WO2023197318A1 - 信号接收方法、装置、设备及存储介质 - Google Patents

信号接收方法、装置、设备及存储介质 Download PDF

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Publication number
WO2023197318A1
WO2023197318A1 PCT/CN2022/087182 CN2022087182W WO2023197318A1 WO 2023197318 A1 WO2023197318 A1 WO 2023197318A1 CN 2022087182 W CN2022087182 W CN 2022087182W WO 2023197318 A1 WO2023197318 A1 WO 2023197318A1
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WO
WIPO (PCT)
Prior art keywords
downlink
time domain
domain position
positioning signal
frequency
Prior art date
Application number
PCT/CN2022/087182
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English (en)
French (fr)
Inventor
李明菊
Original Assignee
北京小米移动软件有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 北京小米移动软件有限公司 filed Critical 北京小米移动软件有限公司
Priority to PCT/CN2022/087182 priority Critical patent/WO2023197318A1/zh
Priority to CN202280001195.4A priority patent/CN117242730A/zh
Publication of WO2023197318A1 publication Critical patent/WO2023197318A1/zh

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/04Wireless resource allocation

Definitions

  • the present application relates to the field of mobile communications, and in particular to a signal receiving method, device, equipment and storage medium.
  • network equipment can locate the terminal by sending downlink positioning signals to the terminal.
  • the network equipment may also send other downlink transmissions other than downlink positioning signals to the terminal.
  • the terminal how to receive the network equipment
  • the transmitted downlink positioning signals and other downlink transmissions have become urgent problems that need to be solved.
  • Embodiments of the present application provide a signal receiving method, device, equipment and storage medium, provide a way for a terminal to receive downlink positioning signals and other downlink transmissions, and ensure the reliability of data transmission between the terminal and network equipment.
  • the technical solutions are as follows:
  • a signal receiving method is provided, the method is performed by a terminal, and the method includes:
  • a signal receiving device includes:
  • a position determination module configured to determine the first time domain position of the downlink positioning signal and the second time domain position of other downlink transmissions except the downlink positioning signal;
  • a rule determination module configured to determine whether to receive the downlink positioning signal according to the first time domain position, the second time domain position, and a conflict judgment rule.
  • a terminal includes: a processor; a transceiver connected to the processor; a memory for storing executable instructions of the processor; wherein the processor is configured to load and execute the executable instructions. Execute instructions to implement the signal receiving method as described above.
  • a computer-readable storage medium stores executable program code.
  • the executable program code is loaded and executed by a processor to implement the signal receiving method in the above aspect.
  • a chip is provided.
  • the chip includes programmable logic circuits and/or program instructions. When the chip is run on a terminal, it is used to implement the signal receiving method in the above aspect.
  • a computer program product is provided.
  • the computer program product is executed by a processor of a terminal, it is used to implement the signal receiving method of the above aspect.
  • the terminal determines whether to receive the downlink positioning signal based on the first time domain position of the downlink positioning signal and the second time domain position of other downlink transmissions except the downlink positioning signal, as well as the conflict judgment rules. , provides a way for terminals to receive downlink positioning signals and other downlink transmissions, ensuring the reliability of data transmission between terminals and network equipment.
  • Figure 1 shows a block diagram of a communication system provided by an exemplary embodiment of the present application
  • Figure 2 shows a flow chart of a signal receiving method provided by an exemplary embodiment of the present application
  • Figure 3 shows a schematic diagram of time domain position overlap provided by an exemplary embodiment of the present application
  • Figure 4 shows a schematic diagram of non-overlapping time domain positions provided by an exemplary embodiment of the present application
  • Figure 5 shows a schematic diagram of the first extended time domain provided by an exemplary embodiment of the present application
  • Figure 6 shows a flow chart of a positioning report transmission method provided by an exemplary embodiment of the present application
  • Figure 7 shows a block diagram of a signal receiving device provided by an exemplary embodiment of the present application.
  • Figure 8 shows a block diagram of another signal receiving device provided by an exemplary embodiment of the present application.
  • Figure 9 shows a schematic structural diagram of a communication device provided by an exemplary embodiment of the present application.
  • first, second, third, etc. may be used in this application to describe various information, the information should not be limited to these terms. These terms are only used to distinguish information of the same type from each other.
  • first information may also be called second information, and similarly, the second information may also be called first information.
  • word “if” as used herein may be interpreted as "when” or “when” or “in response to determining.”
  • the information including but not limited to user equipment information, user personal information, etc.
  • data including but not limited to data used for analysis, stored data, displayed data, etc.
  • signals involved in this application All are authorized by the user or fully authorized by all parties, and the collection, use and processing of relevant data need to comply with relevant laws, regulations and standards of relevant countries and regions.
  • Figure 1 shows a block diagram of a communication system provided by an exemplary embodiment of the present application.
  • the communication system may include: a terminal 10 and a network device 20.
  • the number of terminals 10 is usually multiple, and one or more terminals 10 can be distributed in the cell managed by each network device 20 .
  • the terminal 10 may include various handheld devices, vehicle-mounted devices, wearable devices, computing devices or other processing devices connected to wireless modems with wireless communication functions, as well as various forms of user equipment (User Equipment, UE), mobile stations ( Mobile Station, MS) and so on.
  • UE User Equipment
  • MS Mobile Station
  • the access network device 20 is a device deployed in the access network to provide wireless communication functions for the terminal 10 .
  • the above-mentioned devices that provide wireless communication functions for the terminal 10 are collectively referred to as network equipment.
  • a connection can be established between the network device 20 and the terminal 10 through the air interface, so that communication can be carried out through the connection, including the exchange of signaling and data.
  • the number of network devices 20 may be multiple, and communication between two adjacent network devices 20 may also be carried out in a wired or wireless manner.
  • the terminal 10 can switch between different network devices 20 , that is, establish connections with different network devices 20 .
  • the access network device 20 may include various forms of macro base stations, micro base stations, relay stations, access points, transmission and reception points (Transmission Reception Points, TRPs), and so on.
  • TRPs Transmission Reception Points
  • the names of devices with network device functions may be different.
  • 5G NR New Radio, new wireless technology
  • gNodeB New Radio, new wireless technology
  • gNB network device
  • the core network device 30 is a device deployed in the core network.
  • the functions of the core network device are mainly to provide user connections, manage users, and carry services, and serve as an interface for the bearer network to provide to external networks.
  • the core network equipment in the 5G NR system can include Access and Mobility Management Function (AMF) network elements, User Plane Function (UPF) network elements and Session Management Function (Session Management Function, SMF) network element, etc.
  • the core network device 30 in the embodiment of the present application may include a location management function network element.
  • the location management function network element includes a location server.
  • the location server can be implemented as any of the following: LMF (Location Management Function, location management network element), E-SMLC (Enhanced Serving Mobile Location Center, enhanced Service mobile location center), SUPL (Secure User Plane Location, secure user plane location), SUPL SLP (SUPL Location Platform, secure user plane location platform).
  • LMF Location Management Function, location management network element
  • E-SMLC Enhanced Serving Mobile Location Center, enhanced Service mobile location center
  • SUPL Secure User Plane Location, secure user plane location
  • SUPL SLP SUPL Location Platform, secure user plane location platform.
  • the network equipment includes at least one of core network equipment and access network equipment.
  • Figure 2 shows a flow chart of a signal receiving method provided by an exemplary embodiment of the present application.
  • the exemplary method can be applied to the terminal shown in Figure 1.
  • the method includes at least part of the following content:
  • Step 201 The terminal determines the first time domain position of the downlink positioning signal and the second time domain position of other downlink transmissions except the downlink positioning signal.
  • the network device can not only send downlink positioning signals to the terminal, but also send other downlink transmissions other than the downlink positioning signal to the terminal.
  • the network device needs to configure the first time domain position for the terminal to transmit the downlink positioning signal, and also configure the second time domain position for the terminal to transmit other downlink transmissions.
  • the terminal can determine the first time domain position of the downlink positioning signal and the second time domain position of other downlink transmissions except the downlink positioning signal.
  • Step 202 The terminal determines whether to receive the downlink positioning signal based on the first time domain position, the second time domain position, and the conflict judgment rule.
  • the conflict judgment rule includes two situations: conflict between the first time domain position and the second time domain position and no conflict.
  • the conflict judgment rule is used by the terminal to determine whether there is a conflict between the first time domain position and the second time domain position. conflict.
  • the terminal when the terminal is in RRC (Radio Resource Control) idle state, the terminal performs steps 201-202 to determine whether to receive a downlink positioning signal according to conflict judgment rules.
  • RRC Radio Resource Control
  • the terminal determines the first time domain position of the downlink positioning signal and the second time domain position of other downlink transmissions, and the relationship between the first time domain position and the second time domain position includes the existence of conflict and There are two situations where there is no conflict.
  • the terminal needs to determine whether the downlink positioning signal conflicts with other downlink transmissions according to the conflict judgment rules.
  • steps performed by the network device may form an embodiment alone, and the steps performed by the terminal may also form an embodiment alone, which is not limited in this application.
  • the terminal determines whether to receive the downlink positioning signal based on the first time domain position of the downlink positioning signal and the second time domain position of other downlink transmissions except the downlink positioning signal, as well as the conflict judgment rules, and provides A method of how a terminal receives downlink positioning signals and other downlink transmissions to ensure the reliability of data transmission between the terminal and network equipment.
  • the terminal determines whether to receive the downlink positioning signal based on the conflict judgment rule and the priority of the downlink positioning signal.
  • the terminal responds to determining that the downlink positioning signal conflicts with other downlink transmissions based on the conflict determination rule, and receives the downlink positioning signal when the priority of the downlink positioning signal is higher than other downlink transmissions. Or, when the priority of the downlink positioning signal is lower than the priority of other downlink transmissions, the downlink positioning signal is not received.
  • the conflict judgment rule is used to determine whether the downlink positioning signal conflicts with other downlink transmissions based on the first time domain position and the second time domain position, and when determining that the downlink positioning signal conflicts with other downlink transmissions, if the downlink positioning signal has priority If the priority level is higher than other downlink transmissions, the terminal will receive the downlink positioning signal first. If the priority of the downlink positioning signal is lower than the priority of other downlink transmissions, the terminal receives other downlink transmissions first.
  • the embodiment of the present application takes as an example that when the downlink positioning signal conflicts with other downlink transmissions, the terminal preferentially receives the downlink positioning signal or other downlink transmission. In another embodiment, if the downlink positioning signal does not conflict with other downlink transmissions, the terminal receives the downlink positioning signal and other downlink transmissions.
  • the conflict judgment rule includes multiple ways to determine whether the downlink positioning signal conflicts with the downlink transmission.
  • the conflict judgment rule includes at least one of the following situations:
  • Type 1 When there are overlapping symbols between the first time domain position and the second time domain position, it is determined that the downlink positioning signal conflicts with other downlink transmissions.
  • the terminal cannot receive the downlink positioning signal and other downlink transmissions at the same time. transmission to determine whether the downlink positioning signal conflicts with other downlink transmissions.
  • the first time domain position is located at the front position in Figure 3
  • the second time domain position is located at the back position in Figure 3
  • the first time domain position and the second time domain position are
  • the shaded part in is the repeated part of the first time domain position and the second time domain position, indicating that there are overlapping symbols between the first time domain position and the second time domain position.
  • the embodiment of the present application takes as an example that there are overlapping symbols between the first time domain position and the second time domain position. In another embodiment, if there is no overlapping symbol between the first time domain position and the second time domain position, it is determined that the downlink positioning signal does not conflict with other downlink transmissions.
  • the first time domain position is located at the front position in Figure 4
  • the second time domain position is located at the back position in Figure 4
  • the first time domain position and the second time domain position are There is no overlapping part between them, indicating that the first time domain position and the second time domain position do not affect each other, and there are no overlapping symbols between the first time domain position and the second time domain position.
  • the second type when there are overlapping symbols between the first time domain position and the first extended time domain, it is determined that the downlink positioning signal conflicts with other downlink transmissions.
  • the first extended time domain includes the second time domain position, X symbols or time slots located before the second time domain position, and Y symbols or time slots located after the second time domain position, where X and Y are not Negative integer.
  • X and Y are specified by the communication protocol, or X and Y are configured by the network device through SIB (System Information Block), or X and Y are configured in other ways, which are not limited by the embodiments of this application.
  • SIB System Information Block
  • the first extended time domain is a time domain obtained by extending the second time domain position.
  • the second time domain position includes a first starting position and a first ending position.
  • the position of X symbols or time slots before the starting position is determined as the second starting position of the first extended time domain.
  • the position of Y symbols or time slots after the first end position is determined as the second end position of the first extended time domain, then the time domain between the second start position and the second end position is the first extended time domain .
  • the first extended time domain includes a second time domain position, X symbols located before the second time domain position, and Y symbols located after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain includes a second time domain position, X time slots located before the second time domain position, and Y time slots located after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain includes a second time domain position, X symbols located before the second time domain position, and Y time slots located after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain includes a second time domain position, X symbols before the second time domain position, and Y time slots after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain can be represented by a timewindow, which is not limited in the embodiment of this application.
  • the terminal cannot receive the downlink positioning signal and other downlink transmissions at the same time. transmission to determine conflicts between downlink positioning signals and other downlink transmissions.
  • the embodiment of the present application takes as an example that there are overlapping symbols between the first time domain position and the first extended time domain. In another embodiment, if there are overlapping symbols between the first time domain position and the first extended time domain, When there are no overlapping symbols in the domain, it is determined that the downlink positioning signal does not conflict with other downlink transmissions.
  • the downlink positioning signal is located within the initial BWP (Bandwidth Part, bandwidth part), or the downlink positioning signal is located outside the initial BWP.
  • the initial BWP is the BWP configured by the network device for the terminal through system message broadcast, or the initial BWP is the BWP agreed between the network device and the terminal by agreement, or the initial BWP is the SSB ( Synchronization Signal/PBCH Block) corresponding BWP, or the initial BWP can also be a BWP configured in other ways, which is not limited in the embodiment of this application.
