WO2023197220A1 - 邻小区测量方法、装置、设备及存储介质 - Google Patents

邻小区测量方法、装置、设备及存储介质 Download PDF

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Publication number
WO2023197220A1
WO2023197220A1 PCT/CN2022/086688 CN2022086688W WO2023197220A1 WO 2023197220 A1 WO2023197220 A1 WO 2023197220A1 CN 2022086688 W CN2022086688 W CN 2022086688W WO 2023197220 A1 WO2023197220 A1 WO 2023197220A1
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Prior art keywords
reference point
point information
frequency
terminal
distance threshold
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PCT/CN2022/086688
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English (en)
French (fr)
Inventor
李小龙
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北京小米移动软件有限公司
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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 CN202280001187.XA priority Critical patent/CN117280738A/zh
Priority to PCT/CN2022/086688 priority patent/WO2023197220A1/zh
Publication of WO2023197220A1 publication Critical patent/WO2023197220A1/zh

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • H04W24/10Scheduling measurement reports ; Arrangements for measurement reports

Definitions

  • the present application relates to the field of mobile communications, and in particular to a neighboring cell measurement method, device, equipment and storage medium.
  • network equipment can communicate with terminals through NTN (Non-Terrestrial Networks, non-terrestrial networks) or TN (Terrestrial Networks, terrestrial networks).
  • NTN Non-Terrestrial Networks, non-terrestrial networks
  • TN Terrestrial Networks, terrestrial networks
  • Embodiments of the present application provide a neighboring cell measurement method, device, equipment and storage medium, provide a neighboring cell measurement method, ensure the measurement of neighboring cells, and are based on reference point information and distance thresholds corresponding to the reference point information. To carry out cell measurement and improve the accuracy of cell measurement.
  • the technical solutions are as follows:
  • a neighbor cell measurement method is provided, the method is performed by a terminal, and the method includes:
  • the configuration information includes at least one reference point information and a distance threshold corresponding to each reference point information.
  • the reference point information and/or the distance threshold corresponding to each reference point information are associated with at least one frequency;
  • Neighboring cell measurement is performed based on the at least one reference point information and the distance threshold corresponding to each reference point information.
  • a neighbor cell measurement method is provided, the method is executed by a network device, and the method includes:
  • the configuration information includes at least one reference point information and a distance threshold corresponding to each reference point information, where each reference point information and/or the distance threshold corresponding to each reference point information is consistent with at least a frequency correlation;
  • the at least one reference point information and the distance threshold corresponding to each reference point information are used by the terminal to perform cell measurement.
  • a neighboring cell measurement device includes:
  • a receiving module configured to receive configuration information sent by a network device.
  • the configuration information includes at least one reference point information and a distance threshold corresponding to each reference point information.
  • the each reference point information and/or each reference point The distance threshold corresponding to the information is associated with at least one frequency;
  • a measurement module configured to perform neighboring cell measurements based on the at least one reference point information and the distance threshold corresponding to each reference point information.
  • a neighboring cell measurement device includes:
  • a sending module configured to send configuration information to the terminal, where the configuration information includes at least one reference point information and a distance threshold corresponding to each reference point information, and each reference point information and/or each reference point information corresponds to The distance threshold is associated with at least one frequency;
  • the at least one reference point information and the distance threshold corresponding to each reference point information are used by the terminal to perform cell measurement.
  • 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.
  • the instructions are executed to implement the neighbor cell measurement method as described above.
  • a network device 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 The executable instructions are executed to implement the neighbor cell measurement method in the above aspect.
  • a computer-readable storage medium stores executable program code.
  • the executable program code is loaded and executed by a processor to implement the neighbor cell measurement 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 or network device, it is used to implement the neighbor cell measurement method in the above aspect.
  • a computer program product is provided.
  • the computer program product is executed by a processor of a terminal or a network device, it is used to implement the neighbor cell measurement method of the above aspect.
  • the network device configures the reference point information and the distance threshold corresponding to each reference point information for the terminal, so that the terminal can perform neighbor cell measurement based on the reference point information and the distance threshold corresponding to the reference point information.
  • Measurement provides a way to measure neighboring cells, ensuring the measurement of neighboring cells, and performs cell measurement based on reference point information and the distance threshold corresponding to the reference point information, improving the accuracy of cell measurement.
  • 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 neighboring cell measurement method provided by an exemplary embodiment of the present application
  • Figure 3 shows a block diagram of a neighboring cell measurement device provided by an exemplary embodiment of the present application
  • Figure 4 shows a block diagram of a neighboring cell measurement device provided by an exemplary embodiment of the present application
  • Figure 5 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 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 an air interface, so that communication, including signaling and data interaction, can be performed through the connection.
  • 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 network device 20 may include various forms of macro base stations, micro base stations, relay stations, access points, etc.
  • the names of devices with network device functions may be different.
  • 5G NR New Radio, New Radio
  • they are called gNodeB or gNB.
  • the name "network device” may change.
  • Figure 2 shows a flow chart of a neighbor cell measurement method provided by an exemplary embodiment of the present application.
  • the exemplary method can be applied to the terminal and network equipment shown in Figure 1.
  • the method includes at least part of the following content. :
  • Step 201 The network device sends configuration information to the terminal.
  • the configuration information includes at least one reference point information and a distance threshold corresponding to each reference point information.
  • Each reference point information and/or the distance threshold corresponding to each reference point information is consistent with at least one frequency correlation.
  • the network device configures at least one reference point information and a distance threshold corresponding to each reference point information for the terminal through configuration information, and the reference point information and/or the distance threshold corresponding to the reference point information is consistent with at least one frequency association.
  • each reference point information corresponds to a distance threshold
  • the embodiment of the present application is also associated with a frequency, that is, for different reference point information and/or distance thresholds corresponding to different reference point information
  • the reference point information and /Or the distance threshold corresponding to the reference point information is associated with at least one frequency.
  • each reference point information and/or the distance threshold and frequency corresponding to each reference point information includes any of the following:
  • Each reference point information is associated with at least one frequency.
  • the distance threshold corresponding to each reference point information is associated with at least one frequency.
  • Each reference point information and each reference point information are associated with at least one frequency.
  • the frequency can also be associated with each reference point information and/or the distance threshold corresponding to each reference point information.
  • the specific association relationship includes any of the following:
  • a frequency is associated with at least one reference point information.
  • a frequency is associated with a distance threshold corresponding to at least one reference point information.
  • One frequency domain is associated with at least one reference point information and at least one reference point information.
  • the distance threshold is expressed in length.
  • the distance threshold may be expressed in meters, kilometers, or other length units, which is not limited in the embodiments of this application.
  • different reference point information is associated with the same frequency, or different reference point information is associated with different frequencies.
  • the reference point information is location information, that is to say, at least one reference point information indicates the location of a neighboring cell.
  • the reference point information may indicate the location of neighboring cells. If different reference point information is associated with the same frequency, it means that the frequencies of different neighboring cells are the same. If different reference point information is associated with different frequencies, it means that different neighboring cells have different frequencies.
  • the network device configures four reference point information for the terminal, namely reference point information 1, reference point information 2, reference point information 3 and reference point information 4.
  • Reference point information 1 is associated with frequency 1
  • reference point information 2 is associated with frequency 2.
  • Reference point information 3 is associated with frequency 1
  • reference point information 4 is associated with frequency 3.
  • the embodiment of the present application takes as an example whether the frequencies associated with different reference point information are the same.
  • the reference point information corresponds to a distance threshold, and the frequencies associated with the distance thresholds corresponding to different reference point information are the same, or the frequencies associated with the distance thresholds corresponding to different reference point information are different.
  • the frequencies associated with different reference point information and the distance thresholds corresponding to the reference point information are the same, or the frequencies associated with the distance thresholds corresponding to different reference point information and reference point information are different.
  • the configuration information is a system message.
  • the network device sends a system message to the terminal to configure at least one reference point information and the distance threshold corresponding to each reference point information for the terminal through the system message.
  • the configuration information is an RRC release (radio resource control release) message.
  • the network device sends an RRC release message to the terminal to configure at least one reference point information and the distance threshold corresponding to each reference point information for the terminal through the RRC release message.
  • Step 202 The terminal receives the configuration information sent by the network device.
  • the configuration information includes at least one reference point information and a distance threshold corresponding to each reference point information.
  • Each reference point information and/or the distance threshold corresponding to each reference point information is consistent with at least A frequency correlation.
  • the network device configures the reference point information and the distance threshold corresponding to the reference point information for the terminal by sending configuration information.
  • the terminal After the terminal receives the configuration information sent by the network device, it can determine the reference point information and the reference point information based on the configuration information.
  • the corresponding distance threshold, and the frequency associated with each reference point information and/or each reference point information and the distance threshold corresponding to the reference point information may also be determined.
  • Step 203 The terminal performs neighboring cell measurements based on at least one reference point information and the distance threshold corresponding to each reference point information.
  • the terminal determines at least one reference point information and a distance threshold corresponding to each reference point information. Then, for the terminal, the terminal performs neighbor detection based on the reference point information and the distance threshold corresponding to each reference point information. Cell measurement. It can also be understood that the terminal can determine its own location, and the terminal performs neighbor cell measurements based on its own location, reference point information, and the distance threshold corresponding to the reference point information.
  • At least one reference point information indicates a neighbor cell location.
  • the neighboring cell covers a certain area, and a reference point is set in the neighboring cell, and the reference point is used to indicate the location of the neighboring cell.
  • the terminal can determine the distance between the terminal and the neighboring cell based on its own position and the neighboring cell position indicated by the reference point information, and then perform neighboring cell measurements based on the determined distance and the distance threshold corresponding to the reference point information.
  • the reference point information is the center position of the neighboring cell, or the reference point information is the position with the strongest signal quality of the neighboring cell, or other positions of the neighboring cell, which are not limited in the embodiments of this application.
  • the network device and the at least one reference point information belong to different types of networks. That is to say, each reference point information in at least one reference point information belongs to one type of network, and the network device belongs to one type of network, and the type of network to which the network device belongs is consistent with the type to which at least one reference point information belongs. There are different types of networks.
  • the network device belongs to NTN.
  • At least one reference point information and the distance threshold corresponding to each reference point information belong to TN.
  • communication can be carried out between the network device and the terminal. That is to say, the cell covered by the network device is the serving cell of the terminal, the serving cell where the terminal is located is an NTN type network, and the neighboring cell is a TN type network. , the terminal needs to measure TN type neighboring cells.
  • 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 network device configures the reference point information and the distance threshold corresponding to each reference point information for the terminal, so that the terminal can perform neighboring cell measurements based on the reference point information and the distance threshold corresponding to the reference point information, and provides A neighboring cell measurement method ensures the measurement of neighboring cells, and performs cell measurement based on reference point information and the distance threshold corresponding to the reference point information, thereby improving the accuracy of cell measurement.
  • This application also provides a neighboring cell measurement method.
  • the terminal performs neighboring cell measurement based on at least one reference point information and a distance threshold corresponding to each reference point information.
  • the terminal determines whether to measure the frequency associated with the reference point information based on the priority of the frequency and the distance between the terminal and the location indicated by the reference point information.
  • the reselection priority of the frequency associated with the reference point information and/or the distance threshold corresponding to the reference point information is higher than the frequency priority of the current serving cell, and the distance between the terminal and the location indicated by the reference point information is When the distance is less than or equal to the distance threshold, the frequency is measured.
  • the terminal measures the frequency in the following three situations:
  • the frequency associated with the reference point information has priority
  • the frequency of the serving cell where the terminal is currently located also has priority. If the reselection priority of the frequency associated with the reference point information is higher than that of the current serving cell, Frequency priority means that the frequency associated with the measurement reference point information has a high priority. Since the distance between the terminal and the reference point needs to be considered to determine whether to measure the frequency, the distance between the terminal and the location indicated by the reference point information is If it is less than or equal to the distance threshold, measure the frequency associated with the reference point information.
  • the terminal if the distance between the terminal and the location indicated by the reference point information is less than or equal to the distance threshold, it means that the terminal is located within the coverage of the neighboring cell indicated by the reference point information. Since the frequency associated with the reference point information has a high priority, and The terminal is also located within the coverage of the neighboring cell indicated by the reference point information, so the terminal can measure the frequency associated with the reference point information.
