a parameter for channel measurement and a second parameter which is a parameter for interference measurement. 【0018】 In one embodiment, the determining module when the first parameter is not set and the state indication information indicates a period during which the spatial unit is turned off, determines that the measurement resource is a non-zero power consumption channel state information reference signal (NZP CSI-RS) resource whose time domain position is before the CSI reference resource and is not within the period during which the spatial unit is turned off; when the second parameter is not set and the state indication information indicates a period during which the spatial unit is turned off, determines that the measurement resource is a channel state information interference measurement (CSI-IM) resource whose time domain position is before the CSI reference resource and is not within the period during which the spatial unit is turned off; when the second parameter is not set and the state indication information indicates a period during which the spatial unit is turned off, determines that the measurement resource is a NZP CSI-RS resource for interference measurement whose time domain position is before the CSI reference resource and is not within the period during which the spatial unit is turned off; when the first parameter is set and the state indication information indicates a period during which the spatial unit is turned off, determines that the measurement resource is one NZP CSI-RS resource whose time domain position is before the CSI reference resource, is not within the period during which the spatial unit is turned off, and is closest to the timing for reporting the CSI report. S and determines that there is such a resource. In response to the setting of the second parameter and the status indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is one CSI-IM resource whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing of reporting the CSI report. The configuration is further configured such that, in response to the setting of the second parameter and the status indication information indicating a period during which the spatial unit is turned off, the measurement resource is determined to be an NZP CSI-RS resource for one interferometry measurement whose time-domain position is ahead of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. 【0019】 In one embodiment, the measuring device is The system further includes an executable module configured to perform an operation to transmit a CSI report to a base station based on the aforementioned status information. 【0020】 In one embodiment, the measuring device further includes a transmitting module, and the transmitting module is Transmitting a CSI report to a base station in response to the time domain position of the measurement resource being ahead of the CSI reference resource, the time domain position not being within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or receiving at least one CSI-RS transmission timing, The terminal is set to connection mode non-continuous receive C-DRX, the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or the terminal transmits a CSI report to the base station in response to receiving at least one CSI-RS transmission timing during the active period, The terminal is configured as C-DRX, the CSR-RS resource set for channel measurement associated with the CSI report is configured as a first quantity resource set and a second quantity resource pair, the CSI report is transmitted to the base station in response that the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or at least one CSI-RS transmission timing has been received for each CSI-RS resource in each resource pair within the same active period, The terminal is further configured to be set to C-DRX, to monitor downlink control information DCI format 2-6, to be set to ps-TransmitOtherPeriodicCSI, to have a report setting type set to periodic type, to transmit a CSI report to a base station in response to receiving at least one CSI-RS transmission timing, where the report amount is not a preset amount, the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or to receive at least one CSI-RS transmission timing. 【0021】 In one embodiment, the measuring device is The system further includes a receiving module configured to receive the status indicator information transmitted from the base station. 【0022】 According to a fourth embodiment of the embodiments of this disclosure, a device for measuring channel state information is provided, the device for measuring channel state information is provided. Includes a transmission module configured to send status indicator information to a terminal, The status information is used to determine the measurement resources for the terminal to measure the channel status information CSI, and the status information is used to determine the base station Space unit It is used to indicate the period during which it is turned off and / or turned on. 【0023】 According to a fifth embodiment of the embodiments of this disclosure, a communication device is provided, the communication device is, Processor and The processor includes a memory for storing executable instructions, The processor is configured to implement the method described in any embodiment of the present disclosure when it executes the executable instructions. 【0024】 According to a sixth embodiment of the embodiments of the present disclosure, a computer storage medium is provided, the computer storage medium storing a computer executable program, and when the executable program is executed by a processor, the method of any embodiment of the present disclosure is realized. 【0025】 In embodiments of the present disclosure, a measurement resource for measuring channel state information CSI is determined by state indication information, where the state indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. Here, since the measurement resource for measuring channel state information CSI is determined by state indication information, the measurement resource can adapt to the period during which the base station's spatial unit is turned off and / or turned on as indicated by the state indication information, and compared to a method in which the measurement resource is not determined based on state indication information, the situation in which CSI measurements are still performed after the spatial unit has been turned off can be reduced, making it more adaptable and resulting in more accurate and reliable CSI measurement results. [Brief explanation of the drawing] 【0026】 [Figure 1] Figure 1 is a schematic diagram of a wireless communication system according to one exemplary embodiment. [Figure 2] Figure 2 is a schematic flowchart of a method for measuring channel state information according to one exemplary embodiment. [Figure 3]Figure 3 is a schematic flowchart of a method for measuring channel state information according to an exemplary embodiment. [Figure 4] Figure 4 is a schematic flowchart of a method for measuring channel state information according to one exemplary embodiment. [Figure 5] Figure 5 is a schematic flowchart of a method for measuring channel state information according to one exemplary embodiment. [Figure 6] Figure 6 is a schematic flowchart of a method for measuring channel state information according to an exemplary embodiment. [Figure 7] Figure 7 is a schematic flowchart of a method for measuring channel state information according to an exemplary embodiment. [Figure 8] Figure 8 is a schematic flowchart of a method for measuring channel state information according to an exemplary embodiment. [Figure 9] Figure 9 is a schematic flowchart of a method for measuring channel state information according to one exemplary embodiment. [Figure 10] Figure 10 is a schematic flowchart of a method for measuring channel state information according to one exemplary embodiment. [Figure 11] Figure 11 is a schematic flowchart of a method for measuring channel state information according to an exemplary embodiment. [Figure 12] Figure 12 is a schematic flowchart of a method for measuring channel state information according to an exemplary embodiment. [Figure 13] Figure 13 is a schematic flowchart of a method for measuring channel state information according to an exemplary embodiment. [Figure 14] Figure 14 is a schematic flowchart of a method for measuring channel state information according to an exemplary embodiment. [Figure 15] Figure 15 is a schematic flowchart of a method for measuring channel state information according to one exemplary embodiment. [Figure 16] Figure 16 is a schematic diagram of a channel state information measuring device according to one exemplary embodiment. [Figure 17] Figure 17 is a schematic diagram of a channel state information measuring device according to one exemplary embodiment. [Figure 18] Figure 18 is a schematic diagram of the terminal according to one exemplary embodiment. [Figure 19] Figure 19 is a block diagram of a base station according to one exemplary embodiment. [Modes for carrying out the invention] 【0027】 The following describes exemplary embodiments in detail, with examples shown in the drawings. Where the following description relates to the drawings, unless otherwise specified, the same numbers in different drawings represent the same or similar elements. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the embodiments of the present disclosure. On the contrary, they are merely examples of apparatus and methods consistent with some aspects of the embodiments of the present disclosure, as detailed in the appended claims. 【0028】 The terms used in the embodiments of this disclosure are for illustrative purposes only and are not intended to limit the embodiments of this disclosure. The singular forms “one” and “the” used in the embodiments of this disclosure and in the appended claims are intended to include the plural form unless the context clearly indicates otherwise. Furthermore, it should be understood that the terms “and / or” as used herein include any or all possible combinations of one or more of the related enumerated items. 【0029】 It should be noted that while various types of information may be described using terms such as First, Second, Third, etc., in the embodiments of this disclosure, this information should not be limited to these terms. These terms are used solely to distinguish information of the same type from one another. For example, without departing from the scope of the embodiments of this disclosure, First Information may be called Second Information, and similarly, Second Information may be called First Information. Depending on the context, the word "if" as used herein may be interpreted as "when," "at the time," or "depending on the decision." 【0030】 For the sake of brevity and ease of understanding, this specification uses the terms “greater” or “lesser” to describe relationships of size. However, those skilled in the art will understand that the term “greater” also means “greater than or equal to,” and the term “lesser than” also means “less than or equal to.” 【0031】 Referring to Figure 1, a schematic diagram of a wireless communication system according to an embodiment of the present disclosure is shown. As shown in Figure 1, the wireless communication system is a communication system based on mobile communication technology, and this wireless communication system may include several user devices 110 and several base stations 120. 