  • the initial BWP is the BWP configured by the network device for the terminal through system message broadcast, or the initial BWP is the BWP agreed between the network device and the terminal by agreement, or the initial BWP is the SSB ( Synchronization Signal/PBCH Block) corresponding BWP, or the initial BWP can also be a BWP configured in other ways, which is not limited in the embodiment of this application.
  • SSB Synchronization Signal/PBCH Block
  • the initial BWP includes an activated BWP, a default BWP, or other types of BWP, which are not limited in the embodiments of this application.
  • the downlink positioning signal if the downlink positioning signal is located within the initial BWP, the time required for BWP switching does not need to be considered. If the downlink positioning signal is located outside the initial BWP, the time required for BWP switching needs to be considered. Therefore, for the above-mentioned third In the extended frequency domain, when the downlink positioning signal is within the initial BWP or outside the initial BWP, X and Y can have different values.
  • the first extended time domain in the case where the downlink positioning signal is located outside the initial BWP, includes a second time domain position, a first number of symbols or time slots located before the second time domain position, a first number of symbols or time slots located before the second time domain position, and a second time domain position.
  • the first extended time domain includes the second time domain position.
  • the first quantity and the second quantity may be the same, or may be different.
  • the third quantity and the fourth quantity may be the same or different.
  • the first quantity, the second quantity, the third quantity and the fourth quantity may also be the same or different.
  • the first extended time domain includes the second time domain position, 5 symbols before the second time domain position, and 6 symbols after the second time domain position
  • the first extended time domain includes the second time domain position, 4 symbols located before the second time domain position, and 4 symbols located after the second time domain position.
  • the terminal determines whether to receive the downlink positioning signal based on the conflict judgment rule, so as to ensure the reception of data when the downlink positioning signal conflicts with other downlink transmissions other than the downlink positioning signal, and improve the connection between the terminal and the downlink positioning signal.
  • the above embodiment describes the conflict determination rules for other downlink transmissions, and for other downlink transmissions, other downlink transmissions include downlink transmissions corresponding to the serving cell.
  • other downlink transmissions include downlink channels and/or downlink signals corresponding to the serving cell.
  • the downlink channel and/or downlink signal corresponding to the serving cell includes the following situations:
  • the downlink channel and/or downlink signal corresponding to the serving cell includes at least one of the following:
  • CSI-RS Channel State Information Reference Signal
  • TRS Tracking Reference Signal, tracking reference signal
  • PDCCH Physical Downlink Control Channel
  • CSS Common Search Space
  • the PDCCH includes a PDCCH corresponding to at least one of SIB, paging, RA (Random Access), and PEI (Paging Early Indication).
  • the priority of the downlink positioning signal is lower than the priority of other downlink transmissions. That is to say, the priority of the downlink positioning signal is lower than the priority of the downlink channel and/or downlink signal corresponding to the serving cell.
  • the terminal obtains the first time domain position of the downlink positioning signal and the downlink channel corresponding to the serving cell and/or the second time domain position of the downlink signal, and the priority of the downlink positioning signal is lower than that of the serving cell.
  • the downlink channel and/or the priority of the downlink signal Therefore, for the terminal, the terminal needs to determine whether to receive the downlink positioning signal based on the first time domain position, the second time domain position and the conflict judgment rule. Among them, the terminal determines whether to receive the downlink positioning signal, including at least one of the following situations:
  • the first method when there are overlapping symbols between the first time domain position and the second time domain position, determine that the downlink positioning signal conflicts with the downlink channel and/or downlink signal corresponding to the serving cell, and receive the downlink channel and/or the corresponding downlink signal of the serving cell. or downward signal.
  • the terminal if there are overlapping symbols between the first time domain position and the second time domain position, it means that the downlink positioning signal and the downlink channel and/or downlink signal corresponding to the serving cell share a time domain position, so the terminal cannot At the same time, the downlink positioning signal and the downlink channel and/or downlink signal corresponding to the serving cell are received, and since the priority of the downlink positioning signal is lower than the priority of the downlink channel and/or downlink signal corresponding to the serving cell, the terminal receives the downlink positioning signal corresponding to the serving cell. Downlink channel and/or downlink signal.
  • the embodiment of the present application takes as an example that there are overlapping symbols between the first time domain position and the second time domain position. In another embodiment, if there is no overlapping symbol between the first time domain position and the second time domain position, and it is determined that the downlink positioning signal does not conflict with the downlink channel and/or downlink signal corresponding to the serving cell, the terminal can Receive downlink positioning signals and downlink channels and/or downlink signals corresponding to the serving cell.
  • the second type when there are overlapping symbols between the first time domain position and the first extended time domain, determine that the downlink positioning signal conflicts with the downlink channel and/or downlink signal corresponding to the serving cell, and receive the downlink channel and/or corresponding to the serving cell. or downward signal.
  • the first extended time domain includes the second time domain position, X symbols or time slots located before the second time domain position, and Y symbols or time slots located after the second time domain position, where X and Y are not Negative integer.
  • X and Y are specified by the communication protocol, or X and Y are configured by the network device through SIB, or X and Y are configured in other ways, which are not limited by the embodiments of this application.
  • the first extended time domain is a time domain obtained by extending the second time domain position.
  • the second time domain position includes a first starting position and a first ending position.
  • the position of X symbols or time slots before the starting position is determined as the second starting position of the first extended time domain.
  • the position of Y symbols or time slots after the first end position is determined as the second end position of the first extended time domain, then the time domain between the second start position and the second end position is the first extended time domain .
  • the first extended time domain includes a second time domain position, X symbols located before the second time domain position, and Y symbols located after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain includes a second time domain position, X time slots located before the second time domain position, and Y time slots located after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain includes a second time domain position, X symbols located before the second time domain position, and Y time slots located after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain includes a second time domain position, X symbols before the second time domain position, and Y time slots after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain can be represented by a time window, which is not limited in the embodiments of this application.
  • the terminal if there are overlapping symbols between the first time domain position and the first extended time domain, it means that the downlink positioning signal and the downlink channel and/or downlink signal corresponding to the serving cell share a time domain position, so the terminal cannot At the same time, the downlink positioning signal and the downlink channel and/or downlink signal corresponding to the serving cell are received, and since the priority of the downlink positioning signal is lower than the priority of the downlink channel and/or downlink signal corresponding to the serving cell, the terminal receives the downlink positioning signal corresponding to the serving cell. Downlink channel and/or downlink signal.
  • the embodiment of the present application takes as an example that there are overlapping symbols between the first time domain position and the first extended time domain. In another embodiment, if there are overlapping symbols between the first time domain position and the first extended time domain, When there are no overlapping symbols in the domain, it is determined that the downlink positioning signal does not conflict with the downlink channel and/or downlink signal corresponding to the serving cell, and the terminal can receive the downlink positioning signal and the downlink channel and/or downlink signal corresponding to the serving cell.
  • the downlink positioning signal is located within the initial BWP, or the downlink positioning signal is located outside the initial BWP.
  • the initial BWP is a BWP configured by the network device for the terminal through system message broadcast, or the initial BWP is a BWP agreed between the network device and the terminal by agreement, or the initial BWP is the SSB corresponding to the terminal receiving the network device.
  • BWP, or the initial BWP can also be a BWP configured in other ways, which is not limited in the embodiment of this application.
  • the downlink positioning signal if the downlink positioning signal is located within the initial BWP, the time required for BWP switching does not need to be considered. If the downlink positioning signal is located outside the initial BWP, the time required for BWP switching needs to be considered. Therefore, for the above-mentioned third In the extended frequency domain, when the downlink positioning signal is within the initial BWP or outside the initial BWP, X and Y have different values.
  • the first extended time domain in the case where the downlink positioning signal is located outside the initial BWP, includes a second time domain position, a first number of symbols or time slots located before the second time domain position, a first number of symbols or time slots located before the second time domain position, and a second time domain position.
  • the first extended time domain includes the second time domain position.
  • the first quantity and the second quantity may be the same, or may be different.
  • the third quantity and the fourth quantity may be the same or different.
  • the first quantity, the second quantity, the third quantity and the fourth quantity may also be the same or different.
  • the terminal determines whether to receive the downlink positioning signal based on the conflict judgment rule, so that when the downlink positioning signal conflicts with the downlink channel and/or downlink signal corresponding to the serving cell other than the downlink positioning signal, This ensures the reception of data and improves the reliability of communication between the terminal and network equipment.
  • the above embodiment describes the conflict judgment rules for other downlink transmissions, and for other downlink transmissions, other downlink transmissions include downlink transmissions corresponding to neighboring cells.
  • other downlink transmissions include downlink signals and/or downlink signals corresponding to neighboring cells.
  • the downlink channel and/or downlink signal corresponding to the neighboring cell includes any of the following situations:
  • the downlink channel and/or downlink signal corresponding to the neighboring cell includes at least one of the following:
  • the PDCCH includes the PDCCH corresponding to the SIB.
  • the neighboring cells include at least one of an intra-frequency neighboring cell having the same frequency as the serving cell and an inter-frequency neighboring cell having a different frequency than the serving cell.
  • the neighboring cell includes any of the following situations:
  • Neighboring cells include co-frequency neighboring cells.
  • Neighboring cells include inter-frequency neighboring cells.
  • Neighboring cells include same-frequency neighboring cells and inter-frequency neighboring cells.
  • the downlink transmission of the neighboring cell corresponds to the second time domain position
  • the second time domain position is determined according to SMTC.
  • SMTC SSB-based Measurement Timing configuration, SSB-based measurement timing configuration
  • SSB-based measurement timing configuration is a periodic duration. That is to say, the downlink transmission of the neighboring cell corresponding to the second time domain position is periodic as indicated by SMTC.
  • the terminal needs to measure the SSB on the corresponding carrier frequency within the periodic duration.
  • the neighboring cells include same-frequency neighboring cells or inter-frequency neighboring cells, and when the neighboring cells include same-frequency neighboring cells, or the inter-frequency neighboring cells included in the neighboring cells are the first inter-frequency neighboring cells,
  • the priority of the downlink positioning signal is lower than the priority of other downlink transmissions, and other downlink transmissions include the downlink signals and/or downlink signals corresponding to neighboring cells. That is to say, the priority of the downlink positioning signal is lower than the downlink channels corresponding to neighboring cells and /or the priority of the downlink signal.
  • the neighboring cells include same-frequency neighboring cells or first inter-frequency neighboring cells.
  • the terminal obtains the first time domain position of the downlink positioning signal and the downlink channel corresponding to the same frequency neighboring cell and/or the second time domain position of the downlink signal, and the priority of the downlink positioning signal Lower than the priority of the downlink channel and/or downlink signal corresponding to the same-frequency neighboring cell. Therefore, for the terminal, the terminal needs to determine whether to receive downlink positioning based on the first time domain position, the second time domain position and the conflict judgment rule. Signal. Among them, the terminal determines whether to receive the downlink positioning signal, including at least one of the following situations:
  • the first method When there are overlapping symbols between the first time domain position and the second time domain position, determine that the downlink positioning signal conflicts with the downlink channel and/or downlink signal corresponding to the same-frequency neighboring cell, and receive the corresponding downlink signal of the same-frequency neighboring cell. Downlink channel and/or downlink signal.
  • the terminal cannot simultaneously receive the downlink positioning signal and the downlink channel and/or downlink signal corresponding to the same-frequency neighboring cell, and because the priority of the downlink positioning signal is lower than the priority of the downlink channel and/or downlink signal corresponding to the same-frequency neighboring cell, therefore The terminal receives the downlink channel and/or downlink signal corresponding to the same-frequency neighboring cell.
  • the embodiment of the present application takes as an example that there are overlapping symbols between the first time domain position and the second time domain position. In another embodiment, if there is no overlapping symbol between the first time domain position and the second time domain position, it is determined that the downlink positioning signal does not conflict with the downlink channel and/or downlink signal corresponding to the co-frequency neighboring cell, The terminal may receive downlink positioning signals and downlink channels and/or downlink signals corresponding to co-frequency neighboring cells.
  • the second type when there are overlapping symbols between the first time domain position and the first extended time domain, determine that the downlink positioning signal conflicts with the downlink channel and/or downlink signal corresponding to the same-frequency neighboring cell, and receive the corresponding downlink signal of the same-frequency neighboring cell. Downlink channel and/or downlink signal.
  • the first extended time domain includes the second time domain position, X symbols or time slots located before the second time domain position, and Y symbols or time slots located after the second time domain position, where X and Y are not Negative integer.
  • X and Y are specified by the communication protocol, or X and Y are configured by the network device through SIB, or X and Y are configured in other ways, which are not limited by the embodiments of this application.
  • the first extended time domain is a time domain obtained by extending the second time domain position.
  • the second time domain position includes a first starting position and a first ending position.
  • the position of X symbols or time slots before the starting position is determined as the second starting position of the first extended time domain.
  • the position of Y symbols or time slots after the first end position is determined as the second end position of the first extended time domain, then the time domain between the second start position and the second end position is the first extended time domain .
  • the first extended time domain includes a second time domain position, X symbols located before the second time domain position, and Y symbols located after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain includes a second time domain position, X time slots located before the second time domain position, and Y time slots located after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain includes a second time domain position, X symbols located before the second time domain position, and Y time slots located after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain includes a second time domain position, X symbols before the second time domain position, and Y time slots after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain can be represented by a time window, which is not limited in the embodiments of this application.
  • the terminal cannot simultaneously receive the downlink positioning signal and the downlink channel and/or downlink signal corresponding to the same-frequency neighboring cell, and because the priority of the downlink positioning signal is lower than the priority of the downlink channel and/or downlink signal corresponding to the same-frequency neighboring cell, therefore The terminal receives the downlink channel and/or downlink signal corresponding to the same-frequency neighboring cell.
  • the embodiment of the present application takes as an example that there are overlapping symbols between the first time domain position and the first extended time domain. In another embodiment, if there are overlapping symbols between the first time domain position and the first extended time domain, When there are no overlapping symbols in the domain, it is determined that the downlink positioning signal does not conflict with the downlink channel and/or downlink signal corresponding to the same-frequency neighboring cell.
  • the terminal can receive the downlink positioning signal and the downlink channel and/or downlink signal corresponding to the same-frequency neighboring cell. .
  • the downlink positioning signal is located within the initial BWP, or the downlink positioning signal is located outside the initial BWP.