  • the frequency associated with the distance threshold corresponding to the reference point information has priority
  • the frequency of the serving cell where the terminal is currently located also has priority. If the frequency associated with the distance threshold corresponding to the reference point information is reselected, The priority is higher than the frequency priority of the current serving cell, which means that the frequency associated with the distance threshold corresponding to the measurement reference point information has a higher priority. Since the distance between the terminal and the reference point needs to be considered to determine whether to measure the frequency, so in When the distance between the terminal and the position indicated by the reference point information is less than or equal to the distance threshold, measure the frequency associated with the distance threshold corresponding to the reference point information.
  • the terminal if the distance between the terminal and the location indicated by the reference point information is less than or equal to the distance threshold, it means that the terminal is located within the coverage of the neighboring cell indicated by the reference point information. Due to the priority of the frequency associated with the distance threshold corresponding to the reference point information, The level is high, and the terminal is also located within the coverage of the neighboring cell indicated by the reference point information, so the terminal can measure the frequency associated with the distance threshold corresponding to the reference point information.
  • the reselection priority of the frequency associated with the reference point information and the distance threshold corresponding to the reference point information is higher than the frequency priority of the current serving cell, and the distance between the terminal and the location indicated by the reference point information is less than or equal to the distance Threshold case, measurement frequency.
  • the reference point information and the frequency associated with the distance threshold corresponding to the reference point information have priority, and the frequency of the serving cell where the terminal is currently located also has priority. If the reference point information and the frequency corresponding to the reference point information The reselection priority of the frequency associated with the distance threshold is higher than the frequency priority of the current serving cell, which means that the measurement reference point information and the frequency associated with the distance threshold corresponding to the reference point information have a higher priority, and because the terminal and reference point need to be considered Therefore, when the distance between the terminal and the position indicated by the reference point information is less than or equal to the distance threshold, measure the reference point information and the frequency associated with the distance threshold corresponding to the reference point information.
  • the terminal can measure the frequency associated with the reference point information and the distance threshold corresponding to the reference point information.
  • the embodiment of the present application provides a neighboring cell measurement method, which ensures the measurement of neighboring cells, and performs cell measurement based on reference point information and the distance threshold corresponding to the reference point information, avoiding unnecessary neighboring cell measurements and reducing costs.
  • Terminal power consumption when the terminal determines that the reselection priority of the frequency is higher than the frequency priority of the serving cell, and the distance between the terminal and the location indicated by the reference point information associated with the frequency is less than or equal to the distance threshold, the terminal measures the frequency , to prevent the situation where the frequency is still measured when the distance between the terminal and the neighboring cell corresponding to the frequency is greater than the distance threshold, thereby saving terminal measurement resources.
  • the embodiment of the present application takes the terminal measuring the frequency associated with the reference point as an example. In other embodiments, there are cases where the terminal does not measure the frequency.
  • the reselection priority of the terminal in the frequency associated with the reference point information and/or the distance threshold corresponding to the reference point information is higher than the frequency priority of the current serving cell, and the distance between the terminal and the location indicated by the reference point information If it is greater than the distance threshold, the frequency will not be measured.
  • the situations in which the terminal does not measure the frequency associated with the reference point information include the following three situations:
  • the frequency associated with the reference point information has priority
  • the frequency of the serving cell where the terminal is currently located also has priority. If the reselection priority of the frequency associated with the reference point information is higher than that of the current serving cell, Frequency priority means that the frequency associated with the measurement reference point information has a high priority. Since the distance between the terminal and the reference point needs to be considered to determine whether to measure the frequency, the distance between the terminal and the location indicated by the reference point information is If it is greater than the distance threshold, the frequency associated with the reference point information will not be measured.
  • the terminal if the distance between the terminal and the location indicated by the reference point information is greater than the distance threshold, it means that the terminal is outside the coverage of the neighboring cell indicated by the reference point information. Even if the frequency associated with the reference point information has a high priority, the terminal It is located outside the coverage of the neighboring cell indicated by the reference point information, so the terminal does not measure the frequency associated with the reference point information.
  • the frequency associated with the distance threshold corresponding to the reference point information has priority
  • the frequency of the serving cell where the terminal is currently located also has priority. If the frequency associated with the distance threshold corresponding to the reference point information is reselected, The priority is higher than the frequency priority of the current serving cell, which means that the frequency associated with the distance threshold corresponding to the measurement reference point information has a higher priority. Since the distance between the terminal and the reference point needs to be considered to determine whether to measure the frequency, so in When the distance between the terminal and the position indicated by the reference point information is greater than the distance threshold, the frequency associated with the distance threshold corresponding to the reference point information is not measured.
  • the terminal if the distance between the terminal and the location indicated by the reference point information is greater than the distance threshold, it means that the terminal is outside the coverage of the neighboring cell indicated by the reference point information, even if the priority of the frequency associated with the distance threshold corresponding to the reference point information High, but the terminal is located outside the coverage of the neighboring cell indicated by the reference point information, so the terminal does not measure the frequency associated with the distance threshold corresponding to the reference point information.
  • the reselection priority of the frequency associated with the reference point information and the distance threshold corresponding to the reference point information is higher than the frequency priority of the current serving cell, and the distance between the terminal and the location indicated by the reference point information is greater than the distance threshold case, frequency is not measured.
  • the reference point information and the frequency associated with the distance threshold corresponding to the reference point information have priority, and the frequency of the serving cell where the terminal is currently located also has priority. If the reference point information and the frequency corresponding to the reference point information The reselection priority of the frequency associated with the distance threshold is higher than the frequency priority of the current serving cell, which means that the measurement reference point information and the frequency associated with the distance threshold corresponding to the reference point information have a higher priority, and because the terminal and reference point need to be considered Therefore, when the distance between the terminal and the position indicated by the reference point information is greater than the distance threshold, the frequency associated with the reference point information and the distance threshold corresponding to the reference point information is not measured.
  • the terminal does not measure the frequency associated with the reference point information and the distance threshold corresponding to the reference point information.
  • the terminal when the terminal determines that the reselection priority of the frequency is higher than the frequency priority of the serving cell, and the distance between the terminal and the location indicated by the reference point information associated with the frequency is greater than the distance threshold , the terminal does not measure this frequency, preventing the situation where the distance between the terminal and the neighboring cell corresponding to the frequency is greater than the distance threshold and still measuring the frequency, and saving terminal measurement resources.
  • This application also provides a neighboring cell measurement method.
  • the terminal performs neighboring cell measurement based on at least one reference point information and a distance threshold corresponding to each reference point information.
  • One frequency is associated with multiple reference point information, and the terminal still determines whether to measure the frequency associated with the reference point information based on the priority of the frequency and the distance between the terminal and the location indicated by the reference point information.
  • each reference point information indicates at least one neighboring cell
  • the terminal associates multiple reference point information and/or distance thresholds corresponding to the multiple reference point information at the frequency, the frequency reselection priority is higher than the frequency priority of the current serving cell, and the multiple reference point information When the distance between the position corresponding to at least one reference point information and the terminal is less than or equal to the distance threshold corresponding to the reference point information, the measurement frequency is measured.
  • the situations in which the terminal measures the frequency associated with the reference point information include the following three situations:
  • Multiple reference point information is associated with a frequency, and the reselection priority of this frequency is higher than the frequency priority of the current serving cell, and there is at least one location corresponding to the reference point information in the multiple reference point information between the terminal and the terminal.
  • the frequency is measured.
  • frequencies associated with multiple reference point information have priorities, and the frequency of the serving cell where the terminal is currently located also has priority. If the reselection priority of the frequency associated with multiple reference point information is Higher than the frequency priority of the current serving cell, it means that the priority of measuring the frequency is high. Since the distance between the terminal and the reference point needs to be considered to determine whether to measure the frequency, if there is at least one reference point in the multiple reference point information, The distance between the position corresponding to the information and the terminal is less than or equal to the distance threshold corresponding to at least one configured reference point information, and the frequency associated with the reference point information is measured.
  • the terminal if the distance between the terminal and the location indicated by the reference point information is less than or equal to the distance threshold, it means that the terminal is located within the coverage of the neighboring cell indicated by the reference point information. Since the priority of this frequency is high, and the terminal is also located in multiple It is within the coverage range of the neighboring cell indicated by at least one of the reference point information, so the terminal can measure the frequency.
  • reference point information 1, reference point information 2, and reference point information 3 are all associated with frequency 1
  • the distance thresholds corresponding to reference point information 1, reference point information 2, and reference point information 3 are all 50 meters
  • the terminal is The distance between the location indicated by point information 1 is 40 meters, the distance between the terminal and the location indicated by reference point information 2 is 70 meters, and the distance between the terminal and the location indicated by reference point information 3 is 60 meters, then it can It is determined that the distance between the position indicated by reference point information 1 in reference point information 1, reference point information 2 and reference point information 3 and the terminal is less than 50 meters, so the terminal can measure frequency 1.
  • the distance threshold corresponding to multiple reference point information is associated with the frequency.
  • the reselection priority of this frequency is higher than the frequency priority of the current serving cell, and there is at least one reference point information in the multiple reference point information that corresponds to the position of the reference point information.
  • the frequency is measured.
  • the frequency associated with the distance threshold corresponding to multiple reference point information has priority, and the frequency of the serving cell where the terminal is currently located also has priority. If the distance threshold corresponding to multiple reference point information If the reselection priority of the associated frequency is higher than the frequency priority of the current serving cell, it means that the priority of measuring this frequency is high. Since the distance between the terminal and the reference point needs to be considered to determine whether to measure the frequency, if there are multiple references The distance between the position corresponding to at least one reference point information in the point information and the terminal is less than or equal to the configured distance threshold corresponding to at least one reference point information, and the frequency associated with the reference point information is measured.
  • the terminal if the distance between the terminal and the location indicated by the reference point information is less than or equal to the distance threshold, it means that the terminal is located within the coverage of the neighboring cell indicated by the reference point information. Since the priority of this frequency is high, and the terminal is also located in multiple It is within the coverage range of the neighboring cell indicated by at least one of the reference point information, so the terminal can measure the frequency.
  • distance threshold 1 corresponding to reference point information 1, distance threshold 2 corresponding to reference point information 2, and distance threshold 3 corresponding to reference point information 3 are all associated with frequency 1
  • distance threshold 1 corresponding to reference point information 1 is 50 meters
  • the distance between the terminal and the position indicated by reference point information 1 is 40 meters
  • the distance between the terminal and the position indicated by reference point information 2 is 70 meters
  • the distance between the terminal and the position indicated by reference point information 3 is 70 meters.
  • the distance is 60 meters, then it can be determined that the distance between the position indicated by reference point information 1 in reference point information 1, reference point information 2 and reference point information 3 and the terminal is less than 50 meters, so the terminal can measure frequency 1 .
  • the frequency is associated with multiple reference point information and the distance threshold corresponding to the multiple reference point information.
  • the reselection priority of this frequency is higher than the frequency priority of the current serving cell, and there is at least one reference in the multiple reference point information.
  • the frequency is measured.
  • the frequency associated with multiple reference point information and the distance threshold corresponding to the multiple reference point information has priority, and the frequency of the serving cell where the terminal is currently located also has priority. If it is associated with multiple reference point information, If the reselection priority of the frequency associated with the distance threshold corresponding to point information and multiple reference point information is higher than the frequency priority of the current serving cell, it means that the priority of measuring this frequency is high. Since the distance between the terminal and the reference point needs to be considered, distance to determine whether to measure the frequency. If the distance between the position corresponding to at least one reference point information in the multiple reference point information and the terminal is less than or equal to the configured distance threshold corresponding to at least one reference point information, measure the reference point. Frequency of information association.
  • the terminal if the distance between the terminal and the location indicated by the reference point information is less than or equal to the distance threshold, it means that the terminal is located within the coverage of the neighboring cell indicated by the reference point information. Since the priority of this frequency is high, and the terminal is also located in multiple It is within the coverage range of the neighboring cell indicated by at least one of the reference point information, so the terminal can measure the frequency.
  • the embodiment of the present application provides a neighboring cell measurement method, which ensures the measurement of neighboring cells, and performs cell measurement based on reference point information and the distance threshold corresponding to the reference point information, avoiding unnecessary neighboring cell measurements and reducing costs.