【0032】 Here, user equipment 110 may be equipment that provides voice and / or data connectivity to the user. User equipment 110 can communicate with one or more core networks via a Radio Access Network (RAN), and user equipment 110 may be Internet of Things user equipment, such as sensor equipment, mobile phones, and computers with Internet of Things user equipment, and may be, for example, fixed, portable, pocket-sized, handheld, computer-integrated, or vehicle-mounted devices. For example, Station (STA), subscriber unit, subscriber station, mobile station, mobile, remote station, access point, remote terminal, access terminal, user terminal, user agent, user device, or user equipment. Alternatively, user equipment 110 may be a device for an unmanned aerial vehicle. Alternatively, the user device 110 may be an in-vehicle device, such as a drive computer with wireless communication capabilities, or a wireless user device externally connected to the drive computer. Alternatively, the user device 110 may be a roadside device, such as a streetlamp, signal light, or other roadside device with wireless communication capabilities. 【0033】 The base station 120 may be a network-side device in a wireless communication system. Here, the wireless communication system may be a 4th generation mobile communication (4G) system, also known as a Long Term Evolution (LTE) system. Alternatively, the wireless communication system may be a 5G system, also known as a New Radio system or 5G NR system. Alternatively, the wireless communication system may be a system of a later generation than the 5G system. Here, the access network in the 5G system may be called an NG-RAN (New Generation-Radio Access Network). 【0034】 Here, base station 120 may be an evolved base station (eNB) used in a 4G system. Alternatively, base station 120 may be a base station (gNB) using a centralized-distributed architecture in a 5G system. When base station 120 uses a centralized-distributed architecture, it typically includes a central unit (CU) and at least two distributed units (DUs). The central unit is provided with a protocol stack for the Packet Data Convergence Protocol (PDCP) layer, the Radio Link Control (RLC) layer, and the Media Access Control (MAC) layer. The distributed units are provided with a protocol stack for the Physical (PHY) layer, and the embodiments of this disclosure do not limit the specific implementation of base station 120. 【0035】 A wireless connection can be established between the base station 120 and the user equipment 110 via a radio air interface. In different embodiments, the radio air interface may be a radio air interface based on fourth-generation mobile communication network technology (4G) standards, or a radio air interface based on fifth-generation mobile communication network technology (5G) standards, for example, the radio air interface may be a nu-radio interface, or the radio air interface may be a radio air interface based on a more advanced mobile communication network technology standard than 5G. 【0036】 In some embodiments, an E2E (End to End) connection may be further established between user devices 110. Examples include vehicle-to-everything (V2X) communication such as V2V (vehicle to vehicle), V2I (vehicle to infrastructure), and V2P (vehicle to pedestrian). 【0037】 Here, the user device described above may be considered to be the terminal device in the following embodiment. 【0038】 In some embodiments, the wireless communication system may further include a network management device 130. 【0039】 Each of the base stations 120 is connected to a network management device 130. Here, the network management device 130 may be a core network device in a wireless communication system, for example, a Mobility Management Entity (MME) in an Evolved Packet Core (EPC). Alternatively, the network management device may be another core network device such as a Serving Gateway (SGW), Public Data Network Gateway (PGW), Policy and Charging Rules Function (PCRF), or Home Subscriber Server (HSS). The implementation of the network management device 130 is not limited to the embodiments of this disclosure. 【0040】 To facilitate understanding for those skilled in the art, the embodiments of this disclosure enumerate several embodiments to clearly illustrate the technical ideas of the embodiments of this disclosure. Of course, those skilled in the art will understand that the embodiments provided by the embodiments of this disclosure may be performed individually, in combination with methods of other embodiments in the embodiments of this disclosure, or individually or in combination with some methods in other related technologies, and the embodiments of this disclosure are not limited thereto. 【0041】 To better understand the technical proposal described in any one embodiment of this disclosure, we will first describe the application scenarios of the relevant technology. 【0042】 In one scenario, several spatial units can be dynamically switched on or off to reduce the energy consumption of the base station. Here, spatial units may include antenna units, antenna ports, transmit / receive links, beams, antenna panels, etc. Dynamically switching spatial units on or off may result in changes to the beams or pilots that are actually being transmitted, for example, some beams being switched off or some pilots being switched off. 【0043】 In one embodiment, the base station can configure candidate spatial units that can be turned off at a terminal and dynamically instruct the terminal to turn off a beam or pilot (collectively referred to as a spatial unit), for example, by Downlink Control Information (DCI) or a Control Element (CE) of the Media Access Control Layer (MAC). In one embodiment, the duration for which a spatial unit is turned off can also be instructed or set. 【0044】 In one embodiment, the terminal needs to report channel state information (CSI), and before reporting the CSI, the terminal needs to perform a CSI measurement. To perform the CSI measurement, measurement resources must be used. In one embodiment, the CSI reference resource is a specific time slot prior to the timing of the CSI report. The relevant protocol defines a method for determining the CSI reference resource. 【0045】 In one embodiment, both the non-zero power CSI reference signal (NZP CSI-RS) and the channel state information interference measurement (CSI-IM) belong to the CSI-RS category. 【0046】 Here, the measurement resources for performing CSI measurements are shown in Table 1 below, illustrating the correspondence between higher-level parameter settings and measurement resources. [Table 1] 【0047】 As shown in Figure 2, this embodiment provides a method for measuring channel state information performed by a terminal, and the measurement method is Step 21 includes determining the measurement resources for measuring the channel state information CSI based on the state indication information. Here, the status information is used to indicate, at least, the period during which the base station's spatial unit is turned off and / or turned on. 【0048】 Herein, the terminals relating to the embodiments of this disclosure may be, but are not limited to, mobile phones, wearable devices, in-vehicle terminals, roadside units (RSUs), smart home terminals, industrial sensing devices, and / or medical devices. In some embodiments, the terminal may be a Redcap terminal or a predetermined version of a New Radio NR terminal (e.g., an R17 NR terminal). 【0049】 The base stations relating to this disclosure may be of various types, for example, base stations for third-generation mobile communications (3G) networks, base stations for fourth-generation mobile communications (4G) networks, base stations for fifth-generation mobile communications (5G) networks, or other advanced base stations. 【0050】 In one embodiment, the measurement resource may be a time-domain and / or frequency-domain resource for measuring the CSI. For example, the measurement resource may be a time slot and a symbol. 【0051】 In one embodiment, the spatial unit may be a functional unit associated with a wireless transmission antenna. Exemplarily, the spatial unit may be: Antenna unit and Antenna port and, Sending and receiving links, A beam and, The pilot, It may be at least one of the antenna panels. 【0052】 Here, turning off the spatial unit may also mean turning off the function corresponding to the spatial unit, for example, turning off the function that transmits the beam or pilot. Note that turning off the beam or pilot may affect the measurement results when measuring CSI. For example, accurate CSI measurement requires the use of five measurement sampling points, but if some of the measurement sampling points are during the pilot off period, the measurement results will deviate from the actual situation and affect the CSI measurement results. 【0053】 In this disclosure, a measurement resource for measuring channel state information (CSI) may be understood as a measurement resource that performs CSI measurement. Performing CSI measurement may be channel measurement and / or interference measurement. 【0054】 In one embodiment, status information is used to determine the measurement resources for channel measurement and / or interference measurement for CSI measurement, where the status information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. 【0055】 In one embodiment, status indicator information transmitted from a base station is received, which is used to indicate at least the period during which the base station's spatial unit is turned off and / or on. The status indicator information determines the measurement resources for measuring channel status information CSI. Exemplaryly, the period during which the spatial unit is turned off and / or on may be dynamically indicated by DCI, for example, which may be considered to become effective immediately after receiving the DCI (indicating that a pilot is turned off), and the duration corresponding to the off period is a fixed duration set by the upper layer, for example, 20 ms. 【0056】 In one embodiment, status indicator information transmitted from a base station is periodically received, and this status indicator information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. The status indicator information determines the measurement resources for measuring channel status information CSI. In this way, the measurement resources can be updated in real time using the status indicator information. 【0057】 In one embodiment, in response to determining the measurement resource, request information is sent to the base station to request status indication information, which is used to indicate at least the period during which the base station's spatial unit is turned off and / or on. The status indication information transmitted from the base station is received. The status indication information is used to determine the measurement resource for measuring channel status information CSI. 【0058】 In one embodiment, a measurement resource for measuring channel status information (CSI) is determined by status indication information, where the status indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or on, and the measurement resource is associated with the CSI report. Exemplarily, different measurement resources correspond to different CSI reports. It is understood that the measurement results obtained by performing a CSI measurement based on the measurement resource may be included in the CSI report. One or one set of measurement resources corresponds to one CSI report. 【0059】 In one embodiment, a measurement resource for measuring channel state information CSI is determined by state indication information, where the state indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on, and the measurement resource is associated with the CSI report. A CSI measurement is performed based on the measurement resource, and the measurement result of the CSI measurement is obtained. A CSI report is transmitted to the base station, where the CSI report includes the measurement result. 