  • the initial BWP is a BWP configured by the network device for the terminal through system message broadcast, or the initial BWP is a BWP agreed between the network device and the terminal by agreement, or the initial BWP is the SSB corresponding to the terminal receiving the network device.
  • BWP, or the initial BWP can also be a BWP configured in other ways, which is not limited in the embodiment of this application.
  • the downlink positioning signal if the downlink positioning signal is located within the initial BWP, the time required for BWP switching does not need to be considered. If the downlink positioning signal is located outside the initial BWP, the time required for BWP switching needs to be considered. Therefore, for the above-mentioned third In the extended frequency domain, when the downlink positioning signal is within the initial BWP or outside the initial BWP, X and Y can have different values.
  • the first extended time domain includes a second time domain position, a first number of symbols or time slots located before the second time domain position, a first number of symbols or time slots located before the second time domain position, and a second time domain position.
  • the second number of symbols or time slots after the time domain position X is the first number
  • Y is the second number, where the first number and the second number are non-negative integers
  • the first extended time domain includes a second time domain position, a third number of symbols or time slots located before the second time domain position, and a fourth number of symbols or time slots located after the second time domain position
  • X is the Three quantities
  • Y is the fourth quantity, where the third quantity and the fourth quantity are non-negative integers; among them, the first quantity is not less than the third quantity, and the second quantity is not less than the fourth quantity.
  • the first quantity and the second quantity may be the same, or may be different.
  • the third quantity and the fourth quantity may be the same or different.
  • the first quantity, the second quantity, the third quantity and the fourth quantity may also be the same or different.
  • the terminal determines whether to receive the downlink positioning signal based on the conflict judgment rule, so as to facilitate the situation where the downlink positioning signal conflicts with the downlink channel and/or downlink signal corresponding to the same-frequency neighboring cell except the downlink positioning signal. This ensures the reception of data and improves the reliability of communication between the terminal and network equipment.
  • the priority of the frequency corresponding to the first inter-frequency neighboring cell is higher than the priority of the frequency corresponding to the serving cell.
  • the terminal since the priority of the frequency corresponding to the first inter-frequency neighboring cell is higher than the priority of the frequency corresponding to the serving cell, the terminal will preferentially select the first inter-frequency neighboring cell, and the terminal will select the first inter-frequency neighboring cell. Take measurements.
  • the signal quality of the first inter-frequency neighboring cell measured by the terminal is higher than the signal quality of the serving cell, it means that the communication quality of the terminal through the first inter-frequency neighboring cell is higher than that of the serving cell, and the terminal can reselect to the third inter-frequency neighboring cell.
  • An inter-frequency neighboring cell An inter-frequency neighboring cell.
  • the terminal obtains the first time domain position of the downlink positioning signal and the downlink channel corresponding to the first inter-frequency neighboring cell and/or the second time domain position of the downlink signal, and the priority of the downlink positioning signal is low.
  • the priority of the downlink channel and/or downlink signal corresponding to the first inter-frequency neighboring cell Therefore, for the terminal, the terminal needs to determine whether to receive the downlink based on the first time domain position, the second time domain position and the conflict judgment rule.
  • Positioning signal the terminal determines whether to receive the downlink positioning signal, including at least one of the following situations:
  • the first method when there are overlapping symbols between the first time domain position and the second time domain position, determine that the downlink positioning signal conflicts with the downlink channel and/or downlink signal corresponding to the first inter-frequency neighboring cell, and receive the first inter-frequency The downlink channel and/or downlink signal corresponding to the neighboring cell.
  • the terminal cannot simultaneously receive the downlink positioning signal and the downlink channel and/or downlink signal corresponding to the first inter-frequency neighboring cell, and because the priority of the downlink positioning signal is lower than the downlink channel and/or downlink signal corresponding to the first inter-frequency neighboring cell The priority of the signal, so the terminal receives the downlink channel and/or downlink signal corresponding to the first inter-frequency neighboring cell.
  • the embodiment of the present application takes as an example that there are overlapping symbols between the first time domain position and the second time domain position. In another embodiment, if there is no overlapping symbol between the first time domain position and the second time domain position, it is determined that the downlink positioning signal does not correspond to the downlink channel and/or downlink signal of the first inter-frequency neighboring cell. In case of conflict, the terminal may receive the downlink positioning signal and the downlink channel and/or downlink signal corresponding to the first inter-frequency neighboring cell.
  • the second type when there are overlapping symbols between the first time domain position and the first extended time domain, determine that the downlink positioning signal conflicts with the downlink channel and/or downlink signal corresponding to the first inter-frequency neighboring cell, and receive the first inter-frequency The downlink channel and/or downlink signal corresponding to the neighboring cell.
  • the first extended time domain includes the second time domain position, X symbols or time slots located before the second time domain position, and Y symbols or time slots located after the second time domain position, where X and Y are not Negative integer.
  • X and Y are specified by the communication protocol, or X and Y are configured by the network device through SIB, or X and Y are configured in other ways, which are not limited by the embodiments of this application.
  • the first extended time domain is a time domain obtained by extending the second time domain position.
  • the second time domain position includes a first starting position and a first ending position.
  • the position of X symbols or time slots before the starting position is determined as the second starting position of the first extended time domain.
  • the position of Y symbols or time slots after the first end position is determined as the second end position of the first extended time domain, then the time domain between the second start position and the second end position is the first extended time domain .
  • the first extended time domain includes a second time domain position, X symbols located before the second time domain position, and Y symbols located after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain includes a second time domain position, X time slots located before the second time domain position, and Y time slots located after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain includes a second time domain position, X symbols located before the second time domain position, and Y time slots located after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain includes a second time domain position, X symbols before the second time domain position, and Y time slots after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain can be represented by a time window, which is not limited in the embodiments of this application.
  • the terminal cannot simultaneously receive the downlink positioning signal and the downlink channel and/or downlink signal corresponding to the first inter-frequency neighboring cell, and because the priority of the downlink positioning signal is lower than the downlink channel and/or downlink signal corresponding to the first inter-frequency neighboring cell The priority of the signal, so the terminal receives the downlink channel and/or downlink signal corresponding to the first inter-frequency neighboring cell.
  • the embodiment of the present application takes as an example that there are overlapping symbols between the first time domain position and the first extended time domain.
  • the terminal can receive the downlink positioning signal and the downlink channel corresponding to the first inter-frequency neighboring cell and /or downward signal.
  • the downlink positioning signal is located within the initial BWP, or the downlink positioning signal is located outside the initial BWP.
  • the initial BWP is a BWP configured by the network device for the terminal through system message broadcast, or the initial BWP is a BWP agreed between the network device and the terminal by agreement, or the initial BWP is the SSB corresponding to the terminal receiving the network device.
  • BWP, or the initial BWP can also be a BWP configured in other ways, which is not limited in the embodiment of this application.
  • the downlink positioning signal if the downlink positioning signal is located within the initial BWP, the time required for BWP switching does not need to be considered. If the downlink positioning signal is located outside the initial BWP, the time required for BWP switching needs to be considered. Therefore, for the above-mentioned third In the extended frequency domain, when the downlink positioning signal is within the initial BWP or outside the initial BWP, X and Y can have different values.
  • the first extended time domain in the case where the downlink positioning signal is located outside the initial BWP, includes a second time domain position, a first number of symbols or time slots located before the second time domain position, a first number of symbols or time slots located before the second time domain position, and a second time domain position.
  • the first extended time domain includes the second time domain position.
  • the first quantity and the second quantity may be the same, or may be different.
  • the third quantity and the fourth quantity may be the same or different.
  • the first quantity, the second quantity, the third quantity and the fourth quantity may also be the same, or they may be different.
  • the terminal determines whether to receive the downlink positioning signal based on the conflict judgment rule, so that the downlink positioning signal conflicts with the downlink channel and/or downlink signal corresponding to the first inter-frequency neighboring cell other than the downlink positioning signal. In this case, the reception of data is guaranteed and the reliability of communication between the terminal and the network device is improved.
  • the inter-frequency neighboring cells included in the neighboring cells include the first inter-frequency neighboring cell, and the priority of the frequency corresponding to the first inter-frequency neighboring cell is higher than the priority of the frequency corresponding to the serving cell.
  • the inter-frequency neighboring cell also includes a second inter-frequency neighboring cell.
  • the priority of the downlink positioning signal is higher than the priority of other downlink transmissions of the second inter-frequency neighboring cell, and the priority of the downlink positioning signal is higher than that of the second inter-frequency neighboring cell. 2.
  • the priority of the frequency corresponding to the inter-frequency neighbor cell is lower than the priority of the frequency corresponding to the serving cell.
  • the second inter-frequency neighboring cell is measured.
  • the preset threshold is configured by the network device, or agreed by the communication protocol, or set in other ways, which is not limited by the embodiments of this application.
  • the terminal needs to measure the signal strength of the second inter-frequency neighboring cell so that the terminal can Find neighboring cells whose signal strength meets the requirements, and then reselect the neighboring cells whose signal strength meets the requirements.
  • the embodiment of the present application takes as an example that the signal strength of the serving cell is not greater than the preset threshold. In another embodiment, when the signal strength of the serving cell is greater than the preset threshold, the terminal does not perform measurements on the second inter-frequency neighboring cell.
  • the terminal can communicate based on the serving cell at this time, without Measure the second inter-frequency neighboring cell.
  • the terminal obtains the first time domain position of the downlink positioning signal and the downlink channel corresponding to the second inter-frequency neighboring cell and/or the second time domain position of the downlink signal, and the priority of the downlink positioning signal is high.
  • the priority of the downlink channel and/or downlink signal corresponding to the second inter-frequency neighbor cell Therefore, for the terminal, the terminal needs to determine whether to receive the downlink based on the first time domain position, the second time domain position and the conflict judgment rule.
  • Positioning signal the terminal determines whether to receive the downlink positioning signal, including at least one of the following situations:
  • the first method when there are overlapping symbols between the first time domain position and the second time domain position, determine that the downlink positioning signal conflicts with the downlink channel and/or downlink signal corresponding to the second inter-frequency neighboring cell, and receive the downlink positioning signal.
  • the terminal if there are overlapping symbols between the first time domain position and the second time domain position, it means that the downlink positioning signal and the downlink channel and/or downlink signal corresponding to the second inter-frequency neighboring cell have a common time domain position. , so the terminal cannot simultaneously receive the downlink positioning signal and the downlink channel and/or downlink signal corresponding to the second inter-frequency neighboring cell, and because the priority of the downlink positioning signal is higher than the downlink channel and/or downlink signal corresponding to the second inter-frequency neighboring cell The priority of the signal, so the terminal receives the downlink positioning signal.
  • the embodiment of the present application takes as an example that there are overlapping symbols between the first time domain position and the second time domain position. In another embodiment, if there is no overlapping symbol between the first time domain position and the second time domain position, it is determined that the downlink positioning signal does not correspond to the downlink channel and/or the downlink signal of the second inter-frequency neighboring cell. In case of conflict, the terminal may receive the downlink positioning signal and the downlink channel and/or downlink signal corresponding to the second inter-frequency neighboring cell.
  • the second method when there are overlapping symbols between the first time domain position and the first extended time domain, determine that the downlink positioning signal conflicts with the downlink channel and/or downlink signal corresponding to the second inter-frequency neighboring cell, and receive the downlink positioning signal.
  • the first extended time domain includes the second time domain position, X symbols or time slots located before the second time domain position, and Y symbols or time slots located after the second time domain position, where X and Y are not Negative integer.
  • X and Y are specified by the communication protocol, or X and Y are configured by the network device through SIB, or X and Y are configured in other ways, which are not limited by the embodiments of this application.
  • the first extended time domain is a time domain obtained by extending the second time domain position.
  • the second time domain position includes a first starting position and a first ending position.
  • the position of X symbols or time slots before the starting position is determined as the second starting position of the first extended time domain.
  • the position of Y symbols or time slots after the first end position is determined as the second end position of the first extended time domain, then the time domain between the second start position and the second end position is the first extended time domain .
  • the first extended time domain includes a second time domain position, X symbols located before the second time domain position, and Y symbols located after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain includes a second time domain position, X time slots located before the second time domain position, and Y time slots located after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain includes a second time domain position, X symbols located before the second time domain position, and Y time slots located after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain includes a second time domain position, X symbols located before the second time domain position, and Y time slots located after the second time domain position, where X and Y are non-negative integers.
  • the first extended time domain can be represented by a time window, which is not limited in the embodiments of this application.
  • the terminal if there are overlapping symbols between the first time domain position and the first extended time domain, it means that the downlink positioning signal and the downlink channel and/or downlink signal corresponding to the second inter-frequency neighboring cell have a common time domain position. , so the terminal cannot simultaneously receive the downlink positioning signal and the downlink channel and/or downlink signal corresponding to the second inter-frequency neighboring cell, and because the priority of the downlink positioning signal is higher than the downlink channel and/or downlink signal corresponding to the second inter-frequency neighboring cell The priority of the signal, so the terminal receives the downlink positioning signal.
  • the embodiment of the present application takes as an example that there are overlapping symbols between the first time domain position and the first extended time domain.
  • the terminal can receive the downlink positioning signal and the downlink channel corresponding to the second inter-frequency neighboring cell and /or downward signal.
  • the downlink positioning signal is located within the initial BWP, or the downlink positioning signal is located outside the initial BWP.
  • the initial BWP is a BWP configured by the network device for the terminal through system message broadcast, or the initial BWP is a BWP agreed between the network device and the terminal by agreement, or the initial BWP is the SSB corresponding to the terminal receiving the network device.
  • BWP, or the initial BWP can also be a BWP configured in other ways, which is not limited in the embodiment of this application.
  • the downlink positioning signal if the downlink positioning signal is located within the initial BWP, the time required for BWP switching does not need to be considered. If the downlink positioning signal is located outside the initial BWP, the time required for BWP switching needs to be considered. Therefore, for the above-mentioned third In the extended frequency domain, when the downlink positioning signal is within the initial BWP or outside the initial BWP, X and Y can have different values.
  • the first extended time domain in the case where the downlink positioning signal is located outside the initial BWP, includes a second time domain position, a first number of symbols or time slots located before the second time domain position, a first number of symbols or time slots located before the second time domain position, and a second time domain position.