  • Terminal power consumption Furthermore, the terminal determines that the reselection priority of the frequency is higher than the frequency priority of the serving cell, and the distance between the locations indicated by at least one reference point information among multiple reference point information associated with the frequency is less than or equal to the distance threshold. In the case of , the terminal measures the frequency to prevent the frequency from still being measured when the distance between the terminal and the reference point corresponding to the frequency is greater than the distance threshold, thus saving terminal measurement resources.
  • the embodiment of the present application takes the terminal measuring the frequency associated with the reference point as an example. In other embodiments, there are cases where the terminal does not measure the frequency.
  • the frequency is associated with multiple reference point information and/or the distance threshold corresponding to the multiple reference point information, the frequency reselection priority is higher than the frequency priority of the current serving cell, and each of the multiple reference point information When the distance between the position corresponding to the reference point information and the terminal is greater than the distance threshold corresponding to the reference point information, the frequency is not measured.
  • the situations in which the terminal does not measure the frequency associated with the reference point information include the following three situations:
  • Multiple reference point information is associated with a frequency.
  • the reselection priority of this frequency is higher than the frequency priority of the current serving cell, and the distance between the location corresponding to each reference point information in the multiple reference point information and the terminal is If it is greater than the distance threshold corresponding to the reference point information, the frequency will not be measured.
  • frequencies associated with multiple reference point information have priorities, and the frequency of the serving cell where the terminal is currently located also has priority. If the reselection priority of the frequency associated with multiple reference point information is Higher than the frequency priority of the current serving cell, it means that the priority of measuring this frequency is high. Since the distance between the terminal and the reference point needs to be considered to determine whether to measure the frequency, if each reference point in the multiple reference point information The distance between the position corresponding to the point information and the terminal is greater than the distance threshold corresponding to the configured reference point information, and the frequency associated with the reference point information is not measured.
  • the terminal does not measure this frequency.
  • reference point information 1, reference point information 2, and reference point information 3 are all associated with frequency 1
  • the distance thresholds corresponding to reference point information 1, reference point information 2, and reference point information 3 are all 50 meters
  • the terminal is The distance between the position indicated by point information 1 is 55 meters, the distance between the terminal and the position indicated by reference point information 2 is 70 meters, and the distance between the terminal and the position indicated by reference point information 3 is 60 meters, then it can It is determined that the distance between the positions indicated by reference point information 1, reference point information 2 and reference point information 3 and the terminal are all greater than 50 meters, so the terminal does not measure frequency 1.
  • the distance threshold corresponding to multiple reference point information is associated with the frequency.
  • the reselection priority of this frequency is higher than the frequency priority of the current serving cell, and the location corresponding to each reference point information in the multiple reference point information is the same as the terminal. When the distance between them is greater than the distance threshold corresponding to the reference point information, the frequency is not measured.
  • the frequency associated with the distance threshold corresponding to multiple reference point information has priority, and the frequency of the serving cell where the terminal is currently located also has priority. If the distance threshold corresponding to multiple reference point information If the reselection priority of the associated frequency is higher than the frequency priority of the current serving cell, it means that the priority of measuring this frequency is high. Since the distance between the terminal and the reference point needs to be considered to determine whether to measure the frequency, if there are multiple references The distance between the position corresponding to each reference point information in the point information and the terminal is greater than the distance threshold corresponding to the configured reference point information, and the frequency associated with the reference point information is not measured.
  • the terminal does not measure this frequency.
  • the frequency is associated with multiple reference point information and the distance threshold corresponding to the multiple reference point information.
  • the reselection priority of this frequency is higher than the frequency priority of the current serving cell, and each reference point in the multiple reference point information When the distance between the position corresponding to the information and the terminal is greater than the distance threshold corresponding to the reference point information, the frequency is not measured.
  • the frequency associated with multiple reference point information and the distance threshold corresponding to the multiple reference point information has priority, and the frequency of the serving cell where the terminal is currently located also has priority. If it is associated with multiple reference point information, If the reselection priority of the frequency associated with the distance threshold corresponding to point information and multiple reference point information is higher than the frequency priority of the current serving cell, it means that the priority of measuring this frequency is high. Since the distance between the terminal and the reference point needs to be considered, distance to determine whether to measure the frequency. If the distance between the position corresponding to each reference point information in the multiple reference point information and the terminal is greater than the distance threshold corresponding to the configured reference point information, the association of the reference point information will not be measured. Frequency of.
  • the terminal does not measure this frequency.
  • the terminal determines that the reselection priority of the frequency is higher than the frequency priority of the serving cell, and there is at least one reference point information indication in the multiple reference point information associated with the frequency.
  • the terminal measures the frequency to prevent the terminal from measuring the frequency even if the distance between the terminal and the neighboring cell corresponding to the frequency is greater than the distance threshold, thus saving terminal measurement resources.
  • This application also provides a neighboring cell measurement method.
  • the terminal performs neighboring cell measurement based on at least one reference point information and a distance threshold corresponding to each reference point information.
  • the terminal determines whether to measure the frequency associated with the reference point information based on the priority of the frequency and the distance between the terminal and the location indicated by the reference point information.
  • the reselection priority of the frequency associated with the reference point information and/or the distance threshold corresponding to the reference point information is the same as the frequency priority of the current serving cell, the signal quality of the current serving cell meets the quality conditions, and the terminal When the distance between the positions corresponding to the reference point information is less than or equal to the distance threshold corresponding to the reference point information, the frequency is measured.
  • the terminal measurement frequency includes the following three situations:
  • the reselection priority of the frequency associated with the reference point information is the same as the frequency priority of the current serving cell, the signal quality of the current serving cell meets the quality conditions, and the distance between the terminal and the location corresponding to the reference point information is less than or When equal to the distance threshold corresponding to the reference point information, the frequency is measured.
  • the quality condition is used to indicate the signal quality requirements of the serving cell.
  • the signal quality of the serving cell meets the quality condition, it means that the terminal can communicate through the serving cell.
  • the quality condition is that the cell selection level of the serving cell is greater than a preset level, and the cell selection quality of the serving cell is greater than the preset quality.
  • the preset level and preset quality are agreed upon by a protocol or preconfigured by a network device, which are not limited by the embodiments of this application.
  • the frequency associated with the reference point information has priority, and the frequency of the serving cell where the terminal is currently located also has priority. If the reselection priority of the frequency associated with the reference point information is the same as the frequency of the current serving cell, If the priorities are the same and the signal quality of the current serving cell meets the quality conditions, it means that the serving cell where the terminal is currently located meets the communication conditions. Since there is also a certain distance between the terminal and the reference point, the distance between the terminal and the reference point needs to be considered. To determine whether to measure the frequency associated with the reference point information, therefore when the distance between the terminal and the location indicated by the reference point information is less than or equal to the distance threshold, measure the frequency associated with the reference point information.
  • the terminal if the distance between the terminal and the location indicated by the reference point information is less than or equal to the distance threshold, it means that the terminal is located within the coverage of the neighboring cell indicated by the reference point information, even if the priority of the frequency associated with the reference point information is different from the current service
  • the frequency priorities of the cells are the same, and the signal quality of the current serving cell meets the quality conditions.
  • the neighboring cell indicated by the reference point information is a TN network
  • the terminal may preferentially camp on the TN network, so the terminal is associated with the reference point information. frequency is measured.
  • the reselection priority of the frequency associated with the distance threshold corresponding to the reference point information is the same as the frequency priority of the current serving cell.
  • the signal quality of the current serving cell meets the quality conditions, and the distance between the terminal and the location corresponding to the reference point information is the same.
  • the distance is less than or equal to the distance threshold corresponding to the reference point information, measure the frequency.
  • the quality condition is used to indicate the signal quality requirements of the serving cell.
  • the signal quality of the serving cell meets the quality condition, it means that the terminal can communicate through the serving cell.
  • the quality condition is that the cell selection level of the serving cell is greater than a preset level, and the cell selection quality of the serving cell is greater than the preset quality.
  • the preset level and preset quality are agreed upon by a protocol or preconfigured by a network device, which are not limited by the embodiments of this application.
  • the frequency associated with the distance threshold corresponding to the reference point information has priority, and the frequency of the serving cell where the terminal is currently located also has priority. If the frequency associated with the distance threshold corresponding to the reference point information is reselected, The priority is the same as the frequency priority of the current serving cell, and the signal quality of the current serving cell meets the quality conditions, which means that the serving cell where the terminal is currently located meets the communication conditions. Since there is also a certain distance between the terminal and the reference point, it is necessary The distance between the terminal and the reference point is considered to determine whether to measure the frequency associated with the distance threshold corresponding to the reference point information. Therefore, when the distance between the terminal and the position indicated by the reference point information is less than or equal to the distance threshold, the reference point is measured. The frequency associated with the distance threshold corresponding to the point information.
  • the terminal if the distance between the terminal and the location indicated by the reference point information is less than or equal to the distance threshold, it means that the terminal is located within the coverage of the neighboring cell indicated by the reference point information, even if the frequency associated with the distance threshold corresponding to the reference point information has priority.
  • the level is the same as the frequency priority of the current serving cell, and the signal quality of the current serving cell meets the quality conditions, but the terminal is located within the coverage of the neighboring cell indicated by the reference point information.
  • the neighboring cell indicated by the reference point information is a TN network
  • the terminal may preferentially camp on the TN network, so the terminal measures the frequency associated with the distance threshold corresponding to the reference point information.
  • the reselection priority of the frequency associated with the reference point information and the distance threshold corresponding to the reference point information is the same as the frequency priority of the current serving cell.
  • the signal quality of the current serving cell meets the quality conditions, and the terminal corresponds to the reference point information.
  • the frequency is measured.
  • the quality condition is used to indicate the signal quality requirements of the serving cell.
  • the signal quality of the serving cell meets the quality condition, it means that the terminal can communicate through the serving cell.
  • the quality condition is that the cell selection level of the serving cell is greater than a preset level, and the cell selection quality of the serving cell is greater than the preset quality.
  • the preset level and preset quality are agreed upon by a protocol or preconfigured by a network device, which are not limited by the embodiments of this application.
  • the reference point information and the frequency associated with the distance threshold corresponding to the reference point information have priority, and the frequency of the serving cell where the terminal is currently located also has priority. If the reference point information and the frequency corresponding to the reference point information The reselection priority of the frequency associated with the distance threshold is the same as the frequency priority of the current serving cell, and the signal quality of the current serving cell meets the quality conditions, which means that the serving cell where the terminal is currently located meets the communication conditions, and because the terminal and the reference point There is also a certain distance between the terminal and the reference point, so the distance between the terminal and the reference point needs to be considered to determine whether to measure the reference point information and the frequency associated with the distance threshold corresponding to the reference point information. Therefore, the distance between the terminal and the position indicated by the reference point information If it is less than or equal to the distance threshold, measure the frequency associated with the reference point information and the distance threshold corresponding to the reference point information.
  • the terminal if the distance between the terminal and the location indicated by the reference point information is less than or equal to the distance threshold, it means that the terminal is located within the coverage of the neighboring cell indicated by the reference point information, even if the reference point information is associated with the distance threshold corresponding to the reference point information.
  • the priority of the frequency is the same as the frequency priority of the current serving cell, and the signal quality of the current serving cell meets the quality conditions, but the terminal is located within the coverage of the neighboring cell indicated by the reference point information. If the neighboring cell indicated by the reference point information The cell is a TN network, and the terminal may preferentially camp on the TN network. Therefore, the terminal measures the frequency associated with the reference point information and the distance threshold corresponding to the reference point information.
  • the embodiment of the present application provides a neighboring cell measurement method, which ensures the measurement of neighboring cells, and performs cell measurement based on reference point information and the distance threshold corresponding to the reference point information, thereby improving the accuracy of cell measurement. Moreover, when the terminal determines that the reselection priority of the frequency is the same as the frequency priority of the serving cell, and the signal quality of the serving cell meets the quality conditions, if the distance between the terminal and the position indicated by the reference point information associated with the frequency If the frequency is less than or equal to the distance threshold, the terminal will still measure the frequency, which improves the efficiency of the terminal in measuring neighboring cells and reselecting to neighboring cells.