【0060】 In one embodiment, the setting result of predetermined upper-layer parameters and the status indication information are obtained, wherein the status indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. The setting result of predetermined upper-layer parameters and the status indication information are used to determine the measurement resource for measuring channel status information, wherein the predetermined upper-layer parameters include at least one of a first parameter which is a parameter for channel measurement and a second parameter which is a parameter for interference measurement. 【0061】 For illustrative purposes, referring again to Table 1, the specified upper-layer parameters may be the timeRestrictionFor-ChannelMeasurements parameter and the timeRestrictionForInterferenceMeasurements parameter set by the upper layer of the protocol layer. For example, the first parameter may be "timeRestrictionFor-ChannelMeasurements" and the second parameter may be "timeRestrictionForInterferenceMeasurements". Here, the setting results of the first and second parameters may be "Configured" or "notConfigured". 【0062】 In one embodiment, the setting result of a predetermined upper-layer parameter and the status indication information are obtained, where the status indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. In response to the first parameter not being set and the status indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is a non-zero power consumption channel state information reference signal NZP CSI-RS resource whose time-domain position is before the channel state information CSI reference resource and is not within the period during which it is turned off. The measurement resource is associated with the CSI report. 【0063】 In one embodiment, the setting result of a predetermined upper layer parameter and the state indication information are obtained, where the state indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. In response to the second parameter not being set and the state indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is a channel state information interference measurement CSI-IM resource whose time-domain position is before the CSI reference resource and is not within the period during which it is turned off. The measurement resource is associated with the CSI report. 【0064】 In one embodiment, the setting result of a predetermined upper layer parameter and the status indication information are obtained, where the status indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. In response to the second parameter not being set and the status indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is an NZP CSI-RS resource for interference measurement whose time-domain position is ahead of the CSI reference resource and is not within the period during which it is turned off. The measurement resource is associated with the CSI report. 【0065】 In one embodiment, the setting result of a predetermined upper-layer parameter and the status indication information are obtained, wherein the status indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. In response to the setting of the first parameter and the status indication information indicating the period during which the spatial unit is turned off, it is determined that the measurement resource is one NZP CSI-RS resource whose time-domain position is ahead of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting a CSI report. The measurement resource is associated with the CSI report. 【0066】 In one embodiment, the setting result of a predetermined upper layer parameter and the status indication information are obtained, where the status indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. In response to the setting of the second parameter and the status indication information indicating the period during which the spatial unit is turned off, it is determined that the measurement resource is one CSI-IM resource whose time domain position is before the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. The measurement resource is associated with the CSI report. 【0067】 In one embodiment, the setting result of a predetermined upper layer parameter and the status indication information are obtained, wherein the status indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. In response to the setting of the second parameter and the status indication information indicating the period during which the spatial unit is turned off, it is determined that the measurement resource is an NZP CSI-RS resource for one interference measurement whose time-domain position is ahead of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. 【0068】 In one embodiment, status information is received, which is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. Based on the status information, a measurement resource is determined for measuring channel status information (CSI). A CSI measurement is performed based on the measurement resource, and the measurement result is obtained. Based on the status information, an operation is performed to send a CSI report to the base station, which includes the measurement result. 【0069】 In one embodiment, status indicator information is received, which is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. The status indicator information is used to determine a measurement resource for measuring channel status information CSI. A CSI measurement is performed based on the measurement resource and the measurement result is obtained. A CSI report is sent to the base station in response to the time domain position of the measurement resource being ahead of the CSI reference resource, the time domain position not being within the time domain position corresponding to the period during which the spatial unit is turned off as indicated by the status indicator information, and / or receiving at least one CSI-RS transmission timing, wherein the CSI report includes the measurement result. Each transmission timing corresponds to the reception of one CSI-RS for channel measurement or interference measurement. 【0070】 In one embodiment, status indicator information is received, which is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. The status indicator information is used to determine a measurement resource for measuring channel status information CSI. A CSI measurement is performed based on the measurement resource and the measurement result is obtained. The terminal is set to connection mode non-continuous receive C-DRX, and in response to receiving at least one transmission timing of the CSI-RS within a period during which the time domain position of the measurement resource is before the CSI reference resource, and the time domain position is not within a time domain position corresponding to the period during which the spatial unit is turned off as indicated by the status indicator information, and / or is within an active period, a CSI report is sent to the base station, which includes the measurement result. 【0071】 In one embodiment, status indicator information is received, which is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. The status indicator information is used to determine a measurement resource for measuring channel status information CSI. A CSI measurement is performed based on the measurement resource and the measurement result is obtained. The terminal is set to C-DRX, and the CSR-RS resource set for channel measurement associated with the CSI report is set as a first quantity resource set and a second quantity resource pair, and the CSI report is transmitted to the base station in response that the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period during which the spatial unit is turned off as indicated by the status indicator information, and / or at least one transmission timing of the CSI-RS has been received for each CSI-RS resource in each resource pair within the same active period. The CSI report includes the measurement result. 【0072】 In one embodiment, status information is received, which is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. Based on the status information, a measurement resource for measuring channel status information (CSI) is determined. A CSI measurement is performed based on the measurement resource, and the measurement result is obtained. The terminal is configured to C-DRX, the terminal is configured to monitor downlink control information DCI format 2-6, the terminal is configured to ps-TransmitOtherPeriodicCSI, the reportConfigType is set to periodic type ("periodic"), the report amount is not a preset amount (wherein the preset amount may be "cri-RSRP", "ssb-Index-RSRP", "cri-RSRP-Capability[Set]Index", "ssb-Index-RSRP-Capability[Set]Index", etc.), the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period during which the spatial unit indicated by the status indication information is turned off, and / or a CSI report is sent to the base station in response to receiving at least one CSI-RS transmission timing, wherein the CSI report includes the measurement result. 【0073】 In embodiments of the present disclosure, a measurement resource for measuring channel state information CSI is determined by state indication information, where the state indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. Here, since the measurement resource for measuring channel state information CSI is determined by state indication information, the measurement resource can adapt to the period during which the base station's spatial unit is turned off and / or turned on as indicated by the state indication information, and compared to a method in which the measurement resource is not determined based on state indication information, the situation in which CSI measurements are still performed after the spatial unit has been turned off can be reduced, making it more adaptable and resulting in more accurate and reliable CSI measurement results. 【0074】 As those skilled in the art will understand, the methods provided by the embodiments of this disclosure may be performed independently or in conjunction with some of the methods in the embodiments of this disclosure or some of the methods in related art. 【0075】 As shown in Figure 3, this embodiment provides a method for measuring channel state information performed by a terminal, and the measurement method is Step 31 includes determining the measurement resources for measuring channel state information based on the setting results of predetermined upper-layer parameters and state indication information, wherein the state indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. The predetermined upper-layer parameters include at least one of a first parameter which is a parameter for channel measurement and a second parameter which is a parameter for interference measurement. 【0076】 In one embodiment, the space unit is Antenna unit and Antenna port and, Sending and receiving links, A beam and, The pilot, Includes at least one of the antenna panels. 【0077】 For example, Table 2 illustrates the correspondence between higher-level parameter settings and measurement resources. [Table 2] 【0078】 In one embodiment, the setting result of a predetermined upper-layer parameter and the status indication information are obtained, where the status indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. In response to the first parameter not being set and the status indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is a non-zero power consumption channel state information reference signal NZP CSI-RS resource whose time-domain position is before the channel state information CSI reference resource and is not within the period during which it is turned off. The measurement resource is associated with the CSI report. 【0079】 In one embodiment, the setting result of a predetermined upper layer parameter and the state indication information are obtained, where the state indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. In response to the second parameter not being set and the state indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is a channel state information interference measurement CSI-IM resource whose time-domain position is before the CSI reference resource and is not within the period during which it is turned off. The measurement resource is associated with the CSI report. 