  • the first extended time domain includes the second time domain position.
  • the first quantity and the second quantity may be the same, or may be different.
  • the third quantity and the fourth quantity may be the same or different.
  • the first quantity, the second quantity, the third quantity and the fourth quantity may also be the same or different.
  • the terminal determines whether to receive the downlink positioning signal based on the conflict judgment rule, so that the downlink positioning signal conflicts with the downlink channel and/or downlink signal corresponding to the second inter-frequency neighboring cell other than the downlink positioning signal. In this case, the reception of data is guaranteed and the reliability of communication between the terminal and the network device is improved.
  • the priority of the downlink positioning signal involved in this application is lower than the priority of other downlink transmissions, and for the other downlink transmissions, other downlink transmissions include multiple types of transmissions.
  • other downlink transmissions include at least one of the following:
  • other downlink transmissions include other downlink transmissions transmitted by the serving cell, or other downlink transmissions include other downlink transmissions transmitted by the serving cell and other downlink transmissions transmitted by co-frequency neighboring cells.
  • other downlink transmissions include other downlink transmissions transmitted by same-frequency neighboring cells and other downlink transmissions transmitted by the first inter-frequency neighboring cells.
  • other downlink transmissions include other downlink transmissions transmitted by the serving cell and other downlink transmissions transmitted by the first inter-frequency neighboring cell.
  • other downlink transmissions include other downlink transmissions transmitted by the serving cell, other downlink transmissions transmitted by the same-frequency neighboring cells, and other downlink transmissions transmitted by the first inter-frequency neighboring cells.
  • the other downlink transmissions include other downlink transmissions of the second inter-frequency neighbor cell transmission.
  • the terminal can determine whether to receive the downlink positioning signal according to the conflict judgment rule.
  • the method also includes:
  • Step 601 The terminal receives the downlink positioning signal sent by the network device and generates a positioning report based on the downlink positioning signal.
  • the terminal determines that it can receive the downlink positioning signal based on the conflict judgment rules, it can receive the downlink positioning signal, and then generate a positioning report based on the received downlink positioning signal.
  • the positioning report includes at least one of the following:
  • Step 602 The terminal sends a positioning report to the network device.
  • Step 603 The network device receives the positioning report sent by the terminal.
  • the terminal sends a positioning report to the network device, and the network device receives the positioning report sent by the terminal, and then positions the terminal according to the received positioning report to determine the location of the terminal.
  • the network device includes a Location Management Function (LMF).
  • LMF Location Management Function
  • the terminal sends a location report to the LMF.
  • the LMF receives the location report sent by the terminal, and then locates the terminal based on the location report to determine the location of the terminal.
  • the steps performed by the terminal can form an embodiment alone, and the steps performed by the network device can also form an embodiment alone, which are not limited by the embodiment of the present application.
  • the terminal when the terminal determines to receive the downlink positioning signal, it generates a positioning report based on the downlink positioning signal, and sends the positioning report to the network device, so that the network device can position the terminal based on the received positioning report.
  • the stability of terminal positioning is improved.
  • Figure 7 shows a block diagram of a signal receiving device provided by an exemplary embodiment of the present application.
  • the device includes:
  • Position determination module 701 used to determine the first time domain position of the downlink positioning signal and the second time domain position of other downlink transmissions except the downlink positioning signal;
  • the rule determination module 702 is used to determine whether to receive a downlink positioning signal based on the first time domain position, the second time domain position, and the conflict judgment rule.
  • the rule determination module 702 is also configured to respond to determining that the downlink positioning signal conflicts with other downlink transmissions based on the conflict judgment rule, and receive the downlink positioning signal when the priority of the downlink positioning signal is higher than other downlink transmissions;
  • the downlink positioning signal is not received.
  • conflict judgment rules include:
  • the downlink positioning signal When there are overlapping symbols between the first time domain position and the second time domain position, it is determined that the downlink positioning signal conflicts with other downlink transmissions.
  • conflict determination rules include:
  • the first extended time domain includes the second time domain position, X symbols or time slots located before the second time domain position, and Y symbols or time slots located after the second time domain position, where X and Y are not Negative integer.
  • the downlink positioning signal is located within the initial BWP, or the downlink positioning signal is located outside the initial BWP.
  • the first extended time domain includes a second time domain position, a first number of symbols or time slots located before the second time domain position, a first number of symbols or time slots located before the second time domain position, and a second time domain position.
  • the first extended time domain includes a second time domain position, a third number of symbols or time slots located before the second time domain position, and a third number of symbols or time slots located after the second time domain position.
  • the first quantity is not less than the third quantity
  • the second quantity is not less than the fourth quantity
  • other downlink transmissions include downlink channels and/or downlink signals corresponding to the serving cell.
  • the downlink channel and/or downlink signal corresponding to the serving cell includes at least one of the following:
  • other downlink transmissions include downlink channels and/or downlink signals corresponding to neighboring cells.
  • the downlink channel and/or downlink signal corresponding to the neighboring cell includes at least one of the following:
  • the neighboring cells include at least one of an intra-frequency neighboring cell having the same frequency as the serving cell and an inter-frequency neighboring cell having a different frequency than the serving cell.
  • the second time domain position of the neighboring cell's downlink transmission is determined according to SMTC.
  • the inter-frequency neighboring cell includes a first inter-frequency neighboring cell, and the priority of the frequency corresponding to the first inter-frequency neighboring cell is higher than the priority of the frequency corresponding to the serving cell.