  • the embodiment of the present application takes the terminal measuring the frequency associated with the reference point as an example. In other embodiments, there are cases where the terminal does not measure the frequency.
  • the reselection priority of the frequency associated with the reference point information and/or the distance threshold corresponding to the reference point information is the same as the frequency priority of the current serving cell, the signal quality of the current serving cell meets the quality condition, and the terminal and the reference When the distance between the positions corresponding to the point information is greater than the distance threshold corresponding to the reference point information, the frequency is not measured.
  • the situations in which the terminal does not measure the frequency include the following three situations:
  • the reselection priority of the frequency associated with the reference point information is the same as the frequency priority of the current serving cell.
  • the signal quality of the current serving cell meets the quality conditions, and the distance between the terminal and the location corresponding to the reference point information is greater than the reference point information. In the case of distance threshold corresponding to point information, the frequency is not measured.
  • the quality condition is used to indicate the signal quality requirements of the serving cell.
  • the signal quality of the serving cell meets the quality condition, it means that the terminal can communicate through the serving cell.
  • the quality condition is that the cell selection level of the serving cell is greater than a preset level, and the cell selection quality of the serving cell is greater than the preset quality.
  • the preset level and preset quality are agreed upon by a protocol or preconfigured by a network device, which are not limited by the embodiments of this application.
  • the frequency associated with the reference point information has priority, and the frequency of the serving cell where the terminal is currently located also has priority. If the reselection priority of the frequency associated with the reference point information is the same as the frequency of the current serving cell, If the priorities are the same and the signal quality of the current serving cell meets the quality conditions, it means that the serving cell where the terminal is currently located meets the communication conditions. Since there is also a certain distance between the terminal and the reference point, the distance between the terminal and the reference point needs to be considered. To determine whether to measure the frequency associated with the reference point information, when the distance between the terminal and the location indicated by the reference point information is greater than the distance threshold, the frequency associated with the reference point information is not measured.
  • the distance between the terminal and the location indicated by the reference point information is greater than the distance threshold, it means that the terminal is outside the coverage of the neighboring cell indicated by the reference point information, even if the priority of the frequency associated with the reference point information is different from that of the current serving cell. have the same frequency priority, and the signal quality of the current serving cell meets the quality conditions, but the terminal is located outside the coverage of the neighboring cell indicated by the reference point information, so the terminal does not measure the frequency associated with the reference point information.
  • the reselection priority of the frequency associated with the distance threshold corresponding to the reference point information is the same as the frequency priority of the current serving cell.
  • the signal quality of the current serving cell meets the quality conditions, and the distance between the terminal and the location corresponding to the reference point information is the same.
  • the frequency is not measured.
  • the quality condition is used to indicate the signal quality requirements of the serving cell.
  • the signal quality of the serving cell meets the quality condition, it means that the terminal can communicate through the serving cell.
  • the quality condition is that the cell selection level of the serving cell is greater than a preset level, and the cell selection quality of the serving cell is greater than the preset quality.
  • the preset level and preset quality are agreed upon by a protocol or preconfigured by a network device, which are not limited by the embodiments of this application.
  • the frequency associated with the distance threshold corresponding to the reference point information has priority, and the frequency of the serving cell where the terminal is currently located also has priority. If the frequency associated with the distance threshold corresponding to the reference point information is reselected, The priority is the same as the frequency priority of the current serving cell, and the signal quality of the current serving cell meets the quality conditions, which means that the serving cell where the terminal is currently located meets the communication conditions. Since there is also a certain distance between the terminal and the reference point, it is necessary The distance between the terminal and the reference point is considered to determine whether to measure the frequency associated with the distance threshold corresponding to the reference point information. When the distance between the terminal and the position indicated by the reference point information is greater than the distance threshold, the reference point information is not measured. The frequency associated with the corresponding distance threshold.
  • the distance between the terminal and the location indicated by the reference point information is greater than the distance threshold, it means that the terminal is outside the coverage of the neighboring cell indicated by the reference point information, even if the priority of the frequency associated with the distance threshold corresponding to the reference point information
  • the frequency priority of the current serving cell is the same, and the signal quality of the current serving cell meets the quality conditions, but the terminal is located outside the coverage of the neighboring cell indicated by the reference point information, so the terminal is not associated with the distance threshold corresponding to the reference point information. Frequency is measured.
  • the reselection priority of the frequency associated with the reference point information and the distance threshold corresponding to the reference point information is the same as the frequency priority of the current serving cell.
  • the signal quality of the current serving cell meets the quality conditions, and the terminal corresponds to the reference point information.
  • the frequency is not measured.
  • the quality condition is used to indicate the signal quality requirements of the serving cell.
  • the signal quality of the serving cell meets the quality condition, it means that the terminal can communicate through the serving cell.
  • the quality condition is that the cell selection level of the serving cell is greater than a preset level, and the cell selection quality of the serving cell is greater than the preset quality.
  • the preset level and preset quality are agreed upon by a protocol or preconfigured by a network device, which are not limited by the embodiments of this application.
  • the reference point information and the frequency associated with the distance threshold corresponding to the reference point information have priority, and the frequency of the serving cell where the terminal is currently located also has priority. If the reference point information and the frequency corresponding to the reference point information The reselection priority of the frequency associated with the distance threshold is the same as the frequency priority of the current serving cell, and the signal quality of the current serving cell meets the quality conditions, which means that the serving cell where the terminal is currently located meets the communication conditions, and because the terminal and the reference point There is also a certain distance between the terminal and the reference point, you need to consider the distance between the terminal and the reference point to determine whether to measure the reference point information and the frequency associated with the distance threshold corresponding to the reference point information. The distance between the terminal and the position indicated by the reference point information is greater than In the case of a distance threshold, the frequency associated with the reference point information and the distance threshold corresponding to the reference point information is not measured.
  • the distance between the terminal and the location indicated by the reference point information is greater than the distance threshold, it means that the terminal is outside the coverage of the neighboring cell indicated by the reference point information, even if the reference point information is associated with the distance threshold corresponding to the reference point information.
  • the frequency priority is the same as the frequency priority of the current serving cell, and the signal quality of the current serving cell meets the quality conditions, but the terminal is located outside the coverage of the neighboring cell indicated by the reference point information, so the terminal does not refer to the reference point information and reference
  • the frequency associated with the distance threshold corresponding to the point information is measured.
  • the terminal when the terminal determines that the reselection priority of the frequency is the same as the frequency priority of the serving cell, and the signal quality of the serving cell meets the quality conditions, if the reference point information of the terminal associated with the frequency If the distance between the indicated locations is greater than the distance threshold, the terminal will not measure the frequency, which improves the accuracy of neighboring cell measurements by the terminal.
  • This application also provides a neighboring cell measurement method.
  • the terminal performs neighboring cell measurement based on at least one reference point information and a distance threshold corresponding to each reference point information.
  • one frequency is associated with multiple reference point information, and the terminal still determines whether to measure the frequency associated with the reference point information based on the priority of the frequency, the signal quality of the serving cell, and the distance between the terminal and the location indicated by the reference point information.
  • each reference point information indicates at least one neighboring cell
  • the terminal associates multiple reference point information and/or distance thresholds corresponding to the multiple reference point information at the frequency.
  • the frequency reselection priority is the same as the frequency priority of the current serving cell.
  • the signal quality of the current serving cell is The frequency is measured when the quality conditions are met and the distance between the position corresponding to at least one of the multiple reference point information and the terminal is less than or equal to the distance threshold corresponding to the reference point information.
  • the situations in which the terminal measures the frequency associated with the reference point information include the following three situations:
  • the frequency reselection priority is the same as the frequency priority of the current serving cell.
  • the signal quality of the current serving cell meets the quality conditions, and there is at least one reference point in the multiple reference point information.
  • the frequency is measured.
  • the quality condition is used to indicate the signal quality requirements of the serving cell.
  • the signal quality of the serving cell meets the quality condition, it means that the terminal can communicate through the serving cell.
  • the quality condition is that the cell selection level of the serving cell is greater than a preset level, and the cell selection quality of the serving cell is greater than the preset quality.
  • the preset level and preset quality are agreed upon by a protocol or preconfigured by a network device, which are not limited by the embodiments of this application.
  • frequencies associated with multiple reference point information have priorities, and the frequency of the serving cell where the terminal is currently located also has priority. If the reselection priority of the frequency associated with multiple reference point information is The frequency priority of the current serving cell is the same, and the signal quality of the current serving cell meets the quality conditions. Since there is also a certain distance between the terminal and the reference point, the distance between the terminal and the reference point needs to be considered to determine whether to measure the frequency. Therefore, if the distance between the position corresponding to at least one reference point information in the multiple reference point information and the terminal is less than or equal to the distance threshold corresponding to the configured reference point information, the frequency is measured.
  • the distance between the terminal and the location indicated by the reference point information is less than or equal to the distance threshold, it means that the terminal is located within the coverage of the neighboring cell indicated by the reference point information, even if the frequency priority is the same as the frequency priority of the serving cell. are the same, and the signal quality of the current serving cell meets the quality conditions, but the terminal is still within the coverage of a neighboring cell indicated by at least one of the multiple reference point information, if the neighboring cell indicated by the reference point information is a TN network, The terminal may preferentially camp on the TN network, so the terminal can perform measurements on this frequency.
  • reference point information 1, reference point information 2, and reference point information 3 are all associated with frequency 1
  • the distance thresholds corresponding to reference point information 1, reference point information 2, and reference point information 3 are all 50 meters
  • the terminal is The distance between the location indicated by point information 1 is 40 meters, the distance between the terminal and the location indicated by reference point information 2 is 70 meters, and the distance between the terminal and the location indicated by reference point information 3 is 60 meters, then it can It is determined that the distance between the position indicated by reference point information 1 in reference point information 1, reference point information 2 and reference point information 3 and the terminal is less than 50 meters, so the terminal can measure frequency 1.
  • the frequency is associated with the distance threshold corresponding to multiple reference point information, the frequency reselection priority is the same as the frequency priority of the current serving cell, the signal quality of the current serving cell meets the quality conditions, and multiple reference point information exists When the distance between the position corresponding to at least one reference point information and the terminal is less than or equal to the distance threshold corresponding to the reference point information, the frequency is measured.
  • the quality condition is used to indicate the signal quality requirements of the serving cell.
  • the signal quality of the serving cell meets the quality condition, it means that the terminal can communicate through the serving cell.
  • the quality condition is that the cell selection level of the serving cell is greater than a preset level, and the cell selection quality of the serving cell is greater than the preset quality.
  • the preset level and preset quality are agreed upon by a protocol or preconfigured by a network device, which are not limited by the embodiments of this application.
  • the frequency associated with the distance threshold corresponding to multiple reference point information has priority, and the frequency of the serving cell where the terminal is currently located also has priority. If the distance threshold corresponding to multiple reference point information The reselection priority of the associated frequency is the same as the frequency priority of the current serving cell, and the signal quality of the current serving cell meets the quality conditions. Since there is also a certain distance between the terminal and the reference point, the distance between the terminal and the reference point needs to be considered. The distance is used to determine whether to measure the frequency. Therefore, if the distance between the position corresponding to at least one reference point information in multiple reference point information and the terminal is less than or equal to the distance threshold corresponding to the configured reference point information, the frequency is measured.
  • the distance between the terminal and the location indicated by the reference point information is less than or equal to the distance threshold, it means that the terminal is located within the coverage of the neighboring cell indicated by the reference point information, even if the frequency priority is the same as the frequency priority of the serving cell. are the same, and the signal quality of the current serving cell meets the quality conditions, but the terminal is still within the coverage of a neighboring cell indicated by at least one of the multiple reference point information, if the neighboring cell indicated by the reference point information is a TN network, The terminal may preferentially camp on the TN network, so the terminal can perform measurements on this frequency.
  • the frequency is associated with multiple reference point information and the distance threshold corresponding to the multiple reference point information.
  • the frequency reselection priority is the same as the frequency priority of the current serving cell.
  • the signal quality of the current serving cell meets the quality conditions, and multiple When the distance between the position corresponding to at least one reference point information and the terminal is less than or equal to the distance threshold corresponding to the reference point information, the measurement frequency is measured.
  • the quality condition is used to indicate the signal quality requirements of the serving cell.