【0080】 In one embodiment, the setting result of a predetermined upper layer parameter and the status indication information are obtained, where the status indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. In response to the second parameter not being set and the status indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is an NZP CSI-RS resource for interference measurement whose time-domain position is ahead of the CSI reference resource and is not within the period during which it is turned off. The measurement resource is associated with the CSI report. 【0081】 In one embodiment, the setting result of a predetermined upper-layer parameter and the status indication information are obtained, wherein the status indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. In response to the setting of the first parameter and the status indication information indicating the period during which the spatial unit is turned off, it is determined that the measurement resource is one NZP CSI-RS resource whose time-domain position is ahead of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting a CSI report. The measurement resource is associated with the CSI report. 【0082】 In one embodiment, the setting result of a predetermined upper layer parameter and the status indication information are obtained, where the status indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. In response to the setting of the second parameter and the status indication information indicating the period during which the spatial unit is turned off, it is determined that the measurement resource is one CSI-IM resource whose time domain position is before the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. The measurement resource is associated with the CSI report. 【0083】 In one embodiment, the setting result of a predetermined upper layer parameter and the status indication information are obtained, wherein the status indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. In response to the setting of the second parameter and the status indication information indicating the period during which the spatial unit is turned off, it is determined that the measurement resource is an NZP CSI-RS resource for one interference measurement whose time-domain position is ahead of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. 【0084】 As those skilled in the art will understand, the methods provided by the embodiments of this disclosure may be performed independently or in conjunction with some of the methods in the embodiments of this disclosure or some of the methods in related art. 【0085】 As shown in Figure 4, this embodiment provides a method for measuring channel state information performed by a terminal, and the measurement method is Step 41 includes determining that the measurement resource is a non-zero power consumption channel state information reference signal NZP CSI-RS resource whose time-domain position is before the channel state information CSI reference resource and is not within the period during which it is turned off, in response to the first parameter not being set and the state indication information indicating a period during which the spatial unit is turned off. 【0086】 For details on step 41, please refer to the explanations for step 21 or step 31. 【0087】 As those skilled in the art will understand, the methods provided by the embodiments of this disclosure may be performed independently or in conjunction with some of the methods in the embodiments of this disclosure or some of the methods in related art. 【0088】 As shown in Figure 5, this embodiment provides a method for measuring channel state information performed by a terminal, and the measurement method is Step 51 includes determining that, in response to the second parameter not being set and the state indication information indicating a period during which the spatial unit is turned off, the measurement resource is a channel state information interference measurement CSI-IM resource whose time-domain position is before the CSI reference resource and is not within the period during which it is turned off. 【0089】 For an explanation of step 51, please refer to the explanations for step 21 or step 31, and the explanation will be omitted here. 【0090】 As those skilled in the art will understand, the methods provided by the embodiments of this disclosure may be performed independently or in conjunction with some of the methods in the embodiments of this disclosure or some of the methods in related art. 【0091】 As shown in Figure 6, this embodiment provides a method for measuring channel state information performed by a terminal, and the measurement method is Step 61 includes determining that, if the second parameter is not set and the status indicator indicates a period during which the spatial unit is turned off, the measurement resource is an NZP CSI-RS resource for interference measurement whose time-domain position is in front of the CSI reference resource and is not within the period during which it is turned off. 【0092】 For an explanation of step 61, please refer to the explanation of step 21 or step 31. 【0093】 As those skilled in the art will understand, the methods provided by the embodiments of this disclosure may be performed independently or in conjunction with some of the methods in the embodiments of this disclosure or some of the methods in related art. 【0094】 As shown in Figure 7, this embodiment provides a method for measuring channel state information performed by a terminal, and the measurement method is In step 71, in response to the setting of the first parameter and the status indicator indicating the period during which the spatial unit is turned off, the measurement resource is located in a time domain position in front of the CSI reference resource, not within the period during which it is turned off, and is closest to the timing for reporting the CSI report to the NZP CSI-RS resource. S This includes deciding that there is one. 【0095】 For details on step 71, please refer to the explanations for step 21 or step 31. 【0096】 As those skilled in the art will understand, the methods provided by the embodiments of this disclosure may be performed independently or in conjunction with some of the methods in the embodiments of this disclosure or some of the methods in related art. 【0097】 As shown in Figure 8, this embodiment provides a method for measuring channel status information performed by a terminal, and the measurement method is Step 81 includes determining that, in response to a second parameter being set and status indicator information indicating a period during which the spatial unit is turned off, the measurement resource is one CSI-IM resource whose time domain position is ahead of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing of reporting the CSI report. 【0098】 For an explanation of step 81, please refer to the explanations for step 21 or step 31, and the explanation will be omitted here. 【0099】 As those skilled in the art will understand, the methods provided by the embodiments of this disclosure may be performed independently or in conjunction with some of the methods in the embodiments of this disclosure or some of the methods in related art. 【0100】 As shown in Figure 9, this embodiment provides a method for measuring channel status information performed by a terminal, and the measurement method is Step 91 includes determining that, in response to a second parameter being set and status indicator information indicating a period during which the spatial unit is turned off, the measurement resource is an NZP CSI-RS resource for one interference measurement whose time-domain position is ahead of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. 【0101】 For an explanation of step 91, please refer to the explanations for step 21 or step 31, and the explanation will be omitted here. 【0102】 As those skilled in the art will understand, the methods provided by the embodiments of this disclosure may be performed independently or in conjunction with some of the methods in the embodiments of this disclosure or some of the methods in related art. 【0103】 As shown in Figure 10, this embodiment provides a method for measuring channel state information performed by a terminal, and the measurement method is Step 101 includes performing an action to send a CSI report to the base station based on status indicator information. 【0104】 Here, the status information is used to indicate, at least, the period during which the base station's spatial unit is turned off and / or turned on. 【0105】 In one embodiment, the space unit is Antenna unit and Antenna port and, Sending and receiving links, A beam and, The pilot, Includes at least one of the antenna panels. 【0106】 In one embodiment, status information is received, which is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. Based on the status information, a measurement resource is determined for measuring channel status information (CSI). A CSI measurement is performed based on the measurement resource, and the measurement result is obtained. Based on the status information, an operation is performed to send a CSI report to the base station, which includes the measurement result. 【0107】 In one embodiment, status indicator information is received, which is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. The status indicator information is used to determine a measurement resource for measuring channel status information CSI. A CSI measurement is performed based on the measurement resource and the measurement result is obtained. A CSI report is sent to the base station in response to the time domain position of the measurement resource being ahead of the CSI reference resource, the time domain position being outside the time domain position corresponding to the period during which the spatial unit is turned off as indicated by the status indicator information, and / or receiving at least one CSI-RS transmission timing, which includes the measurement result. 【0108】 In one embodiment, status indicator information is received, which is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. The status indicator information is used to determine a measurement resource for measuring channel status information CSI. A CSI measurement is performed based on the measurement resource and the measurement result is obtained. The terminal is set to connection mode non-continuous receive C-DRX, and in response to receiving at least one transmission timing of the CSI-RS within a period during which the time domain position of the measurement resource is before the CSI reference resource, and the time domain position is not within a time domain position corresponding to the period during which the spatial unit is turned off as indicated by the status indicator information, and / or is within an active period, a CSI report is sent to the base station, which includes the measurement result. 【0109】 In one embodiment, status indicator information is received, which is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. The status indicator information is used to determine a measurement resource for measuring channel status information CSI. A CSI measurement is performed based on the measurement resource and the measurement result is obtained. The terminal is set to C-DRX, and the CSR-RS resource set for channel measurement associated with the CSI report is set as a first quantity resource set and a second quantity resource pair, and the CSI report is transmitted to the base station in response that the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period during which the spatial unit is turned off as indicated by the status indicator information, and / or at least one transmission timing of the CSI-RS has been received for each CSI-RS resource in each resource pair within the same active period. The CSI report includes the measurement result. 