  • the device further includes:
  • the measurement module 703 is used to measure the first inter-frequency neighboring cell.
  • the inter-frequency neighboring cell includes a second inter-frequency neighboring cell, where the priority of the frequency corresponding to the second inter-frequency neighboring cell is lower than the priority of the frequency corresponding to the serving cell.
  • the device further includes:
  • the measurement module 703 is configured to measure the second inter-frequency neighboring cell when the signal strength of the serving cell is not greater than a preset threshold.
  • the priority of the downlink positioning signal is lower than the priority of other downlink transmissions, and the other downlink transmissions include at least one of the following:
  • the priority of the downlink positioning signal is higher than the priority of other downlink transmissions, including other downlink transmissions transmitted by the second inter-frequency neighboring cell.
  • the terminal is in RRC idle state.
  • Figure 9 shows a schematic structural diagram of a communication device provided by an exemplary embodiment of the present application.
  • the communication device includes: a processor 901, a receiver 902, a transmitter 903, a memory 904 and a bus 905.
  • the processor 901 includes one or more processing cores.
  • the processor 901 executes various functional applications and information processing by running software programs and modules.
  • the receiver 902 and the transmitter 903 can be implemented as a communication component, and the communication component can be a communication chip.
  • the memory 904 is connected to the processor 901 through a bus 905.
  • the memory 904 can be used to store at least one program code, and the processor 901 is used to execute the at least one program code to implement each step in the above method embodiment.
  • Memory 1004 may be implemented by any type of volatile or non-volatile storage device, or combination thereof, including but not limited to: magnetic or optical disks, electrically erasable programmable read-only Memory (EEPROM), Erasable Programmable Read-Only Memory (EPROM), Static Read-Only Memory (SRAM), Read-Only Memory (ROM), Magnetic Memory, Flash Memory, Programmable Read-Only Memory (PROM).
  • EEPROM electrically erasable programmable read-only Memory
  • EPROM Erasable Programmable Read-Only Memory
  • SRAM Static Read-Only Memory
  • ROM Read-Only Memory
  • Magnetic Memory Flash Memory
  • PROM Programmable Read-Only Memory
  • a computer-readable storage medium is also provided, with executable program code stored in the readable storage medium, and the executable program code is loaded and executed by the processor to implement each of the above methods.
  • the example provides a signal receiving method performed by a communication device.
  • a chip is provided.
  • the chip includes programmable logic circuits and/or program instructions. When the chip is run on a terminal, it is used to implement the signal receiving method as provided in various method embodiments. .
  • a computer program product is provided, and when the computer program product is executed by a processor of a terminal, it is used to implement the signal receiving method provided by each of the above method embodiments.

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Abstract

本申请公开了一种信号接收方法、装置、设备及存储介质,涉及移动通信领域。该方法包括:终端确定下行定位信号的第一时域位置以及除下行定位信号以外的其他下行传输的第二时域位置;根据第一时域位置和第二时域位置,以及冲突判断规则,确定是否接收下行定位信号。终端根据下行定位信号的第一时域位置和除下行定位信号以外的其他下行传输的第二时域位置,以及冲突判断规则,确定是否接收下行定位信号,提供了一种终端如何接收下行定位信号以及其他下行传输的方式,保证终端与网络设备之间进行数据传输的可靠性。

Description

信号接收方法、装置、设备及存储介质 技术领域
本申请涉及移动通信领域,特别涉及一种信号接收方法、装置、设备及存储介质。
背景技术
在移动通信系统中,网络设备可以通过向终端发送下行定位信号以对终端进行定位,但是,网络设备还可能向终端发送除下行定位信号以外的其他下行传输,对于终端来说,如何接收网络设备发送的下行定位信号以及其他下行传输成为亟需解决的问题。
发明内容
本申请实施例提供了一种信号接收方法、装置、设备及存储介质,提供了一种终端如何接收下行定位信号以及其他下行传输的方式,保证终端与网络设备之间进行数据传输的可靠性。所述技术方案如下:
根据本申请的一个方面,提供了一种信号接收方法,所述方法由终端执行,所述方法包括:
确定下行定位信号的第一时域位置以及除所述下行定位信号以外的其他下行传输的第二时域位置;
根据所述第一时域位置和所述第二时域位置,以及冲突判断规则,确定是否接收所述下行定位信号。
根据本申请的一个方面,提供了一种信号接收装置,所述装置包括:
位置确定模块,用于确定下行定位信号的第一时域位置以及除所述下行定位信号以外的其他下行传输的第二时域位置;
规则确定模块,用于根据所述第一时域位置和所述第二时域位置,以及冲突判断规则确定是否接收所述下行定位信号。
根据本申请的一个方面,提供了一种终端,终端包括:处理器;与处理器相连的收发器;用于存储处理器的可执行指令的存储器;其中,处理器被配置 为加载并执行可执行指令以实现如上述方面的信号接收方法。
根据本申请的一个方面,提供了一种计算机可读存储介质,可读存储介质中存储有可执行程序代码,可执行程序代码由处理器加载并执行以实现如上述方面的信号接收方法。
根据本申请的一个方面,提供了一种芯片,芯片包括可编程逻辑电路和/或程序指令,当芯片在终端上运行时,用于实现如上述方面的信号接收方法。
根据本申请的一个方面,提供了一种计算机程序产品,当计算机程序产品被终端的处理器执行时,其用于实现上述方面的信号接收方法。
本申请实施例提供的信号接收方案中,终端根据下行定位信号的第一时域位置和除下行定位信号以外的其他下行传输的第二时域位置,以及冲突判断规则,确定是否接收下行定位信号,提供了一种终端如何接收下行定位信号以及其他下行传输的方式,保证终端与网络设备之间进行数据传输的可靠性。
附图说明
为了更清楚地说明本申请实施例中的技术方案,下面将对实施例描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本申请的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1示出了本申请一个示例性实施例提供的通信系统的框图;
图2示出了本申请一个示例性实施例提供的信号接收方法的流程图;
图3示出了本申请一个示例性实施例提供的时域位置重叠的示意图;
图4示出了本申请一个示例性实施例提供的时域位置不重叠的示意图;
图5示出了本申请一个示例性实施例提供的第一扩展时域的示意图;
图6示出了本申请一个示例性实施例提供的一种定位报告传输方法的流程图;
图7示出了本申请一个示例性实施例提供的一种信号接收装置的框图;
图8示出了本申请一个示例性实施例提供的另一种信号接收装置的框图;
图9示出了本申请一个示例性实施例提供的通信设备的结构示意图。
具体实施方式
为使本申请的目的、技术方案和优点更加清楚,下面将结合附图对本申请 实施方式作进一步地详细描述。
这里将详细地对示例性实施例进行说明,其示例表示在附图中。下面的描述涉及附图时除非另有表示,不同附图中的相同数字表示相同或相似的要素。以下示例性实施例中所描述的实施方式并不代表与本申请相一致的所有实施方式。相反,它们仅是与如所附权利要求书中所详述的、本申请的一些方面相一致的装置和方法的例子。
在本申请使用的术语是仅仅出于描述特定实施例的目的,而非旨在限制本申请。在本申请和所附权利要求书中所使用的单数形式的“一种”、“所述”和“该”也是旨在包括多数形式,除非上下文清楚地表示其它含义。还应当理解,本文中使用的术语“和/或”是指并包含一个或多个相关联的列出项目的任何或所有可能组合。
应当理解,尽管在本申请可能采用术语第一、第二、第三等来描述各种信息,但这些信息不应限于这些术语。这些术语仅用来将同一类型的信息彼此区分开。例如,在不脱离本申请范围的情况下,第一信息也可以被称为第二信息,类似地,第二信息也可以被称为第一信息。取决于语境,例如,在此所使用的词语“如果”可以被解释成为“在……时”或“当……时”或“响应于确定”。
需要说明的是,本申请所涉及的信息(包括但不限于用户设备信息、用户个人信息等)、数据(包括但不限于用于分析的数据、存储的数据、展示的数据等)以及信号,均为经用户授权或者经过各方充分授权的,且相关数据的收集、使用和处理需要遵守相关国家和地区的相关法律法规和标准。
下面,对本申请的应用场景进行说明:
图1示出了本申请一个示例性实施例提供的通信系统的框图,该通信系统可以包括:终端10和网络设备20。
终端10的数量通常为多个,每一个网络设备20所管理的小区内可以分布一个或多个终端10。终端10可以包括各种具有无线通信功能的手持设备、车载设备、可穿戴设备、计算设备或连接到无线调制解调器的其它处理设备,以及各种形式的用户设备(User Equipment,UE)、移动台(Mobile Station,MS)等等。为方便描述,本申请实施例中,上面提到的设备统称为终端。
接入网设备20是一种部署在接入网中用以为终端10提供无线通信功能的装置。为方便描述,本申请实施例中,上述为终端10提供无线通信功能的装置统称为网络设备。网络设备20与终端10之间可以通过空口建立连接,从而通 过该连接进行通信,包括信令和数据的交互。网络设备20的数量可以有多个,两个邻近的网络设备20之间也可以通过有线或者无线的方式进行通信。终端10可以在不同的网络设备20之间进行切换,也即与不同的网络设备20建立连接。
该接入网设备20可以包括各种形式的宏基站,微基站,中继站,接入点,发送接收点(Transmission Reception Point,TRP)等等。在采用不同的无线接入技术的系统中,具备网络设备功能的设备的名称可能会有所不同,例如在5G NR(New Radio,新的无线技术)系统中,称为gNodeB或者gNB。随着通信技术的演进,“网络设备”这一名称可能会变化。
核心网设备30是部署在核心网中的设备,核心网设备的功能主要是提供用户连接、对用户的管理以及对业务完成承载,作为承载网络提供到外部网络的接口。例如,5G NR系统中的核心网设备可以包括接入和移动性管理功能(Access and Mobility Management Function,AMF)网元、用户平面功能(User Plane Function,UPF)网元和会话管理功能(Session Management Function,SMF)网元等。示例性的,本申请实施例中的核心网设备30可以包括位置管理功能网元。可选地,位置管理功能网元包括位置服务器(location server),位置服务器可以实现为以下任意一项:LMF(Location Management Function,位置管理网元)、E-SMLC(Enhanced Serving Mobile Location Centre,增强服务的流动定位中心)、SUPL(Secure User Plane Location,安全用户平面定位)、SUPL SLP(SUPL Location Platform,安全用户平面定位定位平台)。
网络设备包含核心网设备和接入网设备的至少一项。
图2示出了本申请一个示例性实施例提供的信号接收方法的流程图,示例性的可以应用于如图1所示的终端中,该方法包括以下内容中的至少部分内容:
步骤201:终端确定下行定位信号的第一时域位置以及除下行定位信号以外的其他下行传输的第二时域位置。
在本申请实施例中,网络设备不仅可以向终端发送下行定位信号,而且还会向终端发送除下行定位信号以外的其他下行传输。网络设备需要为终端配置用于传输下行定位信号的第一时域位置,而且还会为终端配置用于传输其他下行传输的第二时域位置。而对于终端来说,终端可以确定下行定位信号的第一时域位置以及除下行定位信号以外的其他下行传输的第二时域位置。
步骤202:终端根据第一时域位置和第二时域位置,以及冲突判断规则,确 定是否接收下行定位信号。
其中,该冲突判断规则包括第一时域位置和第二时域位置存在冲突和不存在冲突两种情况,该冲突判断规则用于终端确定在第一时域位置和第二时域位置是否存在冲突。
在一些实施例中,在终端处于RRC(Radio Resource Control,无线资源控制)idle(空闲态)的情况下,终端执行步骤201-202,以根据冲突判断规则确定是否接收下行定位信号。
在本申请实施例中,终端确定的下行定位信号的第一时域位置和其他下行传输的第二时域位置,而第一时域位置和第二时域位置之间的关系包括存在冲突和不存在冲突两种情况,终端需要根据冲突判断规则,确定下行定位信号与其他下行传输是否冲突。
需要说明的是,网络设备所执行的步骤可以单独形成一个实施例,终端所执行的步骤也可以单独形成一个实施例,本申请对此不作限定。
本申请实施例提供方案中,终端根据下行定位信号的第一时域位置和除下行定位信号以外的其他下行传输的第二时域位置,以及冲突判断规则,确定是否接收下行定位信号,提供了一种终端如何接收下行定位信号以及其他下行传输的方式,保证终端与网络设备之间进行数据传输的可靠性。