  • the signal quality of the serving cell meets the quality condition, it means that the terminal can communicate through the serving cell.
  • the quality condition is that the cell selection level of the serving cell is greater than a preset level, and the cell selection quality of the serving cell is greater than the preset quality.
  • the preset level and preset quality are agreed upon by a protocol or preconfigured by a network device, which are not limited by the embodiments of this application.
  • the frequency associated with the multiple reference point information and the distance threshold corresponding to the multiple reference point information has priority
  • the frequency of the serving cell where the terminal is currently located also has priority.
  • the reselection priority of the frequency associated with the distance threshold corresponding to point information and multiple reference point information is the same as the frequency priority of the current serving cell, and the signal quality of the current serving cell meets the quality conditions. Since there is also a certain distance between the terminal and the reference point distance, you need to consider the distance between the terminal and the reference point to determine whether to measure the frequency. Therefore, if there is at least one reference point information in multiple reference point information, the distance between the position corresponding to the reference point information and the terminal is less than or equal to the configured reference The distance threshold corresponding to the point information, and the frequency is measured.
  • the distance between the terminal and the location indicated by the reference point information is less than or equal to the distance threshold, it means that the terminal is located within the coverage of the neighboring cell indicated by the reference point information, even if the frequency priority is the same as the frequency priority of the serving cell. are the same, and the signal quality of the current serving cell meets the quality conditions, but the terminal is still within the coverage of a neighboring cell indicated by at least one of the multiple reference point information, if the neighboring cell indicated by the reference point information is a TN network, The terminal may preferentially camp on the TN network, so the terminal can perform measurements on this frequency.
  • the embodiment of the present application provides a neighboring cell measurement method, which ensures the measurement of neighboring cells, and performs cell measurement based on reference point information and the distance threshold corresponding to the reference point information, thereby improving the accuracy of cell measurement. Moreover, when the terminal determines that the reselection priority of the frequency is the same as the frequency priority of the serving cell, and the signal quality of the serving cell meets the quality conditions, if the distance between the terminal and the position indicated by the reference point information associated with the frequency If the frequency is less than or equal to the distance threshold, the terminal will still measure the frequency, which improves the efficiency of the terminal in measuring neighboring cells and reselecting to neighboring cells.
  • the embodiment of the present application takes the terminal measuring the frequency associated with the reference point as an example. In other embodiments, there are cases where the terminal does not measure the frequency.
  • multiple reference point information and/or distance thresholds corresponding to the multiple reference point information are associated with the frequency, the frequency reselection priority is the same as the frequency priority of the current serving cell, and the signal quality of the current serving cell meets the quality conditions , and when the distance between the position corresponding to each reference point information in the multiple reference point information and the terminal is greater than the distance threshold corresponding to the reference point information, the frequency is not measured.
  • the situations in which the terminal does not measure the frequency associated with the reference point information include the following three situations:
  • the frequency reselection priority is the same as the frequency priority of the current serving cell.
  • the signal quality of the current serving cell meets the quality conditions, and the information of each reference point in the multiple reference point information is When the distance between the corresponding position and the terminal is greater than the distance threshold corresponding to the reference point information, the frequency is not measured.
  • the quality condition is used to indicate the signal quality requirements of the serving cell.
  • the signal quality of the serving cell meets the quality condition, it means that the terminal can communicate through the serving cell.
  • the quality condition is that the cell selection level of the serving cell is greater than a preset level, and the cell selection quality of the serving cell is greater than the preset quality.
  • the preset level and preset quality are agreed upon by a protocol or preconfigured by a network device, which are not limited by the embodiments of this application.
  • frequencies associated with multiple reference point information have priorities, and the frequency of the serving cell where the terminal is currently located also has priority. If the reselection priority of the frequency associated with multiple reference point information is The frequency priority of the current serving cell is the same, and the signal quality of the current serving cell meets the quality conditions. Since there is also a certain distance between the terminal and the reference point, the distance between the terminal and the reference point needs to be considered to determine whether to measure the frequency. Therefore, if the distance between the position corresponding to at least one reference point information in the multiple reference point information and the terminal is greater than the distance threshold corresponding to the configured reference point information, the frequency is not measured.
  • the distance between the terminal and the location indicated by the reference point information is greater than the distance threshold, it means that the terminal is outside the coverage of the neighboring cell indicated by the reference point information, because the priority of this frequency is the same as that of the serving cell.
  • the signal quality of the current serving cell meets the quality condition, and the terminal is also located outside the coverage of the neighboring cell indicated by at least one reference point information in the multiple reference point information, so the terminal may not measure the frequency.
  • reference point information 1, reference point information 2, and reference point information 3 are all associated with frequency 1
  • the distance thresholds corresponding to reference point information 1, reference point information 2, and reference point information 3 are all 50 meters
  • the terminal is The distance between the position indicated by point information 1 is 55 meters, the distance between the terminal and the position indicated by reference point information 2 is 70 meters, and the distance between the terminal and the position indicated by reference point information 3 is 60 meters, then it can It is determined that the distance between the positions indicated by reference point information 1, reference point information 2 and reference point information 3 and the terminal are all greater than 50 meters, so the terminal does not need to measure frequency 1.
  • the frequency is associated with the distance threshold corresponding to multiple reference point information, the frequency reselection priority is the same as the frequency priority of the current serving cell, the signal quality of the current serving cell meets the quality conditions, and each of the multiple reference point information When the distance between the position corresponding to the reference point information and the terminal is greater than the distance threshold corresponding to the reference point information, the frequency is not measured.
  • the quality condition is used to indicate the signal quality requirements of the serving cell.
  • the signal quality of the serving cell meets the quality condition, it means that the terminal can communicate through the serving cell.
  • the quality condition is that the cell selection level of the serving cell is greater than a preset level, and the cell selection quality of the serving cell is greater than the preset quality.
  • the preset level and preset quality are agreed upon by a protocol or preconfigured by a network device, which are not limited by the embodiments of this application.
  • the frequency associated with the distance threshold corresponding to multiple reference point information has priority, and the frequency of the serving cell where the terminal is currently located also has priority. If the distance threshold corresponding to multiple reference point information The reselection priority of the associated frequency is the same as the frequency priority of the current serving cell, and the signal quality of the current serving cell meets the quality conditions. Since there is also a certain distance between the terminal and the reference point, the distance between the terminal and the reference point needs to be considered. distance to determine whether to measure the frequency. Therefore, if the distance between the position corresponding to at least one reference point information in the multiple reference point information and the terminal is greater than the distance threshold corresponding to the configured reference point information, the frequency will not be measured.
  • the distance between the terminal and the location indicated by the reference point information is greater than the distance threshold, it means that the terminal is outside the coverage of the neighboring cell indicated by the reference point information, because the priority of this frequency is the same as that of the serving cell.
  • the signal quality of the current serving cell meets the quality condition, and the terminal is also located outside the coverage of the neighboring cell indicated by at least one reference point information in the multiple reference point information, so the terminal may not measure the frequency.
  • the frequency is associated with multiple reference point information and the distance threshold corresponding to the multiple reference point information.
  • the frequency reselection priority is the same as the frequency priority of the current serving cell.
  • the signal quality of the current serving cell meets the quality conditions, and multiple When the distance between the position corresponding to each reference point information in the reference point information and the terminal is greater than the distance threshold corresponding to the reference point information, the frequency is not measured.
  • the quality condition is used to indicate the signal quality requirements of the serving cell.
  • the signal quality of the serving cell meets the quality condition, it means that the terminal can communicate through the serving cell.
  • the quality condition is that the cell selection level of the serving cell is greater than a preset level, and the cell selection quality of the serving cell is greater than the preset quality.
  • the preset level and preset quality are agreed upon by a protocol or preconfigured by a network device, which are not limited by the embodiments of this application.
  • the frequency associated with the multiple reference point information and the distance threshold corresponding to the multiple reference point information has priority
  • the frequency of the serving cell where the terminal is currently located also has priority.
  • the reselection priority of the frequency associated with the distance threshold corresponding to point information and multiple reference point information is the same as the frequency priority of the current serving cell, and the signal quality of the current serving cell meets the quality conditions. Since there is also a certain distance between the terminal and the reference point distance, you need to consider the distance between the terminal and the reference point to determine whether to measure the frequency. Therefore, if there is at least one reference point information in multiple reference point information, the distance between the position corresponding to the reference point information and the terminal is greater than the configured reference point information. Corresponding distance threshold, this frequency is not measured.
  • the distance between the terminal and the location indicated by the reference point information is greater than the distance threshold, it means that the terminal is outside the coverage of the neighboring cell indicated by the reference point information, because the priority of this frequency is the same as that of the serving cell.
  • the signal quality of the current serving cell meets the quality condition, and the terminal is also located outside the coverage of the neighboring cell indicated by at least one reference point information in the multiple reference point information, so the terminal may not measure the frequency.
  • the terminal when the terminal determines that the reselection priority of the frequency is the same as the frequency priority of the serving cell, and the signal quality of the serving cell meets the quality conditions, if the reference point information of the terminal associated with the frequency If the distance between the indicated locations is greater than the distance threshold, the terminal will not measure the frequency, which improves the accuracy of neighboring cell measurements by the terminal.
  • Srxlev is the cell selection level
  • Squal is the cell selection quality
  • Qoffset temp is the cell offset.
  • Q rxlevmeas is RSRP (Reference Signal Receiving Power, reference signal receiving power).
  • Q qualmeas is RSRQ (Reference Singnal Received Quality, reference signal received quality).
  • Q rxlevmin is the minimum level required by the cell.
  • Q qualmin is the minimum quality level required by the community.
  • Q rxlevminoffset is the signal offset in Srxlev evaluation.
  • Q qualminoffset is the signal offset in Srxlev evaluation.
  • P compensation is the compensation level.
  • P compensation For the value of P compensation , for FR1 (Frequency Range1, frequency range 1), if the terminal supports the additional Pmax in NR-NS-PmaxList, if it exists, it is in SIB1 (System Information Block 1, system information block 1) , SIB2 (System Information Block 2, System Information Block 2) and SIB4 (System Information Block 4, System Information Block 4): Get the first maximum value of the difference between PEMAX1 and PPowerClass and 0, PPowerClass is the power level level , the first minimum value in PEMAX2 and PPowerClass, the second minimum value in PEMAX1 and PPowerClass, then obtain the first difference between the first minimum value and the second minimum value, and divide the value between the first maximum value and the first difference The difference is determined as P compensation ; if it does not exist, the maximum value among PEMAX1–PPowerClass and 0 is determined as P compensation .
  • SIB1 System Information Block 1, system information block 1
  • SIB2 System Information Block 2, System Information Block 2
  • SIB4 System Information Block 4, System Information
  • P compensation is set to 0.
  • PEMAX is the maximum power level that the terminal can use during uplink transmission. If the terminal supports the SUL (Supplementary Uplink) frequency of the cell, PEMAX1 and PEMAX2 respectively select the p-Max of the SUL and the NR-NS-PmaxList of the SUL (a maximum power) from the SUL in SIB1, SIB2 and SIB4. level list). If the terminal does not support the SUL frequency of the cell, PEMAX1 and PEMAX2 are obtained from p-Max and NR-NS-PmaxList in SIB1, SIB2 and SIB4 of normal UL (Uplink) respectively.
  • Figure 3 shows a block diagram of a neighboring cell measurement device provided by an exemplary embodiment of the present application.
  • the device includes:
  • the receiving module 301 is configured to receive configuration information sent by the network device.
  • the configuration information includes at least one reference point information and a distance threshold corresponding to each reference point information.
  • the measurement module 302 is configured to measure neighboring cells based on at least one reference point information and a distance threshold corresponding to each reference point information.
  • At least one reference point information indicates the location of a neighboring cell.
  • the configuration information is a system message, or the configuration information is a Radio Resource Control RRC release message.
  • the measurement module 302 is also used to:
  • the reselection priority of the frequency corresponding to the reference point information and/or the distance threshold corresponding to the reference point information is higher than the frequency priority of the current serving cell, and the distance between the terminal and the location indicated by the reference point information is less than or equal to the distance threshold case, measuring frequency.