【0110】 In one embodiment, status indicator information is received, which is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. The status indicator information is used to determine a measurement resource for measuring channel status information CSI. A CSI measurement is performed based on the measurement resource and the measurement result is obtained. A CSI report is sent to the base station in response to the terminal being set to C-DRX, the terminal being set to monitor downlink control information DCI format 2-6, the terminal being set to ps-TransmitOtherPeriodicCSI, the report setting type being set to periodic type, the report amount not being a preset amount, the time domain position of the measurement resource being before the CSI reference resource, the time domain position being not within the time domain position corresponding to the period during which the spatial unit is turned off as indicated by the status indicator information, and / or receiving at least one transmission timing of the CSI-RS, wherein the CSI report includes the measurement result. 【0111】 As those skilled in the art will understand, the methods provided by the embodiments of this disclosure may be performed independently or in conjunction with some of the methods in the embodiments of this disclosure or some of the methods in related art. 【0112】 As shown in Figure 11, this embodiment provides a method for measuring channel state information performed by a terminal, and the measurement method is Step 111 includes transmitting a CSI report to a base station in response to receiving a transmission timing of at least one CSI-RS, where the time domain position of the measurement resource is ahead of the CSI reference resource, the time domain position is not within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or the time domain position is not within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off. 【0113】 For details on step 111, please refer to the explanations for step 21 or step 101. 【0114】 As those skilled in the art will understand, the methods provided by the embodiments of this disclosure may be performed independently or in conjunction with some of the methods in the embodiments of this disclosure or some of the methods in related art. 【0115】 As shown in Figure 12, this embodiment provides a method for measuring channel state information performed by a terminal, and the measurement method is Step 121 includes sending a CSI report to a base station in response that the terminal is set to connection mode non-continuous receive C-DRX, the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or the terminal has received at least one CSI-RS transmission timing during the active period. 【0116】 For details on step 121, please refer to the explanations for step 21 or step 101. 【0117】 As those skilled in the art will understand, the methods provided by the embodiments of this disclosure may be performed independently or in conjunction with some of the methods in the embodiments of this disclosure or some of the methods in related art. 【0118】 As shown in Figure 13, this embodiment provides a method for measuring channel state information performed by a terminal, and the measurement method is Step 131 includes transmitting the CSI report to the base station in response that the terminal is configured as a C-DRX, the CSR-RS resource set for channel measurement associated with the CSI report is configured as a first quantity resource set and a second quantity resource pair, the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or at least one CSI-RS transmission timing has been received for each CSI-RS resource in each resource pair within the same active period. 【0119】 For details on step 131, please refer to the explanations for step 21 or step 101. 【0120】 As those skilled in the art will understand, the methods provided by the embodiments of this disclosure may be performed independently or in conjunction with some of the methods in the embodiments of this disclosure or some of the methods in related art. 【0121】 As shown in Figure 14, this embodiment provides a method for measuring channel state information performed by a terminal, and the measurement method is Step 141 includes sending a CSI report to a base station in response to receiving a transmission timing of at least one CSI-RS, with the terminal set to C-DRX, the terminal set to monitor downlink control information DCI format 2-6 (corresponding to four different types of DCI), the terminal set to ps-TransmitOtherPeriodicCSI, the report setting type set to periodic type, the report amount not being a preset amount, the time domain position of the measurement resource being ahead of the CSI reference resource, the time domain position not being within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or the terminal receiving a transmission timing of at least one CSI-RS. 【0122】 For details on step 141, please refer to the explanations for step 21 or step 101. 【0123】 As those skilled in the art will understand, the methods provided by the embodiments of this disclosure may be performed independently or in conjunction with some of the methods in the embodiments of this disclosure or some of the methods in related art. 【0124】 As shown in Figure 15, this embodiment provides a method for measuring channel state information performed by a base station, and the measurement method is Step 151 includes sending status information to the terminal, Here, the status indication information is used to determine the measurement resources for the terminal to measure channel status information, and the status indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. 【0125】 Herein, the terminals relating to the embodiments of this disclosure may be, but are not limited to, mobile phones, wearable devices, in-vehicle terminals, roadside units (RSUs), smart home terminals, industrial sensing devices, and / or medical devices. In some embodiments, the terminal may be a Redcap terminal or a predetermined version of a New Radio NR terminal (e.g., an R17 NR terminal). 【0126】 The base stations relating to this disclosure may be of various types, for example, base stations for third-generation mobile communications (3G) networks, base stations for fourth-generation mobile communications (4G) networks, base stations for fifth-generation mobile communications (5G) networks, or other advanced base stations. 【0127】 In one embodiment, the measurement resource may be a time-domain and / or frequency-domain resource for measuring the CSI. For example, the measurement resource may be a time slot and a symbol. 【0128】 In one embodiment, the spatial unit may be a functional unit associated with a wireless transmission antenna. Exemplarily, the spatial unit may be: Antenna unit and Antenna port and, Sending and receiving links, A beam and, The pilot, It may be at least one of the antenna panels. 【0129】 Here, turning off the spatial unit may also mean turning off the function corresponding to the spatial unit, for example, turning off the function that transmits the beam or pilot. Note that turning off the beam or pilot may affect the measurement results when measuring CSI. For example, accurate CSI measurement requires the use of five measurement sampling points, but if some of the measurement sampling points are during the pilot off period, the measurement results will deviate from the actual situation and affect the CSI measurement results. 【0130】 In this disclosure, a measurement resource for measuring channel state information (CSI) may be understood as a measurement resource that performs CSI measurement. Performing CSI measurement may be channel measurement and / or interference measurement. 【0131】 In one embodiment, status information is transmitted to a terminal, which is used to determine the measurement resources for channel measurement and / or interference measurement of CSI measurement, where the status information is used to determine the measurement resources for the terminal to measure channel status information CSI, and the status information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. 【0132】 In one embodiment, the base station transmits status information to a terminal, which is used by the terminal to determine the measurement resources for measuring channel status information CSI, and which is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. The status information allows the terminal to determine the measurement resources for measuring channel status information CSI. Exemplarily, the period during which the spatial unit is turned off and / or turned on may be dynamically indicated by a DCI, which may be considered to become effective immediately after receiving the DCI (indicating a pilot to be turned off), and the duration corresponding to the off period is a fixed duration set by the upper layer, for example, 20 ms. 【0133】 In one embodiment, status information is periodically transmitted to a terminal, where the status information is used to determine the measurement resources for measuring channel status information CSI, and the status information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. Based on the status information, the terminal determines the measurement resources for measuring channel status information CSI. In this way, the measurement resources can be updated in real time by the status information. 【0134】 In one embodiment, in response to receiving request information requesting status indication information transmitted from a terminal, the system transmits the status indication information to the terminal, wherein the status indication information is used to determine the measurement resources for the terminal to measure channel status information CSI, and the status indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. 【0135】 In one embodiment, status information is transmitted to a terminal, which is used to determine a measurement resource for the terminal to measure channel status information (CSI). The status information is used to indicate, at least, the period during which the base station's spatial unit is turned off and / or on, and the measurement resource is associated with a CSI report. Exemplarily, different measurement resources correspond to different CSI reports. It is understood that the measurement results obtained by performing a CSI measurement based on the measurement resources may be included in the CSI report. One or one set of measurement resources corresponds to one CSI report. 【0136】 In one embodiment, status information is transmitted to a terminal, where the status information is used to determine a measurement resource for the terminal to measure channel status information CSI, where the status information is used to indicate at least the period during which the base station's spatial unit is turned off and / or on, and the measurement resource is associated with a CSI report. The terminal performs a CSI measurement based on the measurement resource and obtains the measurement result of the CSI measurement. The base station receives a CSI report transmitted from the terminal, where the CSI report includes the measurement result. 【0137】 As those skilled in the art will understand, the methods provided by the embodiments of this disclosure may be performed independently or in conjunction with some of the methods in the embodiments of this disclosure or some of the methods in related art. 