在图2所示的实施例的基础上,终端基于冲突判断规则和下行定位信号的优先级来确定是否接收下行定位信号。
在一些实施例中,终端响应于基于冲突判断规则确定下行定位信号与其他下行传输冲突,且在下行定位信号的优先级高于其他下行传输时,接收下行定位信号。或,在下行定位信号的优先级低于其他下行传输的优先级,不接收下行定位信号。
其中,该冲突判断规则用于根据第一时域位置和第二时域位置判断下行定位信号与其他下行传输是否冲突,并且在确定下行定位信号与其他下行传输冲突时,若下行定位信号的优先级高于其他下行传输的优先级,则终端优先接收下行定位信号。若下行定位信号的优先级低于其他下行传输的优先级,则终端优先接收其它下行传输。
需要说明的是,本申请实施例是以下行定位信号与其他下行传输冲突时,终端优先接收下行定位信号或其它下行传输为例进行说明。在另一实施例中, 若下行定位信号与其他下行传输不冲突时,终端接收下行定位信号和其他下行传输。
在图2所示的实施例的基础上,对于该冲突判断规则来说,包括多种方式来确定下行定位信号与下行传输是否冲突,该冲突判断规则包括以下至少一种情况:
第一种:在第一时域位置与第二时域位置存在重叠符号的情况下,确定下行定位信号与其他下行传输冲突。
在本申请实施例中,若第一时域位置与第二时域位置存在重叠符号,则说明下行定位信号和其他下行传输存在共用的时域位置,因此终端无法同时接收下行定位信号和其他下行传输,确定下行定位信号的与其他下行传输冲突。
例如,如图3所示,位于图3中的前面位置的为第一时域位置,位于图3中的后面位置的为第二时域位置,并且第一时域位置和第二时域位置中的阴影部分为第一时域位置与第二时域位置的重复部分,说明第一时域位置与第二时域位置存在重叠符号。
需要说明的是,本申请实施例是以第一时域位置与第二时域位置存在重叠符号为例进行说明。而在另一实施例中,若在第一时域位置与第二时域位置不存在重叠符号的情况下,确定下行定位信号与其他下行传输不冲突。
例如,如图4所示,位于图4中的前面位置的为第一时域位置,位于图4中的后面位置的为第二时域位置,并且第一时域位置和第二时域位置之间不存在重叠部分,说明第一时域位置与第二时域位置互不影响,第一时域位置与第二时域位置不存在重叠符号。
第二种:在第一时域位置与第一扩展时域存在重叠符号的情况下,确定下行定位信号与其他下行传输冲突。
其中,第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号或时隙、位于第二时域位置之后的Y个符号或时隙,其中X、Y为非负整数。
可选地,X和Y由通信协议规定,或者,X和Y由网络设备通过SIB(System Iformation Block,系统信息块)配置,或者,X和Y采用其他方式配置,本申请实施例不作限定。
其中,该第一扩展时域是对第二时域位置进行扩展以后得到的时域。例如,该第二时域位置包括第一起始位置和第一终止位置,将位于该起始位置之前的X 个符号或时隙的位置确定为第一扩展时域的第二起始位置,将位于第一终止位置之后的Y个符号或时隙的位置确定为第一扩展时域的第二终止位置,则第二起始位置与第二终止位置之间的时域为第一扩展时域。
例如,如图5所示,该第二时域位置之前存在X个符号,该第二时域位置之后存在Y个符号,该X个符号、第二时域位置和Y个符号的组合即为第一扩展时域。
可选地,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号、位于第二时域位置之后的Y个符号,其中X、Y为非负整数。或者,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个时隙、位于第二时域位置之后的Y个时隙,其中X、Y为非负整数。或者,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号、位于第二时域位置之后的Y个时隙,其中X、Y为非负整数。又或者,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号、位于第二时域位置之后的Y个时隙,其中X、Y为非负整数。
可选地,该第一扩展时域可以采用timewindow(时间窗口)表示,本申请实施例不作限定。
在本申请实施例中,若第一时域位置与第一扩展时域存在重叠符号,则说明下行定位信号和其他下行传输存在共用的时域位置,因此终端无法同时接收下行定位信号和其他下行传输,确定下行定位信号和其他下行传输冲突。
需要说明的是,本申请实施例是以第一时域位置与第一扩展时域存在重叠符号为例进行说明,而在另一实施例中,若在第一时域位置与第一扩展时域不存在重叠符号的情况下,确定下行定位信号与其他下行传输不冲突。
在一些实施例中,下行定位信号位于初始BWP(Bandwidth Part,带宽部分)内,或者,下行定位信号位于初始BWP外。
其中,该初始BWP为网络设备通过系统消息广播的方式为终端配置的BWP,或者,该初始BWP为网络设备与终端由协议约定的BWP,或者,该初始BWP为终端接收网络设备发送的SSB(Synchronization Signal/PBCH Block,同步信号块)对应的BWP,或者,该初始BWP还可以为采用其他方式配置的BWP,本申请实施例不作限定。
可选地,初始BWP外包括激活BWP,或者,包括默认BWP,或者包括其他类型的BWP,本申请实施例不作限定。
在本申请实施例中,若下行定位信号位于初始BWP内,则无需考虑BWP切换所需要的时长,而若下行定位信号位于初始BWP外,则需要考虑BWP切换所需要的时长,因此对于上述第一扩展频域,下行定位信号位于初始BWP内或初始BWP外时,X和Y可以存在不同的取值。
在一些实施例中,在下行定位信号位于初始BWP外的情况下,第一扩展时域包括第二时域位置、位于第二时域位置之前的第一数量的符号或时隙、位于第二时域位置之后的第二数量的符号或时隙,其中第一数量、第二数量为非负整数,在下行定位信号位于初始BWP内的情况下,第一扩展时域包括第二时域位置、位于第二时域位置之前的第三数量的符号或时隙、位于第二时域位置之后的第四数量的符号或时隙,其中第三数量、第四数量为非负整数;其中,第一数量不小于第三数量,第二数量不小于第四数量。
可选地,第一数量和第二数量可以相同,或者也可以不同。第三数量和第四数量可以相同,或者也可以不同。另外,由于第一数量不小于第三数量,第二数量不小于第四数量,则第一数量、第二数量、第三数量和第四数量也可以相同,或者,也可以不同。
例如,在下行定位信号位于初始BWP外的情况下,第一扩展时域包括第二时域位置、位于第二时域位置之前的5个符号、位于第二时域位置之后的6个符号,在下行定位信号位于初始BWP内的情况下,第一扩展时域包括第二时域位置、位于第二时域位置之前的4个符号、位于第二时域位置之后的4个符号。
本申请实施例提供的方案中,终端基于冲突判断规则确定是否接收下行定位信号,以便于在下行定位信号和除下行定位信号以外的其他下行传输冲突的情况下,保证数据的接收,提高终端与网络设备之间进行通信的可靠性。
上述实施例是针对其他下行传输来说明冲突判断规则,而对于其他下行传输来说,其他下行传输包括服务小区对应的下行传输。
在一些实施例中,其他下行传输包括服务小区对应的下行信道和/或下行信号。
其中,服务小区对应的下行信道和/或下行信号,包括以下多种情况:
(1)服务小区对应的下行信道。
(2)服务小区对应的下行信号。
(3)服务小区对应的下行信道和下行信号。
可选地,服务小区对应的下行信道和/或下行信号包括以下至少一项:
(1)服务小区的SSB。
(2)服务小区的SIB。
(3)用于TRS(Tracking Reference Signal,跟踪参考信号)的CSI-RS(Channel State Information Reference Signal,信道状态信息参考信号)。
(4)CORESET#0(搜索空间集0)关联的CSS(Common Search Space,公共搜索空间)中的PDCCH(Physical Downlink Control Channel,物理下行控制信道)。
在一些实施例中,该PDCCH包括SIB,paging(寻呼),RA(Random Access,随机接入),PEI(Paging Early Indication,寻呼预先指示)中的至少一项对应的PDCCH。
在本申请实施例中,其他下行传输包括服务小区对应的下行信号和/或下行信号时,下行定位信号的优先级低于其他下行传输的优先级。也就是说下行定位信号的优先级低于服务小区对应的下行信道和/或下行信号的优先级。
下面,针对其他下行传输包括服务小区传输的其他下行传输为例进行说明。
在本申请实施例中,终端获取了下行定位信号的第一时域位置以及服务小区对应的下行信道和/或下行信号的第二时域位置,并且下行定位信号的优先级低于服务小区对应的下行信道和/或下行信号的优先级,因此对于终端来说,终端需要根据第一时域位置和第二时域位置以及冲突判断规则,来确定是否接收下行定位信号。其中,终端确定是否接收下行定位信号,包括以下至少一种情况:
第一种:在第一时域位置与第二时域位置存在重叠符号的情况下,确定下行定位信号与服务小区对应的下行信道和/或下行信号冲突,接收服务小区对应的下行信道和/或下行信号。
在本申请实施例中,若第一时域位置与第二时域位置存在重叠符号,则说明下行定位信号和服务小区对应的下行信道和/或下行信号存在共用的时域位置,因此终端无法同时接收下行定位信号和服务小区对应的下行信道和/或下行信号,而且由于下行定位信号的优先级低于服务小区对应的下行信道和/或下行信号的优先级,因此终端接收服务小区对应的下行信道和/或下行信号。
需要说明的是,本申请实施例是以第一时域位置与第二时域位置存在重叠符号为例进行说明。而在另一实施例中,若在第一时域位置与第二时域位置不 存在重叠符号的情况下,确定下行定位信号与服务小区对应的下行信道和/或下行信号不冲突,终端可以接收下行定位信号和服务小区对应的下行信道和/或下行信号。
第二种:在第一时域位置与第一扩展时域存在重叠符号的情况下,确定下行定位信号与服务小区对应的下行信道和/或下行信号冲突,接收服务小区对应的下行信道和/或下行信号。
其中,第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号或时隙、位于第二时域位置之后的Y个符号或时隙,其中X、Y为非负整数。
可选地,X和Y由通信协议规定,或者,X和Y由网络设备通过SIB配置,或者,X和Y采用其他方式配置,本申请实施例不作限定。
其中,该第一扩展时域是对第二时域位置进行扩展以后得到的时域。例如,该第二时域位置包括第一起始位置和第一终止位置,将位于该起始位置之前的X个符号或时隙的位置确定为第一扩展时域的第二起始位置,将位于第一终止位置之后的Y个符号或时隙的位置确定为第一扩展时域的第二终止位置,则第二起始位置与第二终止位置之间的时域为第一扩展时域。
可选地,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号、位于第二时域位置之后的Y个符号,其中X、Y为非负整数。或者,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个时隙、位于第二时域位置之后的Y个时隙,其中X、Y为非负整数。或者,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号、位于第二时域位置之后的Y个时隙,其中X、Y为非负整数。又或者,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号、位于第二时域位置之后的Y个时隙,其中X、Y为非负整数。
可选地,该第一扩展时域可以采用time window(时间窗口)表示,本申请实施例不作限定。
在本申请实施例中,若第一时域位置与第一扩展时域存在重叠符号,则说明下行定位信号和服务小区对应的下行信道和/或下行信号存在共用的时域位置,因此终端无法同时接收下行定位信号和服务小区对应的下行信道和/或下行信号,而且由于下行定位信号的优先级低于服务小区对应的下行信道和/或下行信号的优先级,因此终端接收服务小区对应的下行信道和/或下行信号。
需要说明的是,本申请实施例是以第一时域位置与第一扩展时域存在重叠 符号为例进行说明,而在另一实施例中,若在第一时域位置与第一扩展时域不存在重叠符号的情况下,确定下行定位信号与服务小区对应的下行信道和/或下行信号不冲突,终端可以接收下行定位信号和服务小区对应的下行信道和/或下行信号。
在一些实施例中,下行定位信号位于初始BWP内,或者,下行定位信号位于初始BWP外。
其中,该初始BWP为网络设备通过系统消息广播的方式为终端配置的BWP,或者,该初始BWP为网络设备与终端由协议约定的BWP,或者,该初始BWP为终端接收网络设备发送的SSB对应的BWP,或者,该初始BWP还可以为采用其他方式配置的BWP,本申请实施例不作限定。
在本申请实施例中,若下行定位信号位于初始BWP内,则无需考虑BWP切换所需要的时长,而若下行定位信号位于初始BWP外,则需要考虑BWP切换所需要的时长,因此对于上述第一扩展频域,下行定位信号位于初始BWP内或初始BWP外时,X和Y存在不同的取值。
在一些实施例中,在下行定位信号位于初始BWP外的情况下,第一扩展时域包括第二时域位置、位于第二时域位置之前的第一数量的符号或时隙、位于第二时域位置之后的第二数量的符号或时隙,其中第一数量、第二数量为非负整数,在下行定位信号位于初始BWP内的情况下,第一扩展时域包括第二时域位置、位于第二时域位置之前的第三数量的符号或时隙、位于第二时域位置之后的第四数量的符号或时隙,其中第三数量、第四数量为非负整数;其中,第一数量不小于第三数量,第二数量不小于第四数量。
可选地,第一数量和第二数量可以相同,或者也可以不同。第三数量和第四数量可以相同,或者也可以不同。另外,由于第一数量不小于第三数量,第二数量不小于第四数量,则第一数量、第二数量、第三数量和第四数量也可以相同,或者,也可以不同。
本申请实施例提供的方案中,终端基于冲突判断规则确定是否接收下行定位信号,以便于在下行定位信号和除下行定位信号以外的服务小区对应的下行信道和/或下行信号冲突的情况下,保证了数据的接收,提高终端与网络设备之间进行通信的可靠性。
上述实施例是针对其他下行传输来说明冲突判断规则,而对于其他下行传 输来说,其他下行传输包括邻小区对应的下行传输。
在一些实施例中,其他下行传输包括邻小区对应的下行信号和/或下行信号。
其中,邻小区对应的下行信道和/或下行信号,包括以下任一种情况:
(1)邻小区对应的下行信道。
(2)邻小区对应的下行信号。
(3)邻小区对应的下行信道和下行信号。
可选地,邻小区对应的下行信道和/或下行信号包括以下至少一项:
(1)邻小区的SSB。
(2)邻小区的SIB。
(3)CORESET#0关联的CSS中的PDCCH。
可选地,该PDCCH包括SIB对应的PDCCH。
在一些实施例中,邻小区包括与服务小区的频率相同的同频邻小区和与服务小区的频率不同的异频邻小区的至少一项。
也就是说,该邻小区包括以下任一种情况:
(1)邻小区包括同频邻小区。
(2)邻小区包括异频邻小区。
(3)邻小区包括同频邻小区和异频邻小区。
在一些实施例中,邻小区的下行传输对应第二时域位置,该第二时域位置根据SMTC确定。
在本申请实施例中,SMTC(SSB-based Measurement Timing configuration,基于SSB的测量定时配置)为周期性的时长,也就是说,邻小区的下行传输对应第二时域位置是SMTC指示的周期性的时长,终端需要在周期性的时长内测量对应载频上的SSB。
在本申请实施例中,邻小区包括同频邻小区或异频邻小区,而在邻小区包括同频邻小区,或者邻小区包括的异频邻小区为第一异频邻小区的情况下,下行定位信号的优先级低于其他下行传输的优先级,而其他下行传输包括邻小区对应的下行信号和/或下行信号,也就是说下行定位信号的优先级低于邻小区对应的下行信道和/或下行信号的优先级。
下面,分别对邻小区包括同频邻小区或第一异频邻小区的情况下,冲突判断规则为何种规则进行说明。
若邻小区包括同频邻小区,则终端获取了下行定位信号的第一时域位置以 及同频邻小区对应的下行信道和/或下行信号的第二时域位置,并且下行定位信号的优先级低于同频邻小区对应的下行信道和/或下行信号的优先级,因此对于终端来说,终端需要根据第一时域位置和第二时域位置以及冲突判断规则,来确定是否接收下行定位信号。其中,终端确定是否接收下行定位信号,包括以下至少一种情况:
第一种:在第一时域位置与第二时域位置存在重叠符号的情况下,确定下行定位信号与同频邻小区对应的下行信道和/或下行信号冲突,接收同频邻小区对应的下行信道和/或下行信号。
在本申请实施例中,若第一时域位置与第二时域位置存在重叠符号,则说明下行定位信号和同频邻小区对应的下行信道和/或下行信号存在共用的时域位置,因此终端无法同时接收下行定位信号和同频邻小区对应的下行信道和/或下行信号,而且由于下行定位信号的优先级低于同频邻小区对应的下行信道和/或下行信号的优先级,因此终端接收同频邻小区对应的下行信道和/或下行信号。
需要说明的是,本申请实施例是以第一时域位置与第二时域位置存在重叠符号为例进行说明。而在另一实施例中,若在第一时域位置与第二时域位置不存在重叠符号的情况下,确定下行定位信号与同频邻小区对应的下行信道和/或下行信号不冲突,终端可以接收下行定位信号和同频邻小区对应的下行信道和/或下行信号。
第二种:在第一时域位置与第一扩展时域存在重叠符号的情况下,确定下行定位信号与同频邻小区对应的下行信道和/或下行信号冲突,接收同频邻小区对应的下行信道和/或下行信号。
其中,第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号或时隙、位于第二时域位置之后的Y个符号或时隙,其中X、Y为非负整数。