  • the measurement module 302 is also used to:
  • the measurement module 302 is also used to:
  • the frequency reselection priority is higher than the frequency priority of the current serving cell, and there is at least one reference point information in the multiple reference point information.
  • the frequency is measured.
  • the measurement module 302 is also used to:
  • the frequency reselection priority is higher than the frequency priority of the current serving cell, and each reference point information in the multiple reference point information corresponds to When the distance between the position and the terminal is greater than the distance threshold corresponding to the reference point information, the frequency is not measured.
  • the measurement module 302 is also used to:
  • the reselection priority of the frequency corresponding to the reference point information and/or the distance threshold corresponding to the reference point information is the same as the frequency priority of the current serving cell.
  • the signal quality of the current serving cell meets the quality conditions, and the terminal corresponds to the reference point information.
  • the frequency is measured.
  • the measurement module 302 is also used to:
  • the reselection priority of the frequency corresponding to the reference point information and/or the distance threshold corresponding to the reference point information is the same as the frequency priority of the current serving cell.
  • the signal quality of the current serving cell meets the quality conditions, and the terminal corresponds to the reference point information.
  • the frequency is not measured.
  • the measurement module 302 is also used to:
  • the frequency is associated with multiple reference point information and/or the distance threshold corresponding to the multiple reference point information.
  • the frequency reselection priority is the same as the frequency priority of the current serving cell.
  • the signal quality of the current serving cell meets the quality conditions, and multiple When the distance between the position corresponding to at least one reference point information and the terminal is less than or equal to the distance threshold corresponding to the reference point information, the frequency is measured.
  • the measurement module 302 is also used to:
  • the frequency is associated with multiple reference point information and/or the distance threshold corresponding to the multiple reference point information.
  • the frequency reselection priority is the same as the frequency priority of the current serving cell.
  • the signal quality of the current serving cell meets the quality conditions, and multiple When the distance between the position corresponding to each reference point information in the reference point information and the terminal is greater than the distance threshold corresponding to the reference point information, the frequency is not measured.
  • the quality condition is that the cell selection level of the serving cell is greater than a preset level, and the cell selection quality of the serving cell is greater than the preset quality.
  • the network device belongs to the non-terrestrial network NTN.
  • At least one reference point information and the distance threshold corresponding to each reference point information belong to the terrestrial network TN.
  • Figure 4 shows a block diagram of another neighboring cell measurement device provided by an exemplary embodiment of the present application.
  • the device includes:
  • the sending module 401 is configured to send configuration information to the terminal.
  • the configuration information includes at least one reference point information and a distance threshold corresponding to each reference point information.
  • Each reference point information and/or each reference point information is associated with at least one frequency;
  • At least one reference point information and a distance threshold corresponding to each reference point information are used by the terminal to perform cell measurement.
  • At least one reference point information indicates the location of a neighboring cell.
  • the configuration information is a system message, or the configuration information is an RRC release message.
  • the network device belongs to NTN.
  • At least one reference point information and a distance threshold corresponding to each reference point information belong to TN.
  • FIG. 5 shows a schematic structural diagram of a communication device provided by an exemplary embodiment of the present application.
  • the communication device includes: a processor 501, a receiver 502, a transmitter 503, a memory 504 and a bus 505.
  • the processor 501 includes one or more processing cores.
  • the processor 501 executes various functional applications and information processing by running software programs and modules.
  • the receiver 502 and the transmitter 503 can be implemented as a communication component, and the communication component can be a communication chip.
  • the memory 504 is connected to the processor 501 through a bus 505.
  • the memory 504 can be used to store at least one program code, and the processor 501 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 neighbor cell measurement method performed by the communication equipment is provided in the example.
  • a chip is provided.
  • the chip includes programmable logic circuits and/or program instructions.
  • a computer program product is provided.
  • the computer program product is executed by a processor of a terminal or a network device, it is used to implement the neighbor cell measurement method provided by each of the above method embodiments.

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Abstract

本申请公开了一种邻小区测量方法、装置、设备及存储介质,属于移动通信领域。该方法包括:终端接收网络设备发送的配置信息,配置信息包括至少一个参考点信息和每个参考点信息对应的距离门限,每个参考点信息和/或每个参考点信息对应的距离门限与至少一个频率关联(步骤202);基于至少一个参考点信息和每个参考点信息对应的距离门限,进行邻小区测量(步骤203)。本申请提供了一种邻小区测量的方式,保证了邻小区的测量,并且基于参考点信息以及参考点信息对应的距离门限来进行小区测量,提高了小区测量的准确性。

Description

邻小区测量方法、装置、设备及存储介质 技术领域
本申请涉及移动通信领域,特别涉及一种邻小区测量方法、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NTN(Non-Terrestrial Networks,非陆地网络)或TN(Terrestrial Networks,陆地网络)与终端进行通信,对于终端来说,如何对属于不同网络的小区进行小区测量成为亟需解决的问题。
发明内容
本申请实施例提供了一种邻小区测量方法、装置、设备及存储介质,提供了一种邻小区测量的方式,保证了邻小区的测量,并且基于参考点信息以及参考点信息对应的距离门限来进行小区测量,提高了小区测量的准确性。所述技术方案如下:
根据本申请的一个方面,提供了一种邻小区测量方法,所述方法由终端执行,所述方法包括:
接收网络设备发送的配置信息,所述配置信息包括至少一个参考点信息和每个参考点信息对应的距离门限,所述每个参考点信息和/或所述每个参考点信息对应的距离门限与至少一个频率关联;
基于所述至少一个参考点信息和所述每个参考点信息对应的距离门限,进行邻小区测量。
根据本申请的一个方面,提供了一种邻小区测量方法,所述方法由网络设备执行,所述方法包括:
向终端发送配置信息,所述配置信息包括至少一个参考点信息和每个参考点信息对应的距离门限,所述每个参考点信息和/或所述每个参考点信息对应的距离门限与至少一个频率关联;
所述至少一个参考点信息和所述每个参考点信息对应的距离门限用于所述 终端进行小区测量。
根据本申请的一个方面,提供了一种邻小区测量装置,所述装置包括:
接收模块,用于接收网络设备发送的配置信息,所述配置信息包括至少一个参考点信息和每个参考点信息对应的距离门限,所述每个参考点信息和/或所述每个参考点信息对应的距离门限与至少一个频率关联;
测量模块,用于基于所述至少一个参考点信息和所述每个参考点信息对应的距离门限,进行邻小区测量。
根据本申请的一个方面,提供了一种邻小区测量装置,所述装置包括:
发送模块,用于向终端发送配置信息,所述配置信息包括至少一个参考点信息和每个参考点信息对应的距离门限,所述每个参考点信息和/或所述每个参考点信息对应的距离门限与至少一个频率关联;
所述至少一个参考点信息和所述每个参考点信息对应的距离门限用于所述终端进行小区测量。
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邻小区测量方法。
根据本申请的一个方面,提供了一种网络设备,网络设备包括: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邻小区测量方法。