【0138】 To illustrate with an example, in all embodiments of this disclosure, the status information includes at least the parameters that cause the base station's spatial unit to be turned off and onIt is used to indicate the parameters to be set. Exemplarily, the parameters for turning off and / or turning on the spatial unit of the base station may be the period during which the spatial unit of the base station is turned off and / or the period during which it is turned on. Exemplarily, the period may include at least one of a specific time point, a time duration, a relative time offset value, a relative time offset value of the start point, and a relative time offset value of the end point. Thus, the time when the spatial unit of the base station is turned off and / or turned on can be determined by one or more of the above parameters. Of course, this is exemplary, and the parameters for turning off and / or turning on the spatial unit of the base station may be any parameters that enable the UE to determine that the spatial unit of the base station is turned off and / or turned on, and the embodiments of the present disclosure do not limit this. Here, the period during which the spatial unit of the base station is turned off may be the time duration to from when the spatial unit of the base station is turned off until it is turned on. The time duration to may be any value, where 0 < to < ∞. Similarly, the period during which the spatial unit of the base station is turned on may be the time duration tc from when the spatial unit of the base station is turned on until it is turned off. The time duration tc may also be any value, where 0 < tc < ∞. Exemplarily, in the following embodiments of the present disclosure, it is illustrated by way of example that the parameters for turning off and / or turning on the spatial unit of the base station may be the period during which the spatial unit of the base station is turned off and / or the period during which it is turned on. However, those skilled in the art can understand that being in the period during which the spatial unit of the base station is turned off means being in the state where the spatial unit of the base station is turned off, and being in the period during which the spatial unit of the base station is turned on means being in the state where the spatial unit of the base station is turned on. 【0139】 As shown in FIG. 16, this embodiment provides a measurement device for channel state information. Here, the measurement device includes a determination module 161 configured to determine measurement resources for measuring channel state information CSI according to state indication information. Here, the status information is used to indicate, at least, the period during which the base station's spatial unit is turned off and / or turned on. 【0140】 In one embodiment, the decision module 161 is further configured so that the measurement resource is associated with the CSI report. 【0141】 In one embodiment, the decision module 161 is The system is further configured to determine the measurement resource for measuring channel state information based on the setting results of predetermined upper-layer parameters and the state indication information. Here, the predetermined upper layer parameters are: The first parameter is a parameter for channel measurement, It includes at least one of the following parameters: a second parameter which is a parameter for interferometry. 【0142】 In one embodiment, the decision module 161 is In the event that the first parameter is not set and the status indicator information indicates a period during which the spatial unit is turned off, the measurement resource is determined to be a non-zero power consumption channel state information reference signal NZP CSI-RS resource whose time-domain position is before the channel state information CSI reference resource and is not within the period during which it is turned off, In the event that the second parameter is not set and the status indication information indicates a period during which the spatial unit is turned off, it is determined that the measurement resource is a channel state information interference measurement CSI-IM resource whose time-domain position is before the CSI reference resource and is not within the period during which it is turned off. In the event that the second parameter is not set and the status indicator information indicates a period during which the spatial unit is turned off, it is determined that the measurement resource is an NZP CSI-RS resource for interference measurement whose time-domain position is in front of the CSI reference resource and is not within the period during which it is turned off, In response to the setting of the first parameter and the status indicator information indicating a period during which the spatial unit is turned off, the measurement resource is located in one NZP CSI-RS resource whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing of reporting the CSI report. S To decide that it exists, In response to the setting of the second parameter and the status indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is one CSI-IM resource whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing of reporting the CSI report. The configuration is further configured such that, in response to the setting of the second parameter and the status indication information indicating a period during which the spatial unit is turned off, the measurement resource is determined to be an NZP CSI-RS resource for one interferometry measurement whose time-domain position is ahead of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. 【0143】 In one embodiment, the measuring device is The system includes an execution module 162 configured to perform the operation of sending a CSI report to a base station based on the status indication information. 【0144】 In one embodiment, the measuring device further includes a transmitting module, and the transmitting module is Transmitting a CSI report to a base station in response to the time domain position of the measurement resource being ahead of the CSI reference resource, the time domain position not being within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or receiving at least one CSI-RS transmission timing, The terminal is set to connection mode non-continuous receive C-DRX, the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or the terminal transmits a CSI report to the base station in response to receiving at least one CSI-RS transmission timing during the active period, The terminal is configured as C-DRX, the CSR-RS resource set for channel measurement associated with the CSI report is configured as a first quantity resource set and a second quantity resource pair, the CSI report is transmitted to the base station in response that the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or at least one CSI-RS transmission timing has been received for each CSI-RS resource in each resource pair within the same active period, The terminal is further configured to be set to C-DRX, to monitor downlink control information DCI format 2-6, to be set to ps-TransmitOtherPeriodicCSI, to have a report setting type set to periodic type, to transmit a CSI report to a base station in response to receiving at least one CSI-RS transmission timing, where the report amount is not a preset amount, the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or to receive at least one CSI-RS transmission timing. 【0145】 In one embodiment, the measuring device is The system further includes a receiving module 163 configured to receive the status indicator information transmitted from the base station. 【0146】 As those skilled in the art will understand, the methods provided by the embodiments of this disclosure may be performed independently or in conjunction with some of the methods in the embodiments of this disclosure or some of the methods in related art. 【0147】 As shown in Figure 17, this embodiment provides a device for measuring channel state information, wherein the measuring device is Includes a transmission module 171 configured to send status indicator information to a terminal, Here, the status information is used to determine the measurement resources for the terminal to measure the channel status information CSI, and the status information is at least the base station Space unit It is used to indicate the period during which it is turned off and / or turned on. 【0148】 As those skilled in the art will understand, the methods provided by the embodiments of this disclosure may be performed independently or in conjunction with some of the methods in the embodiments of this disclosure or some of the methods in related art. 【0149】 Embodiments of this disclosure provide communication equipment, and communication equipment is, Processor and The processor includes memory for storing executable instructions, Here, the processor is configured to execute an executable instruction to implement a method applicable to any embodiment of the present disclosure. 【0150】 Here, the processor may include various types of storage media, which are non-temporary computer storage media that can continue to store the stored information after the power of the communication device is turned off. 【0151】 The processor may be connected to memory via a bus or similar means, and is used to read executable programs stored in memory. 【0152】 Embodiments of the present disclosure further provide a computer storage medium in which a computer executable program is stored, and when the executable program is executed by a processor, the method of any embodiment of the present disclosure is realized. 【0153】 The specific methods by which each module performs its operation in the apparatus described above are explained in detail in the embodiment of the said method and will not be explained in detail here. 【0154】 As shown in Figure 18, one embodiment of the present disclosure provides a terminal structure. 【0155】 Referring to the terminal 800 shown in Figure 18, this embodiment provides a terminal 800, which may specifically be a mobile phone, computer, digital broadcasting terminal, message sending and receiving device, game console, tablet device, medical device, fitness device, personal digital assistant, etc. 【0156】 Referring to Figure 18, the terminal 800 may include one or more of the following: processing component 802, memory 804, power supply component 806, multimedia component 808, audio component 810, input / output (I / O) interface 812, sensor component 814, and communication component 816. 【0157】 The processing component 802 typically controls the overall operation of the terminal 800, such as operations related to display, telephone calling, data communication, camera operation, and recording operation. The processing component 802 may include one or more processors 820 that execute instructions to complete all or some of the steps of the above method. The processing component 802 may also include one or more modules to facilitate interaction between the processing component 802 and other components. For example, the processing component 802 may include a multimedia module to facilitate interaction between the multimedia component 808 and the processing component 802. 【0158】 Memory 804 is configured to store various types of data to support operation on device 800. Examples of this data include instructions for any application or method to run on terminal 800, contact data, phonebook data, messages, pictures, videos, etc. Memory 804 may be implemented by any type of volatile or non-volatile storage device or a combination thereof, such as static random access memory (SRAM), electrically erasable programmable read-only memory (EEPROM), erasable programmable read-only memory (EPROM), programmable read-only memory (PROM), read-only memory (ROM), magnetic memory, flash memory, magnetic disk or optical disk. 【0159】 The power supply component 806 supplies power to various components of the terminal 800. The power supply component 806 may also include a power management system, one or more power supplies, and other components related to the generation, management, and distribution of power for the terminal 800. 