可选地,X和Y由通信协议规定,或者,X和Y由网络设备通过SIB配置,或者,X和Y采用其他方式配置,本申请实施例不作限定。
其中,该第一扩展时域是对第二时域位置进行扩展以后得到的时域。例如,该第二时域位置包括第一起始位置和第一终止位置,将位于该起始位置之前的X个符号或时隙的位置确定为第一扩展时域的第二起始位置,将位于第一终止位置之后的Y个符号或时隙的位置确定为第一扩展时域的第二终止位置,则第二起始位置与第二终止位置之间的时域为第一扩展时域。
可选地,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X 个符号、位于第二时域位置之后的Y个符号,其中X、Y为非负整数。或者,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个时隙、位于第二时域位置之后的Y个时隙,其中X、Y为非负整数。或者,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号、位于第二时域位置之后的Y个时隙,其中X、Y为非负整数。又或者,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号、位于第二时域位置之后的Y个时隙,其中X、Y为非负整数。
可选地,该第一扩展时域可以采用time window(时间窗口)表示,本申请实施例不作限定。
在本申请实施例中,若第一时域位置与第一扩展时域存在重叠符号,则说明下行定位信号和同频邻小区对应的下行信道和/或下行信号存在共用的时域位置,因此终端无法同时接收下行定位信号和同频邻小区对应的下行信道和/或下行信号,而且由于下行定位信号的优先级低于同频邻小区对应的下行信道和/或下行信号的优先级,因此终端接收同频邻小区对应的下行信道和/或下行信号。
需要说明的是,本申请实施例是以第一时域位置与第一扩展时域存在重叠符号为例进行说明,而在另一实施例中,若在第一时域位置与第一扩展时域不存在重叠符号的情况下,确定下行定位信号与同频邻小区对应的下行信道和/或下行信号不冲突,终端可以接收下行定位信号和同频邻小区对应的下行信道和/或下行信号。
在一些实施例中,下行定位信号位于初始BWP内,或者,下行定位信号位于初始BWP外。
其中,该初始BWP为网络设备通过系统消息广播的方式为终端配置的BWP,或者,该初始BWP为网络设备与终端由协议约定的BWP,或者,该初始BWP为终端接收网络设备发送的SSB对应的BWP,或者,该初始BWP还可以为采用其他方式配置的BWP,本申请实施例不作限定。
在本申请实施例中,若下行定位信号位于初始BWP内,则无需考虑BWP切换所需要的时长,而若下行定位信号位于初始BWP外,则需要考虑BWP切换所需要的时长,因此对于上述第一扩展频域,下行定位信号位于初始BWP内或初始BWP外时,X和Y可以存在不同的取值。
在一些实施例中,在下行定位信号位于初始BWP外的情况下,第一扩展时域包括第二时域位置、位于第二时域位置之前的第一数量的符号或时隙、位于 第二时域位置之后的第二数量的符号或时隙,X为第一数量,Y为第二数量,其中第一数量、第二数量为非负整数,在下行定位信号位于初始BWP内的情况下,第一扩展时域包括第二时域位置、位于第二时域位置之前的第三数量的符号或时隙、位于第二时域位置之后的第四数量的符号或时隙,X为第三数量,Y为第四数量,其中第三数量、第四数量为非负整数;其中,第一数量不小于第三数量,第二数量不小于第四数量。
可选地,第一数量和第二数量可以相同,或者也可以不同。第三数量和第四数量可以相同,或者也可以不同。另外,由于第一数量不小于第三数量,第二数量不小于第四数量,则第一数量、第二数量、第三数量和第四数量也可以相同,或者,也可以不同。
本申请实施例提供的方案中,终端基于冲突判断规则确定是否接收下行定位信号,以便于在下行定位信号和除下行定位信号以外的同频邻小区对应的下行信道和/或下行信号冲突的情况下,保证了数据的接收,提高终端与网络设备之间进行通信的可靠性。
若邻小区包括的异频邻小区包括第一异频邻小区,该第一异频邻小区对应频率的优先级高于服务小区对应频率的优先级。
可选地,由于该第一异频邻小区对应频率的优先级高于服务小区对应频率的优先级,则终端会优先选择该第一异频邻小区,该终端会对第一异频邻小区进行测量。另外,若终端测量的第一异频邻小区的信号质量高于服务小区的信号质量,则说明终端通过该第一异频邻小区进行通信的质量高于服务小区,终端可以重选到该第一异频邻小区。
在本申请实施例中,终端获取了下行定位信号的第一时域位置以及第一异频邻小区对应的下行信道和/或下行信号的第二时域位置,并且下行定位信号的优先级低于第一异频邻小区对应的下行信道和/或下行信号的优先级,因此对于终端来说,终端需要根据第一时域位置和第二时域位置以及冲突判断规则,来确定是否接收下行定位信号。其中,终端确定是否接收下行定位信号,包括以下至少一种情况:
第一种:在第一时域位置与第二时域位置存在重叠符号的情况下,确定下行定位信号与第一异频邻小区对应的下行信道和/或下行信号冲突,接收第一异频邻小区对应的下行信道和/或下行信号。
在本申请实施例中,若第一时域位置与第二时域位置存在重叠符号,则说 明下行定位信号和第一异频邻小区对应的下行信道和/或下行信号存在共用的时域位置,因此终端无法同时接收下行定位信号和第一异频邻小区对应的下行信道和/或下行信号,而且由于下行定位信号的优先级低于第一异频邻小区对应的下行信道和/或下行信号的优先级,因此终端接收第一异频邻小区对应的下行信道和/或下行信号。
需要说明的是,本申请实施例是以第一时域位置与第二时域位置存在重叠符号为例进行说明。而在另一实施例中,若在第一时域位置与第二时域位置不存在重叠符号的情况下,确定下行定位信号与第一异频邻小区对应的下行信道和/或下行信号不冲突,终端可以接收下行定位信号和第一异频邻小区对应的下行信道和/或下行信号。
第二种:在第一时域位置与第一扩展时域存在重叠符号的情况下,确定下行定位信号与第一异频邻小区对应的下行信道和/或下行信号冲突,接收第一异频邻小区对应的下行信道和/或下行信号。
其中,第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号或时隙、位于第二时域位置之后的Y个符号或时隙,其中X、Y为非负整数。
可选地,X和Y由通信协议规定,或者,X和Y由网络设备通过SIB配置,或者,X和Y采用其他方式配置,本申请实施例不作限定。
其中,该第一扩展时域是对第二时域位置进行扩展以后得到的时域。例如,该第二时域位置包括第一起始位置和第一终止位置,将位于该起始位置之前的X个符号或时隙的位置确定为第一扩展时域的第二起始位置,将位于第一终止位置之后的Y个符号或时隙的位置确定为第一扩展时域的第二终止位置,则第二起始位置与第二终止位置之间的时域为第一扩展时域。
可选地,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号、位于第二时域位置之后的Y个符号,其中X、Y为非负整数。或者,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个时隙、位于第二时域位置之后的Y个时隙,其中X、Y为非负整数。或者,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号、位于第二时域位置之后的Y个时隙,其中X、Y为非负整数。又或者,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号、位于第二时域位置之后的Y个时隙,其中X、Y为非负整数。
可选地,该第一扩展时域可以采用time window(时间窗口)表示,本申请 实施例不作限定。
在本申请实施例中,若第一时域位置与第一扩展时域存在重叠符号,则说明下行定位信号和第一异频邻小区对应的下行信道和/或下行信号存在共用的时域位置,因此终端无法同时接收下行定位信号和第一异频邻小区对应的下行信道和/或下行信号,而且由于下行定位信号的优先级低于第一异频邻小区对应的下行信道和/或下行信号的优先级,因此终端接收第一异频邻小区对应的下行信道和/或下行信号。
需要说明的是,本申请实施例是以第一时域位置与第一扩展时域存在重叠符号为例进行说明,而在另一实施例中,若在第一时域位置与第一扩展时域不存在重叠符号的情况下,确定下行定位信号与第一异频邻小区对应的下行信道和/或下行信号不冲突,终端可以接收下行定位信号和第一异频邻小区对应的下行信道和/或下行信号。
在一些实施例中,下行定位信号位于初始BWP内,或者,下行定位信号位于初始BWP外。
其中,该初始BWP为网络设备通过系统消息广播的方式为终端配置的BWP,或者,该初始BWP为网络设备与终端由协议约定的BWP,或者,该初始BWP为终端接收网络设备发送的SSB对应的BWP,或者,该初始BWP还可以为采用其他方式配置的BWP,本申请实施例不作限定。
在本申请实施例中,若下行定位信号位于初始BWP内,则无需考虑BWP切换所需要的时长,而若下行定位信号位于初始BWP外,则需要考虑BWP切换所需要的时长,因此对于上述第一扩展频域,下行定位信号位于初始BWP内或初始BWP外时,X和Y可以存在不同的取值。
在一些实施例中,在下行定位信号位于初始BWP外的情况下,第一扩展时域包括第二时域位置、位于第二时域位置之前的第一数量的符号或时隙、位于第二时域位置之后的第二数量的符号或时隙,其中第一数量、第二数量为非负整数,在下行定位信号位于初始BWP内的情况下,第一扩展时域包括第二时域位置、位于第二时域位置之前的第三数量的符号或时隙、位于第二时域位置之后的第四数量的符号或时隙,其中第三数量、第四数量为非负整数;其中,第一数量不小于第三数量,第二数量不小于第四数量。
可选地,第一数量和第二数量可以相同,或者也可以不同。第三数量和第四数量可以相同,或者也可以不同。另外,由于第一数量不小于第三数量,第 二数量不小于第四数量,则第一数量、第二数量、第三数量和第四数量也可以相同,或者,也可以不同。
本申请实施例提供的方案中,终端基于冲突判断规则确定是否接收下行定位信号,以便于在下行定位信号和除下行定位信号以外的第一异频邻小区对应的下行信道和/或下行信号冲突的情况下,保证了数据的接收,提高终端与网络设备之间进行通信的可靠性。
需要说明的是,上述实施例是以邻小区包括的异频邻小区包括第一异频邻小区,且该第一异频邻小区对应频率的优先级高于服务小区对应频率的优先级为例进行说明。而在另一实施例中,异频邻小区还包括第二异频邻小区,在此情况下,下行定位信号的优先级高于第二异频邻小区的其他下行传输的优先级,而且第二异频邻小区对应频率的优先级低于服务小区对应频率的优先级。
可选地,在服务小区的信号强度不大于预设门限的情况下,对第二异频邻小区进行测量。
其中,该预设门限由网络设备配置,或者由通信协议约定,或者采用其他方式设置,本申请实施例不作限定。
在本申请实施例中,若服务小区的信号强度不大于预设门限,则说明该服务小区的信号强度无法满足通信要求,此时终端需要测量第二异频邻小区的信号强度,以便于终端寻找信号强度满足要求的邻小区,进而重选到满足信号强度的邻小区。
需要说明的是,本申请实施例是以服务小区的信号强度不大于预设门限为例进行说明。而在另一实施例中,在服务小区的信号强度大于预设门限的情况下,终端不对第二异频邻小区进行测量。
在本申请实施例中,若服务小区的信号强度大于预设门限,并且第二异频邻小区的优先级低于服务小区的优先级,则说明终端此时基于服务小区进行通信即可,无需测量第二异频邻小区。
在本申请实施例中,终端获取了下行定位信号的第一时域位置以及第二异频邻小区对应的下行信道和/或下行信号的第二时域位置,并且下行定位信号的优先级高于第二异频邻小区对应的下行信道和/或下行信号的优先级,因此对于终端来说,终端需要根据第一时域位置、第二时域位置以及冲突判断规则,来确定是否接收下行定位信号。其中,终端确定是否接收下行定位信号,包括以下至少一种情况:
第一种:在第一时域位置与第二时域位置存在重叠符号的情况下,确定下行定位信号与第二异频邻小区对应的下行信道和/或下行信号冲突,接收下行定位信号。
在本申请实施例中,若第一时域位置与第二时域位置存在重叠符号,则说明下行定位信号和第二异频邻小区对应的下行信道和/或下行信号存在共用的时域位置,因此终端无法同时接收下行定位信号和第二异频邻小区对应的下行信道和/或下行信号,而且由于下行定位信号的优先级高于第二异频邻小区对应的下行信道和/或下行信号的优先级,因此终端接收下行定位信号。
需要说明的是,本申请实施例是以第一时域位置与第二时域位置存在重叠符号为例进行说明。而在另一实施例中,若在第一时域位置与第二时域位置不存在重叠符号的情况下,确定下行定位信号与第二异频邻小区对应的下行信道和/或下行信号不冲突,终端可以接收下行定位信号和第二异频邻小区对应的下行信道和/或下行信号。
第二种:在第一时域位置与第一扩展时域存在重叠符号的情况下,确定下行定位信号与第二异频邻小区对应的下行信道和/或下行信号冲突,接收下行定位信号。
其中,第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号或时隙、位于第二时域位置之后的Y个符号或时隙,其中X、Y为非负整数。
可选地,X和Y由通信协议规定,或者,X和Y由网络设备通过SIB配置,或者,X和Y采用其他方式配置,本申请实施例不作限定。
其中,该第一扩展时域是对第二时域位置进行扩展以后得到的时域。例如,该第二时域位置包括第一起始位置和第一终止位置,将位于该起始位置之前的X个符号或时隙的位置确定为第一扩展时域的第二起始位置,将位于第一终止位置之后的Y个符号或时隙的位置确定为第一扩展时域的第二终止位置,则第二起始位置与第二终止位置之间的时域为第一扩展时域。
可选地,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号、位于第二时域位置之后的Y个符号,其中X、Y为非负整数。或者,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个时隙、位于第二时域位置之后的Y个时隙,其中X、Y为非负整数。或者,该第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号、位于第二时域位置之后的Y个时隙,其中X、Y为非负整数。又或者,该第一扩展时域包括第二 时域位置、位于第二时域位置之前的X个符号、位于第二时域位置之后的Y个时隙,其中X、Y为非负整数。
可选地,该第一扩展时域可以采用time window(时间窗口)表示,本申请实施例不作限定。
在本申请实施例中,若第一时域位置与第一扩展时域存在重叠符号,则说明下行定位信号和第二异频邻小区对应的下行信道和/或下行信号存在共用的时域位置,因此终端无法同时接收下行定位信号和第二异频邻小区对应的下行信道和/或下行信号,而且由于下行定位信号的优先级高于第二异频邻小区对应的下行信道和/或下行信号的优先级,因此终端接收下行定位信号。
需要说明的是,本申请实施例是以第一时域位置与第一扩展时域存在重叠符号为例进行说明,而在另一实施例中,若在第一时域位置与第一扩展时域不存在重叠符号的情况下,确定下行定位信号与第二异频邻小区对应的下行信道和/或下行信号不冲突,终端可以接收下行定位信号和第二异频邻小区对应的下行信道和/或下行信号。
在一些实施例中,下行定位信号位于初始BWP内,或者,下行定位信号位于初始BWP外。
其中,该初始BWP为网络设备通过系统消息广播的方式为终端配置的BWP,或者,该初始BWP为网络设备与终端由协议约定的BWP,或者,该初始BWP为终端接收网络设备发送的SSB对应的BWP,或者,该初始BWP还可以为采用其他方式配置的BWP,本申请实施例不作限定。
在本申请实施例中,若下行定位信号位于初始BWP内,则无需考虑BWP切换所需要的时长,而若下行定位信号位于初始BWP外,则需要考虑BWP切换所需要的时长,因此对于上述第一扩展频域,下行定位信号位于初始BWP内或初始BWP外时,X和Y可以存在不同的取值。
在一些实施例中,在下行定位信号位于初始BWP外的情况下,第一扩展时域包括第二时域位置、位于第二时域位置之前的第一数量的符号或时隙、位于第二时域位置之后的第二数量的符号或时隙,其中第一数量、第二数量为非负整数,在下行定位信号位于初始BWP内的情况下,第一扩展时域包括第二时域位置、位于第二时域位置之前的第三数量的符号或时隙、位于第二时域位置之后的第四数量的符号或时隙,其中第三数量、第四数量为非负整数;其中,第一数量不小于第三数量,第二数量不小于第四数量。
可选地,第一数量和第二数量可以相同,或者也可以不同。第三数量和第四数量可以相同,或者也可以不同。另外,由于第一数量不小于第三数量,第二数量不小于第四数量,则第一数量、第二数量、第三数量和第四数量也可以相同,或者,也可以不同。
本申请实施例提供的方案中,终端基于冲突判断规则确定是否接收下行定位信号,以便于在下行定位信号和除下行定位信号以外的第二异频邻小区对应的下行信道和/或下行信号冲突的情况下,保证了数据的接收,提高终端与网络设备之间进行通信的可靠性。
本申请所涉及的下行定位信号的优先级低于其他下行传输的优先级,而对于该其他下行传输来说,其他下行传输包括多种类型的传输。
在一些实施例中,其他下行传输包括以下至少一项:
服务小区传输的其它下行传输;
同频邻小区传输的其它下行传输;
第一异频邻小区传输的其它下行传输。
也就是说,其他下行传输包括服务小区传输的其它下行传输,或者,其他下行传输包括服务小区传输的其它下行传输和同频邻小区传输的其它下行传输。或者,其他下行传输包括同频邻小区传输的其它下行传输和第一异频邻小区传输的其它下行传输。或者,其他下行传输包括服务小区传输的其它下行传输和第一异频邻小区传输的其它下行传输。或者,其他下行传输包括服务小区传输的其它下行传输、同频邻小区传输的其它下行传输和第一异频邻小区传输的其它下行传输。