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邻小区测量方法。
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,当芯片在终端或网络设备上运行时,用于实现如上述方面的邻小区测量方法。
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或网络设备的处理器执行时,其用于实现上述方面的邻小区测量方法。
本申请实施例提供的邻小区测量方案中,网络设备为终端配置参考点信息和每个参考点信息对应的距离门限,以便于终端基于该参考点信息和参考点信息对应的距离门限进行邻小区测量,提供了一种邻小区测量的方式,保证了邻小区的测量,并且基于参考点信息以及参考点信息对应的距离门限来进行小区 测量,提高了小区测量的准确性。
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邻小区测量方法的流程图;
图3示出了本申请一个示例性实施例提供的一种邻小区测量装置的框图;
图4示出了本申请一个示例性实施例提供的一种邻小区测量装置的框图;
图5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。
网络设备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。
该网络设备20可以包括各种形式的宏基站,微基站,中继站,接入点等等。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,新空口)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。
图2示出了本申请一个示例性实施例提供的邻小区测量方法的流程图,示例性的可以应用于如图1所示的终端和网络设备中,该方法包括以下内容中的至少部分内容:
步骤201:网络设备向终端发送配置信息,配置信息包括至少一个参考点信息和每个参考点信息对应的距离门限,每个参考点信息和/或每个参考点信息对应的距离门限与至少一个频率关联。
在本申请实施例中,网络设备通过配置信息为终端配置至少一个参考点信息以及每个参考点信息对应的距离门限,并且该参考点信息和/或参考点信息对 应的距离门限与至少一个频率关联。其中,由于每个参考点信息对应有距离门限,而且本申请实施例还关联有频率,也就是对于不同的参考点信息和/或不同的参考点信息对应的距离门限来说,参考点信息和/或参考点信息对应的距离门限关联至少一个频率。
其中,每个参考点信息和/或每个参考点信息对应的距离门限与频率的关联关系包括以下任一项:
(1)每个参考点信息与至少一个频率关联。
(2)每个参考点信息对应的距离门限与至少一个频率关联。
(3)每个参考点信息以及每个参考点信息与至少一个频率关联。
换一种表达方式,本申请实施例中还可以为频率与每个参考点信息和/或每个参考点信息对应的距离门限关联,具体的关联关系包括以下任一项:
(1)一个频率与至少一个参考点信息关联。
(2)一个频率与至少一个参考点信息对应的距离门限关联。
(3)一个频域与至少一个参考点信息以及至少一个参考点信息关联。
在一些实施例中,该距离门限采用长度表示。例如,该距离门限为米、千米或者采用其他长度单位表示,本申请实施例不作限定。
在一些实施例中,不同的参考点信息关联的频率相同,或者,不同的参考点信息关联的频率不同。
可选地,该参考点信息为位置信息,也就是说至少一个参考点信息指示邻小区位置。
在本申请实施例中,参考点信息可以指示邻小区的位置,若不同的参考点信息关联的频率相同,也就是说明不同的邻小区的频率相同。若不同的参考点信息关联的频率不同,也就是说明不同的邻小区的频率不同。
需要说明的是,对于多个参考点信息来说,多个参考点信息中存在关联有相同频率的参考点信息,也存在关联有不同频率的参考点信息。
例如,网络设备为终端配置了4个参考点信息,分别为参考点信息1、参考点信息2、参考点信息3和参考点信息4,参考点信息1关联频率1、参考点信息2关联频率2,参考点信息3关联频率1,参考点信息4关联频率3。
另外,本申请实施例是以不同的参考点信息关联的频率是否相同为例进行说明。而在另一实施例中,该参考点信息对应有距离门限,则不同的参考点信息对应的距离门限关联的频率相同,或者,不同的参考点信息对应的距离门限 关联的频率不同。而在另一实施例中,不同的参考点信息以及参考点信息对应的距离门限关联的频率相同,或者,不同的参考点信息以及参考点信息对应的距离门限关联的频率不同。
在一些实施例中,该配置信息为系统消息。网络设备通过向终端发送系统消息,以通过该系统消息为终端配置至少一个参考点信息以及每个参考点信息对应的距离门限。
在一些实施例中,该配置信息为RRC release(无线资源控制释放)消息。网络设备通过向终端发送RRC release消息,以通过该RRC release消息为终端配置至少一个参考点信息以及每个参考点信息对应的距离门限。
步骤202:终端接收网络设备发送的配置信息,配置信息包括至少一个参考点信息和每个参考点信息对应的距离门限,每个参考点信息和/或每个参考点信息对应的距离门限与至少一个频率关联。
在申请实施例中,网络设备通过发送配置信息为终端配置参考点信息和参考点信息对应的距离门限,终端接收网络设备发送的配置信息后,根据该配置信息可以确定参考点信息和参考点信息对应的距离门限,并且还可以确定参考每个参考点信息和/或每个参考点信息和参考点信息对应的距离门限关联的频率。
步骤203:终端基于至少一个参考点信息和每个参考点信息对应的距离门限,进行邻小区测量。
在本申请实施例中,终端确定至少一个参考点信息和每个参考点信息对应的距离门限,则对于终端来说,该终端根据该参考点信息和每个参考点信息对应的距离门限进行邻小区测量。也可以理解为,终端可以确定自身所处的位置,终端根据自身所处的位置、参考点信息以及参考点信息对应的距离门限,进行邻小区测量。
在一些实施例中,至少一个参考点信息指示邻小区位置。其中,对于每个邻小区来说,该邻小区覆盖一定的区域,通过在邻小区设置参考点的方式,采用该参考点来指示邻小区的位置。而对于终端来说,终端可以根据自身的位置以及参考点信息指示的邻小区位置确定终端与邻小区之间的距离,再根据已确定的距离和参考点信息对应的距离门限进行邻小区测量。
可选地,该参考点信息为邻小区的中心位置,或者,该参考点信息为邻小区的信号质量最强的位置,或者为邻小区的其他位置,本申请实施例不作限定。
在一些实施例中,该网络设备和至少一个参考点信息属于不同类型的网络。 也就是说,至少一个参考点信息中的每个参考点信息均属于一种类型的网络,而网络设备属于一种类型的网络,并且网络设备属于的网络的类型与至少一个参考点信息属于的网络的类型不同。
可选地,该网络设备属于NTN。至少一个参考点信息和每个参考点信息对应的距离门限属于TN。
在本申请实施例中,网络设备与终端之间可以进行通信,也就是说网络设备覆盖的小区为终端的服务小区,终端所处的服务小区为NTN类型的网络,邻小区为TN类型的网络,终端需要对TN类型的邻小区进行测量。
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,网络设备为终端配置参考点信息和每个参考点信息对应的距离门限,以便于终端基于该参考点信息和参考点信息对应的距离门限进行邻小区测量,提供了一种邻小区测量的方式,保证了邻小区的测量,并且基于参考点信息以及参考点信息对应的距离门限来进行小区测量,提高了小区测量的准确性。
本申请还提供了一种邻小区测量方法,终端基于至少一个参考点信息和每个参考点信息对应的距离门限进行邻小区测量。其中,终端根据频率的优先级以及终端与参考点信息指示的位置之间的距离确定是否测量参考点信息关联的频率。
在一些实施例中,在参考点信息和/或参考点信息对应的距离门限关联的频率的重选优先级高于当前服务小区的频率优先级,且终端与参考点信息指示的位置之间的距离小于或等于距离门限的情况下,测量频率。
针对上述实施例,终端测量频率的情况包括以下三种:
(1)在参考点信息关联的频率的重选优先级高于当前服务小区的频率优先级,且终端与参考点信息指示的位置之间的距离小于或等于距离门限的情况下,测量频率。
在本申请实施例中,参考点信息关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若参考点信息关联的频率的重选优先级高于当前服务小区的频率优先级,则说明测量参考点信息关联的频率的优先级高,而由于需要考虑终端与参考点间的距离来确定是否测量该频率,因此在终端与 参考点信息指示的位置之间的距离小于或等于距离门限的情况下,测量该参考点信息关联的频率。
其中,若终端与参考点信息指示的位置之间的距离小于或等于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围内,由于参考点信息关联的频率的优先级高,并且终端还位于参考点信息指示的邻小区的覆盖范围内,因此终端可以对该参考点信息关联的频率进行测量。
(2)在参考点信息对应的距离门限关联的频率的重选优先级高于当前服务小区的频率优先级,且终端与参考点信息指示的位置之间的距离小于或等于距离门限的情况下,测量频率。
在本申请实施例中,参考点信息对应的距离门限关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若参考点信息对应的距离门限关联的频率的重选优先级高于当前服务小区的频率优先级,则说明测量参考点信息对应的距离门限关联的频率的优先级高,而由于需要考虑终端与参考点间的距离来确定是否测量该频率,因此在终端与参考点信息指示的位置之间的距离小于或等于距离门限的情况下,测量该参考点信息对应的距离门限关联的频率。
其中,若终端与参考点信息指示的位置之间的距离小于或等于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围内,由于参考点信息对应的距离门限关联的频率的优先级高,并且终端还位于参考点信息指示的邻小区的覆盖范围内,因此终端可以对该参考点信息对应的距离门限关联的频率进行测量。
(3)在参考点信息以及参考点信息对应的距离门限关联的频率的重选优先级高于当前服务小区的频率优先级,且终端与参考点信息指示的位置之间的距离小于或等于距离门限的情况下,测量频率。
在本申请实施例中,参考点信息以及参考点信息对应的距离门限关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若参考点信息以及参考点信息对应的距离门限关联的频率的重选优先级高于当前服务小区的频率优先级,则说明测量参考点信息以及参考点信息对应的距离门限关联的频率的优先级高,而由于需要考虑终端与参考点间的距离来确定是否测量该频率,因此在终端与参考点信息指示的位置之间的距离小于或等于距离门限的情况下,测量该参考点信息以及参考点信息对应的距离门限关联的频率。
其中,若终端与参考点信息指示的位置之间的距离小于或等于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围内,由于参考点信息以及参考点信息对应的距离门限关联的频率的优先级高,并且终端还位于参考点信息指示的邻小区的覆盖范围内,因此终端可以对该参考点信息以及参考点信息对应的距离门限关联的频率进行测量。
本申请实施例提供了一种邻小区测量的方式,保证了邻小区的测量,并且基于参考点信息以及参考点信息对应的距离门限来进行小区测量,避免了不必要的邻小区测量,降低了终端的功耗。并且,在终端确定频率的重选优先级高于服务小区的频率优先级,且终端与该频率关联的参考点信息指示的位置之间的距离小于或等于距离门限的情况下,终端测量该频率,防止出现终端与该频率所对应的邻小区之间的距离大于距离门限仍测量该频率的情况,节省终端测量资源。
需要说明的是,本申请实施例是以终端测量参考点关联的频率为例进行说明,而在另一些实施例中,还存在终端不测量频率的情况。
可选地,终端在参考点信息和/或参考点信息对应的距离门限关联的频率的重选优先级高于当前服务小区的频率优先级,且终端与参考点信息指示的位置之间的距离大于距离门限的情况下,不测量频率。
其中,终端不测量参考点信息关联的频率的情况包括以下三种:
(1)在参考点信息关联的频率的重选优先级高于当前服务小区的频率优先级,且终端与参考点信息指示的位置之间的距离大于距离门限的情况下,不测量频率。
在本申请实施例中,参考点信息关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若参考点信息关联的频率的重选优先级高于当前服务小区的频率优先级,则说明测量参考点信息关联的频率的优先级高,而由于需要考虑终端与参考点间的距离来确定是否测量该频率,因此在终端与参考点信息指示的位置之间的距离大于距离门限的情况下,不测量该参考点信息关联的频率。
其中,若终端与参考点信息指示的位置之间的距离大于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围之外,即使参考点信息关联的频率的优先级高,但是终端位于参考点信息指示的邻小区的覆盖范围之外,因此终端不对该参考点信息关联的频率进行测量。
(2)在参考点信息对应的距离门限关联的频率的重选优先级高于当前服务小区的频率优先级,且终端与参考点信息指示的位置之间的距离大于距离门限的情况下,不测量频率。
在本申请实施例中,参考点信息对应的距离门限关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若参考点信息对应的距离门限关联的频率的重选优先级高于当前服务小区的频率优先级,则说明测量参考点信息对应的距离门限关联的频率的优先级高,而由于需要考虑终端与参考点间的距离来确定是否测量该频率,因此在终端与参考点信息指示的位置之间的距离大于距离门限的情况下,不测量该参考点信息对应的距离门限关联的频率。
其中,若终端与参考点信息指示的位置之间的距离大于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围之外,即使参考点信息对应的距离门限关联的频率的优先级高,但是终端位于参考点信息指示的邻小区的覆盖范围之外,因此终端不对该参考点信息对应的距离门限关联的频率进行测量。
(3)在参考点信息以及参考点信息对应的距离门限关联的频率的重选优先级高于当前服务小区的频率优先级,且终端与参考点信息指示的位置之间的距离大于距离门限的情况下,不测量频率。
在本申请实施例中,参考点信息以及参考点信息对应的距离门限关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若参考点信息以及参考点信息对应的距离门限关联的频率的重选优先级高于当前服务小区的频率优先级,则说明测量参考点信息以及参考点信息对应的距离门限关联的频率的优先级高,而由于需要考虑终端与参考点间的距离来确定是否测量该频率,因此在终端与参考点信息指示的位置之间的距离大于距离门限的情况下,不测量该参考点信息以及参考点信息对应的距离门限关联的频率。
其中,若终端与参考点信息指示的位置之间的距离大于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围之外,即使参考点信息以及参考点信息对应的距离门限关联的频率的优先级高,但是终端位于参考点信息指示的邻小区的覆盖范围之外,因此终端不对该参考点信息以及参考点信息对应的距离门限关联的频率进行测量。
本申请实施例提供的方案中,在终端确定频率的重选优先级高于服务小区的频率优先级,且终端与该频率关联的参考点信息指示的位置之间的距离大于距离门限的情况下,终端不测量该频率,防止出现终端与该频率所对应的邻小 区之间的距离大于距离门限仍测量该频率的情况,节省终端测量资源。
本申请还提供了一种邻小区测量方法,终端基于至少一个参考点信息和每个参考点信息对应的距离门限进行邻小区测量。其中,一个频率关联多个参考点信息,而终端仍会根据频率的优先级以及终端与参考点信息指示的位置之间的距离确定是否测量参考点信息关联的频率。
其中,若频率关联有多个参考点信息,也就是说多个参考点信息关联的频率相同,而每个参考点信息指示至少一个邻小区,则说明多个参考点信息指示的邻小区的频率相同。
在一些实施例中,终端在频率关联多个参考点信息和/或多个参考点信息对应的距离门限,频率的重选优先级高于当前服务小区的频率优先级,且多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离小于或等于参考点信息对应的距离门限的情况下,测量频率。
其中,终端测量参考点信息关联的频率的情况包括以下三种:
(1)在频率关联多个参考点信息,且该频率的重选优先级高于当前服务小区的频率优先级,且多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离小于或等于至少一个参考点信息对应的距离门限的情况下,测量频率。