【0160】 The multimedia component 808 includes a screen that provides an output interface between the terminal 800 and the user. In some embodiments, the screen may include a liquid crystal display (LCD) and a touch panel (TP). If the screen includes a touch panel, the screen may be implemented as a touchscreen to receive input signals from the user. The touch panel includes one or more touch sensors for sensing touches, slides, and gestures on the touch panel. The touch sensors may not only sense the boundaries of a touch or slide action but also detect the duration and pressure associated with the touch or slide action. In some embodiments, the multimedia component 808 includes one front camera and / or a rear camera. When the device 800 is in an operating mode, for example, a shooting mode or a video mode, the front camera and / or the rear camera can receive external multimedia data. Each front camera and rear camera may be a fixed optical lens system or may have a focal length and optical zoom capability. 【0161】 The audio component 810 is configured to output and / or input audio signals. For example, the audio component 810 includes one microphone (MIC), and when the terminal 800 is in an operating mode such as telephone calling mode, recording mode, and voice recognition mode, the microphone is configured to receive external audio signals. The received audio signals can be further stored in memory 804 or transmitted via communication component 816. In some embodiments, the audio component 810 further includes a speaker for outputting audio signals. 【0162】 The I / O interface 812 provides an interface between the processing component 802 and a peripheral interface module, which may be a keyboard, click wheel, buttons, etc. These buttons may include, but are not limited to, a home button, volume buttons, a start button, and a lock button. 【0163】 The sensor component 814 comprises one or more sensors and is used to provide the terminal 800 with state evaluations in various aspects. For example, the sensor component 814 can detect the on / off state of the device 800, the relative positioning of components, for example, the display and keypad of the terminal 800, and the sensor component 814 can further detect changes in the position of the terminal 800 or one of its components, the presence or absence of contact between the user and the terminal 800, the orientation or acceleration / deceleration of the terminal 800, and temperature changes of the terminal 800. The sensor component 814 may include proximity sensors configured to detect the presence of nearby objects when there is no physical contact. The sensor component 814 may further include optical sensors, such as CMOS or CCD image sensors, for use in imaging applications. In some embodiments, the sensor component 814 may further include acceleration sensors, gyroscopes, magnetic sensors, pressure sensors, or temperature sensors. 【0164】 The communication component 816 is configured to facilitate wired or wireless communication between the terminal 800 and other devices. The terminal 800 can access wireless networks based on communication standards, such as Wi-Fi, 2G, or 3G, or a combination thereof. In one exemplary embodiment, the communication component 816 receives broadcast signals or broadcast-related information from an external broadcast management system via a broadcast channel. In one exemplary embodiment, the communication component 816 further includes a Near Field Communication (NFC) module to facilitate short-range communication. For example, the NFC module can be implemented based on radio frequency identification (RFID) technology, Infrared Data Association (IrDA) technology, ultra-wideband (UWB) technology, Bluetooth® (BT) technology, and other technologies. 【0165】 In exemplary embodiments, the terminal 800 may be implemented by one or more application-specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), field-programmable gate arrays (FPGAs), controllers, microcontrollers, microprocessors, or other electronic components, and may be configured to perform the above method. 【0166】 In an exemplary embodiment, a non-temporary computer-readable storage medium containing instructions, such as a memory 804 containing instructions, is further provided, and the instructions can be executed by a processor 820 of a terminal 800 to complete the method. For example, the non-temporary computer-readable storage medium may be a ROM, random access memory (RAM), CD-ROM, magnetic tape, floppy disk, or optical data storage device. 【0167】 As shown in Figure 19, one embodiment of the present disclosure illustrates the structure of a base station. For example, the base station 900 may be provided as a network-side device. Referring to Figure 19, the base station 900 includes a processing component 922 further comprising one or more processors, and a memory resource represented by memory 932 for storing instructions executable by the processing component 922, such as application programs. The application programs stored in memory 932 may include one or more modules, each corresponding to a set of instructions. The processing component 922 is also configured to execute instructions and perform any method applied to the base station of the above method. 【0168】 The base station 900 may further include a power component 926 configured to perform power management of the base station 900, a wired or wireless network interface 950 configured to connect the base station 900 to a network, and an input / output (I / O) interface 958. The base station 900 can operate based on an operating system stored in memory 932, such as Windows Server®, Mac OS X®, Unix®, Linux®, or FreeBSD®. Those skilled in the art will readily conceive of other embodiments of the invention after considering the specification and practicing the invention disclosed herein. This disclosure is intended to cover any variations, uses, or adaptive changes of the invention, which will follow the general principles of the invention and include common or ordinary technical means in the art not disclosed herein. The specification and examples are illustrative only, and the true scope and spirit of the invention are shown by the following claims. 【0169】 It should be understood that the present invention is not limited to the precise structure described above and shown in the drawings, and various modifications and changes can be made without departing from its scope. The scope of the present invention is limited only by the appended claims.

Claims

[Claim 1] A method for measuring channel status information performed by a terminal, This includes determining measurement resources for measuring channel state information CSI based on the setting results of predetermined upper-layer parameters and state indication information. The status information is used to indicate, at least, the period during which the base station's spatial unit is turned off and / or turned on. The predetermined upper layer parameter includes at least one of a first parameter for channel measurement and a second parameter for interference measurement. Determining the measurement resources for measuring channel state information based on the setting results of the predetermined upper layer parameters and the state indication information is: In the event that the first parameter is not set and the status indicator information indicates a period during which the spatial unit is turned off, the measurement resource is determined to be a non-zero power consumption channel state information reference signal NZP CSI-RS resource whose time domain position is before the channel state information CSI reference resource and is not within the period during which it is turned off, The second parameter is not set, and in response to the state indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is a channel state information interference measurement CSI-IM resource whose time domain position is before the CSI reference resource and is not within the period during which it is turned off. The second parameter is not set, and in response to the status indicator information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is an NZP CSI-RS resource for interference measurement whose time-domain position is in front of the CSI reference resource and is not within the period during which it is turned off. In response to the setting of the first parameter and the status indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is one NZP CSI-RS resource whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. In response to the setting of the second parameter and the status indication information indicating a period during which the spatial unit is turned off, the measurement resource is determined to be one CSI-IM resource whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. The second parameter is set, and in response to the status indicator information indicating a period during which the spatial unit is turned off, the measurement resource is determined to be an NZP CSI-RS resource for one interferometry measurement whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. Method for measuring channel state information. [Claim 2] The measurement method according to claim 1, wherein the measurement resource is associated with a CSI report. [Claim 3] The aforementioned spatial unit is Antenna unit and Antenna port and, Sending and receiving links, A beam and, The pilot, The measurement method according to claim 1, comprising at least one of the following: an antenna panel. [Claim 4] The measurement method according to claim 1, further comprising performing an operation to transmit a CSI report to a base station based on the status indication information. [Claim 5] Based on the aforementioned status information, the operation of transmitting a CSI report to the base station is: Transmitting a CSI report to the base station in response to the time domain position of the measurement resource being in front of the CSI reference resource, the time domain position not being within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or receiving at least one CSI-RS transmission timing, The terminal is set to connection mode non-continuous receive C-DRX, the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period in which the spatial unit indicated by the status indicator information is turned off, and / or the terminal receives at least one CSI-RS transmission timing during the active period, and transmits a CSI report to the base station. The terminal is configured as C-DRX, and the CSR-RS resource set for channel measurement associated with the CSI report is configured as a first quantity resource set and a second quantity resource pair, and the CSI report is transmitted to the base station in response to the time domain position of the measurement resource being before the CSI reference resource, the time domain position not being within the time domain position corresponding to the period during which the spatial unit indicated by the status indication information is turned off, and / or receiving at least one CSI-RS transmission timing for each CSI-RS resource in each resource pair within the same active period. The measurement method according to claim 4, comprising at least one of the following: the terminal is set to C-DRX; the terminal is set to monitor downlink control information DCI format 2-6; the terminal is set to ps-TransmitOtherPeriodicCSI; the report setting type is set to periodic type; the report amount is not a preset amount; the time domain position of the measurement resource is before the CSI reference resource; the time domain position is not within the time domain position corresponding to the period during which the spatial unit indicated by the status indication information is turned off; and / or transmitting a CSI report to the base station in response to receiving at least one CSI-RS transmission timing. [Claim 6] The measurement method according to claim 1, further