其中,本申请实施例中的其他下行传输与上述实施例中的下行传输类似,在此不再赘述。
在另一些实施例中,若下行定位信号的优先级高于其他下行传输的优先级,而对于该其他下行传输来说,其他下行传输包括第二异频邻小区传输的其它下行传输。
在上述实施例的基础上,终端根据冲突判断规则可以确定是否接收下行定位信号,而在终端可以接收下行定位信号的情况下,参见图6,该方法还包括:
步骤601:终端接收网络设备发送的下行定位信号,基于该下行定位信号生 成定位报告。
在本申请实施例中,终端基于冲突判断规则确定可以接收下行定位信号后,即可接收该下行定位信号,进而根据接收的下行定位信号,生成定位报告。
在一些实施例中,该定位报告中包括以下至少一项:
(1)下行定位信号的下行RSRP(Reference Signal Receiving Power,参考信号接收功率)。
(2)下行定位信号的到达时间差。
(3)终端接收发送时间差。
(4)载波相位。
步骤602:终端向网络设备发送定位报告。
步骤603:网络设备接收终端发送的定位报告。
在本申请实施例中,终端向网络设备发送定位报告,网络设备接收终端发送的定位报告,进而根据接收的定位报告对终端进行定位,确定终端所处的位置。
可选地,网络设备包括LMF(Location Management Function,定位管理功能),终端向LMF发送定位报告,LMF接收终端发送的定位报告,进而根据该定位报告对终端进行定位,确定终端的位置。
需要说明的是,本申请实施例中终端所执行的步骤可以单独形成一个实施例,网络设备所执行的步骤也可以单独形成一个实施例,本申请实施例不作限定。
本申请实施例提供的方案中,终端在确定接收下行定位信号的情况下,根据下行定位信号生成定位报告,向网络设备发送该定位报告,以便于网络设备基于接收的定位报告对终端进行定位,在保证通信可靠性的前提下,提高对终端进行定位的稳定性。
需要说明的是,上述实施例可以拆分为新实施例,或与其他实施例互相组合为新实施例,本申请对实施例之间的组合不做限定。
图7示出了本申请一个示例性实施例提供的一种信号接收装置的框图,参见图7,该装置包括:
位置确定模块701,用于确定下行定位信号的第一时域位置以及除下行定位 信号以外的其他下行传输的第二时域位置;
规则确定模块702,用于根据第一时域位置和第二时域位置,以及冲突判断规则,确定是否接收下行定位信号。
在一些实施例中,规则确定模块702,还用于响应于基于冲突判断规则确定下行定位信号与其他下行传输冲突,在下行定位信号的优先级高于其它下行传输时,接收下行定位信号;
或在下行定位信号的优先级低于其它下行传输时,不接收下行定位信号。
在一些实施例中,冲突判断规则包括:
在第一时域位置与第二时域位置存在重叠符号的情况下,确定下行定位信号与其他下行传输冲突。
在一些实施例中,冲突判断规则包括:
在第一时域位置与第一扩展时域存在重叠符号的情况下,确定下行定位信号与其他下行传输冲突;
其中,第一扩展时域包括第二时域位置、位于第二时域位置之前的X个符号或时隙、位于第二时域位置之后的Y个符号或时隙,其中X、Y为非负整数。
在一些实施例中,下行定位信号位于初始BWP内,或者,下行定位信号位于初始BWP外。
在一些实施例中,在下行定位信号位于初始BWP外的情况下,第一扩展时域包括第二时域位置、位于第二时域位置之前的第一数量的符号或时隙、位于第二时域位置之后的第二数量的符号或时隙,其中第一数量、第二数量为非负整数;
在下行定位信号位于初始BWP内的情况下,第一扩展时域包括第二时域位置、位于第二时域位置之前的第三数量的符号或时隙、位于第二时域位置之后的第四数量的符号或时隙,其中第三数量、第四数量为非负整数;
其中,第一数量不小于第三数量,第二数量不小于第四数量。
在一些实施例中,其他下行传输包括服务小区对应的下行信道和/或下行信号。
在一些实施例中,服务小区对应的下行信道和/或下行信号包括以下至少一项:
服务小区的SSB;
服务小区的SIB;
用于TRS的CSI-RS;
CORESET#0关联的CSS中的PDCCH。
在一些实施例中,其他下行传输包括邻小区对应的下行信道和/或下行信号。
在一些实施例中,邻小区对应的下行信道和/或下行信号包括以下至少一项:
邻小区的SSB;
邻小区的SIB;
CORESET#0关联的CSS中的PDCCH。
在一些实施例中,邻小区包括与服务小区的频率相同的同频邻小区和与服务小区的频率不同的异频邻小区的至少一项。
在一些实施例中,邻小区的下行传输的第二时域位置根据SMTC确定。
在一些实施例中,异频邻小区包括第一异频邻小区,第一异频邻小区对应频率的优先级高于服务小区对应频率的优先级。
在一些实施例中,参见图8,装置还包括:
测量模块703,用于对第一异频邻小区进行测量。
在一些实施例中,异频邻小区包括第二异频邻小区,其中第二异频邻小区对应频率的优先级低于服务小区对应频率的优先级。
在一些实施例中,参见图8,装置还包括:
测量模块703,用于在服务小区的信号强度不大于预设门限的情况下,对第二异频邻小区进行测量。
在一些实施例中,下行定位信号的优先级低于其他下行传输的优先级,其它下行传输包括以下至少一项:
服务小区传输的其它下行传输;
同频邻小区传输的其它下行传输;
第一异频邻小区传输的其它下行传输。
在一些实施例中,下行定位信号的优先级高于其他下行传输的优先级,其它下行传输包括第二异频邻小区传输的其它下行传输。
在一些实施例中,终端处于RRC空闲态。
需要说明的是,上述实施例提供的装置,在实现其功能时,仅以上述各功能模块的划分进行举例说明,实际应用中,可以根据需要而将上述功能分配由不同的功能模块完成,即将设备的内部结构划分成不同的功能模块,以完成以上描述的全部或者部分功能。另外,上述实施例提供的装置与方法实施例属于 同一构思,其具体实现过程详见方法实施例,这里不再赘述。
图9示出了本申请一个示例性实施例提供的通信设备的结构示意图,该通信设备包括:处理器901、接收器902、发射器903、存储器904和总线905。
处理器901包括一个或者一个以上处理核心,处理器901通过运行软件程序以及模块,从而执行各种功能应用以及信息处理。
接收器902和发射器903可以实现为一个通信组件,该通信组件可以是一块通信芯片。
存储器904通过总线905与处理器901相连。
存储器904可用于存储至少一个程序代码,处理器901用于执行该至少一个程序代码,以实现上述方法实施例中的各个步骤。
此外,通信设备可以为终端。存储器1004可以由任何类型的易失性或非易失性存储设备或者它们的组合实现,易失性或非易失性存储设备包括但不限于:磁盘或光盘,电可擦除可编程只读存储器(EEPROM),可擦除可编程只读存储器(EPROM),静态随时存取存储器(SRAM),只读存储器(ROM),磁存储器,快闪存储器,可编程只读存储器(PROM)。
在示例性实施例中,还提供了一种计算机可读存储介质,所述可读存储介质中存储有可执行程序代码,所述可执行程序代码由处理器加载并执行以实现上述各个方法实施例提供的由通信设备执行的信号接收方法。
在示例性实施例中,提供了一种芯片,所述芯片包括可编程逻辑电路和/或程序指令,当所述芯片在终端上运行时,用于实现如各个方法实施例提供的信号接收方法。
在示例性实施例中,提供了计算机程序产品,当所述计算机程序产品被终端的处理器执行时,其用于实现上述各个方法实施例提供的信号接收方法。
本领域普通技术人员可以理解实现上述实施例的全部或部分步骤可以通过硬件来完成,也可以通过程序来指令相关的硬件完成,所述的程序可以存储于一种计算机可读存储介质中,上述提到的存储介质可以是只读存储器,磁盘或光盘等。
以上所述仅为本申请的可选实施例,并不用以限制本申请,凡在本申请的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本申请的保护范围之内。

Claims (40)

  1. 一种信号接收方法,其特征在于,所述方法由终端执行,所述方法包括:
    确定下行定位信号的第一时域位置以及除所述下行定位信号以外的其他下行传输的第二时域位置;
    根据所述第一时域位置和所述第二时域位置,以及冲突判断规则,确定是否接收所述下行定位信号。
  2. 根据权利要求1所述的方法,其特征在于,所述确定是否接收所述下行定位信号,包括:
    响应于基于所述冲突判断规则确定所述下行定位信号与所述其他下行传输冲突,在所述下行定位信号的优先级高于所述其它下行传输时,接收所述下行定位信号;
    或在所述下行定位信号的优先级低于所述其它下行传输时,不接收所述下行定位信号。
  3. 根据权利要求1或2所述的方法,其特征在于,所述冲突判断规则包括:
    在所述第一时域位置与所述第二时域位置存在重叠符号的情况下,确定所述下行定位信号与所述其他下行传输冲突。
  4. 根据权利要求1或2所述的方法,其特征在于,所述冲突判断规则包括:
    在所述第一时域位置与第一扩展时域存在重叠符号的情况下,确定所述下行定位信号与所述其他下行传输冲突;
    其中,所述第一扩展时域包括所述第二时域位置、位于所述第二时域位置之前的X个符号或时隙、位于所述第二时域位置之后的Y个符号或时隙,其中X、Y为非负整数。
  5. 根据权利要求4所述的方法,其特征在于,所述下行定位信号位于初始带宽部分BWP内,或者,所述下行定位信号位于所述初始BWP外。
  6. 根据权利要求5所述的方法,其特征在于,在所述下行定位信号位于所述初始BWP外的情况下,所述第一扩展时域包括所述第二时域位置、位于所述第二时域位置之前的第一数量的符号或时隙、位于所述第二时域位置之后的第二数量的符号或时隙,其中所述第一数量、所述第二数量为非负整数;
    在所述下行定位信号位于所述初始BWP内的情况下,所述第一扩展时域包括所述第二时域位置、位于所述第二时域位置之前的第三数量的符号或时隙、位于所述第二时域位置之后的第四数量的符号或时隙,其中所述第三数量、所述第四数量为非负整数;
    其中,所述第一数量不小于所述第三数量,所述第二数量不小于所述第四数量。
  7. 根据权利要求2至6任一所述的方法,其特征在于,所述其他下行传输包括服务小区对应的下行信道和/或下行信号。
  8. 根据权利要求7所述的方法,其特征在于,所述服务小区对应的下行信道和/或下行信号包括以下至少一项:
    所述服务小区的同步信号块SSB;
    所述服务小区的系统信息块SIB;
    用于跟踪参考信号TRS的信道状态信息参考信号CSI-RS;
    控制资源集0CORESET#0关联的公共搜索空间CSS中的物理下行控制信道PDCCH。
  9. 根据权利要求2至6任一所述的方法,其特征在于,所述其他下行传输包括邻小区对应的下行信道和/或下行信号。
  10. 根据权利要求9所述的方法,其特征在于,所述邻小区对应的下行信道和/或下行信号包括以下至少一项:
    所述邻小区的SSB;
    所述邻小区的SIB;
    CORESET#0关联的CSS中的PDCCH。
  11. 根据权利要求9或10所述的方法,其特征在于,所述邻小区包括与服务小区的频率相同的同频邻小区和与所述服务小区的频率不同的异频邻小区的至少一项。
  12. 根据权利要求11所述的方法,其特征在于,所述邻小区的下行传输的所述第二时域位置根据基于SSB的测量定时配置SMTC确定。
  13. 根据权利要求11所述的方法,其特征在于,所述异频邻小区包括第一异频邻小区,所述第一异频邻小区对应频率的优先级高于所述服务小区对应频率的优先级。
  14. 根据权利要求13所述的方法,其特征在于,所述方法还包括:
    对所述第一异频邻小区进行测量。
  15. 根据权利要求11所述的方法,其特征在于,所述异频邻小区包括第二异频邻小区,其中所述第二异频邻小区对应频率的优先级低于所述服务小区对应频率的优先级。
  16. 根据权利要求15所述的方法,其特征在于,所述方法还包括:
    在所述服务小区的信号强度不大于预设门限的情况下,对所述第二异频邻小区进行测量。
  17. 根据权利要求2-16任一项所述的方法,其特征在于,所述下行定位信号的优先级低于所述其他下行传输的优先级,所述其它下行传输包括以下至少一项:
    服务小区传输的其它下行传输;
    同频邻小区传输的其它下行传输;
    第一异频邻小区传输的其它下行传输。
  18. 根据权利要求2-16任一项所述的方法,其特征在于,所述下行定位信号的优先级高于所述其他下行传输的优先级,所述其它下行传输包括第二异频邻小区传输的其它下行传输。
  19. 根据权利要求1至18任一所述的方法,其特征在于,所述终端处于RRC空闲态。
  20. 一种信号接收装置,其特征在于,所述装置包括:
    位置确定模块,用于确定下行定位信号的第一时域位置以及除所述下行定位信号以外的其他下行传输的第二时域位置;
    规则确定模块,用于根据所述第一时域位置和所述第二时域位置,以及冲突判断规则确定是否接收所述下行定位信号。
  21. 根据权利要求20所述的装置,其特征在于,所述规则确定模块,还用于响应于基于冲突判断规则确定所述下行定位信号与所述其他下行传输冲突,在所述下行定位信号的优先级高于所述其它下行传输时,接收所述下行定位信号;
    或在所述下行定位信号的优先级低于所述其它下行传输时,不接收所述下行定位信号。
  22. 根据权利要求20或21所述的装置,其特征在于,所述冲突判断规则包括:
    在所述第一时域位置与所述第二时域位置存在重叠符号的情况下,确定所述下行定位信号与所述其他下行传输冲突。
  23. 根据权利要20或21所述的装置,其特征在于,所述冲突判断规则包括:
    在所述第一时域位置与第一扩展时域存在重叠符号的情况下,确定所述下行定位信号与所述其他下行传输冲突;
    其中,所述第一扩展时域包括所述第二时域位置、位于所述第二时域位置之前的X个符号或时隙、位于所述第二时域位置之后的Y个符号或时隙,其中X、Y为非负整数。
  24. 根据权利要求23所述的装置,其特征在于,所述下行定位信号位于初始BWP内,或者,所述下行定位信号位于所述初始BWP外。
  25. 根据权利要求24所述的装置,其特征在于,在所述下行定位信号位于所述初始BWP外的情况下,所述第一扩展时域包括所述第二时域位置、位于所述第二时域位置之前的第一数量的符号或时隙、位于所述第二时域位置之后的第二数量的符号或时隙,其中所述第一数量、第二数量为非负整数;
    在所述下行定位信号位于所述初始BWP内的情况下,所述第一扩展时域包括所述第二时域位置、位于所述第二时域位置之前的第三数量的符号或时隙、位于所述第二时域位置之后的第四数量的符号或时隙,其中所述第三数量、第四数量为非负整数;
    其中,所述第一数量不小于所述第三数量,所述第二数量不小于所述第四数量。
  26. 根据权利要求21至25任一所述的装置,其特征在于,所述其他下行传输包括服务小区对应的下行信道和/或下行信号。
  27. 根据权利要求26所述的装置,其特征在于,所述服务小区对应的下行信道和/或下行信号包括以下至少一项:
    所述服务小区的SSB;
    所述服务小区的SIB;
    用于TRS的CSI-RS;
    CORESET#0关联的CSS中的PDCCH。
  28. 根据权利要求21至25任一所述的装置,其特征在于,所述其他下行传输包括邻小区对应的下行信道和/或下行信号。
  29. 根据权利要求28所述的装置,其特征在于,所述邻小区对应的下行信道和/或下行信号包括以下至少一项:
    所述邻小区的SSB;
    所述邻小区的SIB;
    CORESET#0关联的CSS中的PDCCH。
  30. 根据权利要求28或29所述的装置,其特征在于,所述邻小区包括与服务小区的频率相同的同频邻小区和与所述服务小区的频率不同的异频邻小区的至少一项。
  31. 根据权利要求30所述的装置,其特征在于,所述邻小区的下行传输的所述第二时域位置根据SMTC确定。
  32. 根据权利要求30所述的装置,其特征在于,所述异频邻小区包括第一异频邻小区,所述第一异频邻小区对应频率的优先级高于所述服务小区对应频率的优先级。
  33. 根据权利要求32所述的装置,其特征在于,所述装置还包括:
    测量模块,用于对所述第一异频邻小区进行测量。
  34. 根据权利要求30所述的装置,其特征在于,所述异频邻小区包括第二异频邻小区,其中所述第二异频邻小区对应频率的优先级低于所述服务小区对应频率的优先级。
  35. 根据权利要求34所述的装置,其特征在于,所述装置还包括:
    测量模块,用于在服务小区的信号强度不大于预设门限的情况下,对所述第二异频邻小区进行测量。
  36. 根据权利要求21-35任一项所述的装置,其特征在于,所述下行定位信号的优先级低于所述其他下行传输的优先级,所述其它下行传输包括以下至少一项:
    服务小区传输的其它下行传输;
    同频邻小区传输的其它下行传输;
    第一异频邻小区传输的其它下行传输。
  37. 根据权利要求21-35任一项所述的装置,其特征在于,所述下行定位信号的优先级高于所述其他下行传输的优先级,所述其它下行传输包括第二异频邻小区传输的其它下行传输。
  38. 根据权利要求20至37任一所述的装置,其特征在于,所述终端处于RRC空闲态。
  39. 一种终端,其特征在于,所述终端包括:
    处理器;
    与所述处理器相连的收发器;
    其中,所述处理器被配置为加载并执行可执行指令以实现如权利要求1至19任一所述的信号接收方法。
  40. 一种计算机可读存储介质,所述可读存储介质中存储有可执行程序代码,所述可执行程序代码由处理器加载并执行以实现如权利要求1至19任一所述的信号接收方法。
PCT/CN2022/087182 2022-04-15 2022-04-15 信号接收方法、装置、设备及存储介质 WO2023197318A1 (zh)

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