comprising receiving the status indication information transmitted from the base station. [Claim 7] A method for measuring channel status information performed by a base station, This includes sending status information to the terminal, The terminal determines a measurement resource for measuring channel status information CSI based on the setting results of predetermined upper layer parameters and the status indication information, and the status indication information is used to indicate at least the period during which the base station's spatial unit is turned off and / or turned on. The predetermined upper layer parameter includes at least one of a first parameter for channel measurement and a second parameter for interference measurement. Determining the measurement resources for measuring channel state information based on the setting results of the predetermined upper layer parameters and the state indication information is: In the event that the first parameter is not set and the status indicator information indicates a period during which the spatial unit is turned off, the measurement resource is determined to be a non-zero power consumption channel state information reference signal NZP CSI-RS resource whose time domain position is before the channel state information CSI reference resource and is not within the period during which it is turned off, The second parameter is not set, and in response to the state indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is a channel state information interference measurement CSI-IM resource whose time domain position is before the CSI reference resource and is not within the period during which it is turned off. The second parameter is not set, and in response to the status indicator information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is an NZP CSI-RS resource for interference measurement whose time-domain position is in front of the CSI reference resource and is not within the period during which it is turned off. In response to the setting of the first parameter and the status indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is one NZP CSI-RS resource whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. In response to the setting of the second parameter and the status indication information indicating a period during which the spatial unit is turned off, the measurement resource is determined to be one CSI-IM resource whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. The second parameter is set, and in response to the status indicator information indicating a period during which the spatial unit is turned off, the measurement resource is determined to be an NZP CSI-RS resource for one interferometry measurement whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. Method for measuring channel state information. [Claim 8] The measurement method according to claim 7, wherein the measurement resource is associated with a CSI report. [Claim 9] The aforementioned spatial unit is Antenna unit and Antenna port and, Sending and receiving links, A beam and, The pilot, The measurement method according to claim 7, comprising at least one of the following: an antenna panel. [Claim 10] A device for measuring channel state information, wherein the measuring device is Includes a decision module configured to determine measurement resources for measuring channel state information CSI based on the setting results of predetermined upper-layer parameters and state indication information, The status information is used to indicate, at least, the period during which the base station's spatial unit is turned off and / or turned on. The predetermined upper layer parameter includes at least one of a first parameter for channel measurement and a second parameter for interference measurement. Determining the measurement resources for measuring channel state information based on the setting results of the predetermined upper layer parameters and the state indication information is: In the event that the first parameter is not set and the status indicator information indicates a period during which the spatial unit is turned off, the measurement resource is determined to be a non-zero power consumption channel state information reference signal NZP CSI-RS resource whose time domain position is before the channel state information CSI reference resource and is not within the period during which it is turned off, The second parameter is not set, and in response to the state indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is a channel state information interference measurement CSI-IM resource whose time domain position is before the CSI reference resource and is not within the period during which it is turned off. The second parameter is not set, and in response to the status indicator information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is an NZP CSI-RS resource for interference measurement whose time-domain position is in front of the CSI reference resource and is not within the period during which it is turned off. In response to the setting of the first parameter and the status indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is one NZP CSI-RS resource whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. In response to the setting of the second parameter and the status indication information indicating a period during which the spatial unit is turned off, the measurement resource is determined to be one CSI-IM resource whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. The second parameter is set, and in response to the status indicator information indicating a period during which the spatial unit is turned off, the measurement resource is determined to be an NZP CSI-RS resource for one interferometry measurement whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. A device for measuring channel status information. [Claim 11] The measurement apparatus according to claim 10, wherein the decision module is further configured so that the measurement resource is associated with the CSI report. [Claim 12] The measuring device is, The measuring device according to claim 10, further comprising an execution module configured to perform an operation to transmit a CSI report to a base station based on the status indication information. [Claim 13] The measuring device further includes a transmitting module, and the transmitting module is Transmitting a CSI report to a base station in response to the time domain position of the measurement resource being in front of the CSI reference resource, the time domain position not being within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or receiving at least one CSI-RS transmission timing, The terminal is set to connection mode non-continuous receive C-DRX, the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period in which the spatial unit indicated by the status indicator information is turned off, and / or the terminal receives at least one CSI-RS transmission timing during the active period, and transmits a CSI report to the base station in response to this; The terminal is configured as C-DRX, the CSR-RS resource set for channel measurement associated with the CSI report is configured as a first quantity resource set and a second quantity resource pair, the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within the time domain position corresponding to the period during which the spatial unit indicated by the status indicator information is turned off, and / or the CSI report is transmitted to the base station in response to the reception of at least one CSI-RS transmission timing for each CSI-RS resource in each resource pair within the same active period, The measuring apparatus according to claim 12, further configured such that the terminal is set to C-DRX, the terminal is set to monitor downlink control information DCI format 2-6, the terminal is set to ps-TransmitOtherPeriodicCSI, the report setting type is set to periodic type, the report amount is not a preset amount, the time domain position of the measurement resource is before the CSI reference resource, the time domain position is not within a time domain position corresponding to the period during which the spatial unit indicated by the state indication information is turned off, and / or transmits a CSI report to a base station in response to receiving at least one CSI-RS transmission timing. [Claim 14] The measuring device is, The measuring device according to claim 10, further comprising a receiving module configured to receive the status indicator information transmitted from the base station. [Claim 15] A device for measuring channel state information, wherein the measuring device is Includes a transmission module configured to send status indicator information to a terminal, The terminal determines a measurement resource for measuring channel status information CSI based on the setting results of predetermined upper layer parameters and the status indication information, and the status indication information is used to indicate at least the period during which the base station is turned off and / or turned on. The predetermined upper layer parameter includes at least one of a first parameter for channel measurement and a second parameter for interference measurement. Determining the measurement resources for measuring channel state information based on the setting results of the predetermined upper layer parameters and the state indication information is: In the event that the first parameter is not set and the status indicator information indicates a period during which the spatial unit is turned off, it is determined that the measurement resource is a non-zero power consumption channel state information reference signal NZP CSI-RS resource whose time-domain position is before the channel state information CSI reference resource and is not within the period during which it is turned off, The second parameter is not set, and in response to the state indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is a channel state information interference measurement CSI-IM resource whose time domain position is before the CSI reference resource and is not within the period during which it is turned off. The second parameter is not set, and in response to the status indicator information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is an NZP CSI-RS resource for interference measurement whose time-domain position is in front of the CSI reference resource and is not within the period during which it is turned off. In response to the setting of the first parameter and the status indication information indicating a period during which the spatial unit is turned off, it is determined that the measurement resource is one NZP CSI-RS resource whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. In response to the setting of the second parameter and the status indication information indicating a period during which the spatial unit is turned off, the measurement resource is determined to be one CSI-IM resource whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. The second parameter is set, and in response to the status indicator information indicating a period during which the spatial unit is turned off, the measurement resource is determined to be an NZP CSI-RS resource for one interferometry measurement whose time domain position is in front of the CSI reference resource, is not within the period during which it is turned off, and is closest to the timing for reporting the CSI report. A device for measuring channel status information. [Claim 16] It is a communication device, Memory and A communication device comprising: a processor connected to the memory and configured to realize the measurement method described in any one of claims 1 to 9 by executing computer-executable instructions stored in the memory.

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