在本申请实施例中,与多个参考点信息关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若与多个参考点信息关联的频率的重选优先级高于当前服务小区的频率优先级,则说明测量该频率的优先级高,而由于需要考虑终端与参考点间的距离来确定是否测量该频率,若多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离小于或等于已配置的至少一个参考点信息对应的距离门限,测量该参考点信息关联的频率。
其中,若终端与参考点信息指示的位置之间的距离小于或等于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围内,由于该频率的优先级高,并且终端还位于多个参考点信息中至少一个参考点信息指示的邻小区的覆盖范围内,因此终端可以对该频率进行测量。
例如,参考点信息1、参考点信息2和参考点信息3均与频率1关联,并且参考点信息1、参考点信息2和参考点信息3对应的距离门限均为50米,而终端与参考点信息1指示的位置之间的距离为40米,终端与参考点信息2指示的 位置之间的距离为70米,终端与参考点信息3指示的位置之间的距离为60米,则可以确定参考点信息1、参考点信息2和参考点信息3中的参考点信息1指示的位置与终端之间的距离小于50米,因此终端可以对频率1进行测量。
(2)在频率关联多个参考点信息对应的距离门限,该频率的重选优先级高于当前服务小区的频率优先级,且多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离小于或等于至少一个参考点信息对应的距离门限的情况下,测量频率。
在本申请实施例中,与多个参考点信息对应的距离门限关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若与多个参考点信息对应的距离门限关联的频率的重选优先级高于当前服务小区的频率优先级,则说明测量该频率的优先级高,而由于需要考虑终端与参考点间的距离来确定是否测量该频率,若多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离小于或等于已配置的至少一个参考点信息对应的距离门限,测量该参考点信息关联的频率。
其中,若终端与参考点信息指示的位置之间的距离小于或等于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围内,由于该频率的优先级高,并且终端还位于多个参考点信息中至少一个参考点信息指示的邻小区的覆盖范围内,因此终端可以对该频率进行测量。
例如,参考点信息1对应的距离门限1、参考点信息2对应的距离门限2和参考点信息3对应的距离门限3均与频率1关联,并且距离门限1、距离门限2和距离门限3均为50米,而终端与参考点信息1指示的位置之间的距离为40米,终端与参考点信息2指示的位置之间的距离为70米,终端与参考点信息3指示的位置之间的距离为60米,则可以确定参考点信息1、参考点信息2和参考点信息3中的参考点信息1指示的位置与终端之间的距离小于50米,因此终端可以对频率1进行测量。
(3)在频率关联多个参考点信息以及多个参考点信息对应的距离门限,该频率的重选优先级高于当前服务小区的频率优先级,且多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离小于或等于至少一个参考点信息对应的距离门限的情况下,测量频率。
在本申请实施例中,与多个参考点信息以及多个参考点信息对应的距离门限关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级, 若与多个参考点信息以及多个参考点信息对应的距离门限关联的频率的重选优先级高于当前服务小区的频率优先级,则说明测量该频率的优先级高,而由于需要考虑终端与参考点间的距离来确定是否测量该频率,若多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离小于或等于已配置的至少一个参考点信息对应的距离门限,测量该参考点信息关联的频率。
其中,若终端与参考点信息指示的位置之间的距离小于或等于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围内,由于该频率的优先级高,并且终端还位于多个参考点信息中至少一个参考点信息指示的邻小区的覆盖范围内,因此终端可以对该频率进行测量。
本申请实施例提供了一种邻小区测量的方式,保证了邻小区的测量,并且基于参考点信息以及参考点信息对应的距离门限来进行小区测量,避免了不必要的邻小区测量,降低了终端的功耗。并且,在终端确定频率的重选优先级高于服务小区的频率优先级,且与该频率关联的多个参考点信息中存在至少一个参考点信息指示的位置之间的距离小于或等于距离门限的情况下,终端测量该频率,防止出现终端与该频率所对应的参考点间的距离大于距离门限仍测量该频率的情况,节省终端测量资源。
需要说明的是,本申请实施例是以终端测量参考点关联的频率为例进行说明,而在另一些实施例中,还存在终端不测量频率的情况。
可选地,在频率关联多个参考点信息和/或多个参考点信息对应的距离门限,频率的重选优先级高于当前服务小区的频率优先级,且多个参考点信息中每个参考点信息对应的位置与终端之间的距离大于参考点信息对应的距离门限的情况下,不测量频率。
其中,终端不测量参考点信息关联的频率的情况包括以下三种:
(1)在频率关联多个参考点信息,该频率的重选优先级高于当前服务小区的频率优先级,且多个参考点信息中每个参考点信息对应的位置与终端之间的距离大于参考点信息对应的距离门限的情况下,不测量频率。
在本申请实施例中,与多个参考点信息关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若与多个参考点信息关联的频率的重选优先级高于当前服务小区的频率优先级,则说明测量该频率的优先级高,而由于需要考虑终端与参考点之间的距离来确定是否测量该频率,若多个参考点信息中的每个参考点信息对应的位置与终端之间的距离均大于已配置的参考点 信息对应的距离门限,不测量该参考点信息关联的频率。
其中,若终端与参考点信息指示的位置之间的距离大于距离门限,则说明终端未位于参考点信息指示的邻小区的覆盖范围内,即使该频率的优先级高,但是终端均未位于多个参考点信息指示的邻小区的覆盖范围内,因此终端不对该频率进行测量。
例如,参考点信息1、参考点信息2和参考点信息3均与频率1关联,并且参考点信息1、参考点信息2和参考点信息3对应的距离门限均为50米,而终端与参考点信息1指示的位置之间的距离为55米,终端与参考点信息2指示的位置之间的距离为70米,终端与参考点信息3指示的位置之间的距离为60米,则可以确定参考点信息1、参考点信息2和参考点信息3指示的位置与终端之间的距离均大于50米,因此终端不对频率1进行测量。
(2)在频率关联多个参考点信息对应的距离门限,该频率的重选优先级高于当前服务小区的频率优先级,且多个参考点信息中每个参考点信息对应的位置与终端之间的距离大于参考点信息对应的距离门限的情况下,不测量频率。
在本申请实施例中,与多个参考点信息对应的距离门限关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若与多个参考点信息对应的距离门限关联的频率的重选优先级高于当前服务小区的频率优先级,则说明测量该频率的优先级高,而由于需要考虑终端与参考点间的距离来确定是否测量该频率,若多个参考点信息中的每个参考点信息对应的位置与终端之间的距离均大于已配置的参考点信息对应的距离门限,不测量该参考点信息关联的频率。
其中,若终端与参考点信息指示的位置之间的距离大于距离门限,则说明终端未位于参考点信息指示的邻小区的覆盖范围内,即使该频率的优先级高,但是终端均未位于多个参考点信息指示的邻小区的覆盖范围内,因此终端不对该频率进行测量。
(3)在频率关联多个参考点信息以及多个参考点信息对应的距离门限,该频率的重选优先级高于当前服务小区的频率优先级,且多个参考点信息中每个参考点信息对应的位置与终端之间的距离大于参考点信息对应的距离门限的情况下,不测量频率。
在本申请实施例中,与多个参考点信息以及多个参考点信息对应的距离门限关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级, 若与多个参考点信息以及多个参考点信息对应的距离门限关联的频率的重选优先级高于当前服务小区的频率优先级,则说明测量该频率的优先级高,而由于需要考虑终端与参考点间的距离来确定是否测量该频率,若多个参考点信息中的每个参考点信息对应的位置与终端之间的距离均大于已配置的参考点信息对应的距离门限,不测量该参考点信息关联的频率。
其中,若终端与参考点信息指示的位置之间的距离大于距离门限,则说明终端未位于参考点信息指示的邻小区的覆盖范围内,即使该频率的优先级高,但是终端均未位于多个参考点信息指示的邻小区的覆盖范围内,因此终端不对该频率进行测量。
本申请实施例提供的方案中,在终端确定频率的重选优先级高于服务小区的频率优先级,且与该频率关联的多个参考点信息中存在至少一个参考点信息指示的位置之间的距离小于或等于距离门限的情况下,终端测量该频率,防止出现终端与该频率所对应的邻小区之间的距离大于距离门限仍测量该频率的情况,节省终端测量资源。
本申请还提供了一种邻小区测量方法,终端基于至少一个参考点信息和每个参考点信息对应的距离门限进行邻小区测量。其中,终端根据频率的优先级以及终端与参考点信息指示的位置之间的距离确定是否测量参考点信息关联的频率。
在一些实施例中,在参考点信息和/或参考点信息对应的距离门限关联的频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且终端与参考点信息对应的位置之间的距离小于或等于参考点信息对应的距离门限的情况下,测量频率。
其中,终端测量频率的情况包括以下三种:
(1)在参考点信息关联的频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且终端与参考点信息对应的位置之间的距离小于或等于参考点信息对应的距离门限的情况下,测量频率。
其中,该质量条件用于指示服务小区的信号质量要求,在服务小区的信号质量满足质量条件的情况下,说明终端可以通过服务小区进行通信。
在一些实施例中,质量条件为服务小区的小区选择电平大于预设电平,且服务小区的小区选择质量大于预设质量。
其中,该预设电平和预设质量由协议约定,或者,由网络设备预先配置,本申请实施例不作限定。
在本申请实施例中,参考点信息关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若参考点信息关联的频率的重选优先级与当前服务小区的频率优先级相同,并且当前服务小区的信号质量满足质量条件,则说明终端当前所处的服务小区满足通信条件,而由于终端与参考点间也有一定的距离,则需要考虑终端与参考点间的距离来确定是否测量该参考点信息关联的频率,因此在终端与参考点信息指示的位置之间的距离小于或等于距离门限的情况下,测量该参考点信息关联的频率。
其中,若终端与参考点信息指示的位置之间的距离小于或等于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围内,即使参考点信息关联的频率的优先级与当前服务小区的频率优先级相同,并且当前服务小区的信号质量满足质量条件,如果该参考点信息指示的邻小区为TN网络,终端可能会优先驻留在TN网络,,因此终端对该参考点信息关联的频率进行测量。
(2)在参考点信息对应的距离门限关联的频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且终端与参考点信息对应的位置之间的距离小于或等于参考点信息对应的距离门限的情况下,测量频率。
其中,该质量条件用于指示服务小区的信号质量要求,在服务小区的信号质量满足质量条件的情况下,说明终端可以通过服务小区进行通信。
在一些实施例中,质量条件为服务小区的小区选择电平大于预设电平,且服务小区的小区选择质量大于预设质量。
其中,该预设电平和预设质量由协议约定,或者,由网络设备预先配置,本申请实施例不作限定。
在本申请实施例中,参考点信息对应的距离门限关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若参考点信息对应的距离门限关联的频率的重选优先级与当前服务小区的频率优先级相同,并且当前服务小区的信号质量满足质量条件,则说明终端当前所处的服务小区满足通信条件,而由于终端与参考点间也有一定的距离,则需要考虑终端与参考点间的距离来确定是否测量该参考点信息对应的距离门限关联的频率,因此在终端与参考点信息指示的位置之间的距离小于或等于距离门限的情况下,测量该参考点信息 对应的距离门限关联的频率。
其中,若终端与参考点信息指示的位置之间的距离小于或等于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围内,即使参考点信息对应的距离门限关联的频率的优先级与当前服务小区的频率优先级相同,并且当前服务小区的信号质量满足质量条件,但是终端位于参考点信息指示的邻小区的覆盖范围之内,如果该参考点信息指示的邻小区为TN网络,终端可能会优先驻留在TN网络,因此终端对该参考点信息对应的距离门限关联的频率进行测量。
(3)在参考点信息和参考点信息对应的距离门限关联的频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且终端与参考点信息对应的位置之间的距离小于或等于参考点信息对应的距离门限的情况下,测量频率。
其中,该质量条件用于指示服务小区的信号质量要求,在服务小区的信号质量满足质量条件的情况下,说明终端可以通过服务小区进行通信。
在一些实施例中,质量条件为服务小区的小区选择电平大于预设电平,且服务小区的小区选择质量大于预设质量。
其中,该预设电平和预设质量由协议约定,或者,由网络设备预先配置,本申请实施例不作限定。
在本申请实施例中,参考点信息和参考点信息对应的距离门限关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若参考点信息和参考点信息对应的距离门限关联的频率的重选优先级与当前服务小区的频率优先级相同,并且当前服务小区的信号质量满足质量条件,则说明终端当前所处的服务小区满足通信条件,而由于终端与参考点间也有一定的距离,则需要考虑终端与参考点间的距离来确定是否测量该参考点信息和参考点信息对应的距离门限关联的频率,因此在终端与参考点信息指示的位置之间的距离小于或等于距离门限的情况下,测量该参考点信息和参考点信息对应的距离门限关联的频率。
其中,若终端与参考点信息指示的位置之间的距离小于或等于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围内,即使参考点信息和参考点信息对应的距离门限关联的频率的优先级与当前服务小区的频率优先级相同,并且当前服务小区的信号质量满足质量条件,但是终端位于参考点信息指示的邻小区的覆盖范围之内,如果该参考点信息指示的邻小区为TN网络,终端 可能会优先驻留在TN网络,因此终端对该参考点信息和参考点信息对应的距离门限关联的频率进行测量。
本申请实施例提供了一种邻小区测量的方式,保证了邻小区的测量,并且基于参考点信息以及参考点信息对应的距离门限来进行小区测量,提高了小区测量的准确性。并且,在终端确定频率的重选优先级与服务小区的频率优先级相同,且服务小区的信号质量满足质量条件的情况下,若终端与该频率关联的参考点信息指示的位置之间的距离小于或等于距离门限,终端仍会测量该频率,提高了终端进行邻小区测量并重选到邻小区的效率。
需要说明的是,本申请实施例是以终端测量参考点关联的频率为例进行说明,而在另一些实施例中,还存在终端不测量频率的情况。
可选地,在参考点信息和/或参考点信息对应的距离门限关联的频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且终端与参考点信息对应的位置之间的距离大于参考点信息对应的距离门限的情况下,不测量频率。
其中,终端不测量频率的情况包括以下三种:
(1)在参考点信息关联的频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且终端与参考点信息对应的位置之间的距离大于参考点信息对应的距离门限的情况下,不测量频率。
其中,该质量条件用于指示服务小区的信号质量要求,在服务小区的信号质量满足质量条件的情况下,说明终端可以通过服务小区进行通信。
在一些实施例中,质量条件为服务小区的小区选择电平大于预设电平,且服务小区的小区选择质量大于预设质量。
其中,该预设电平和预设质量由协议约定,或者,由网络设备预先配置,本申请实施例不作限定。
在本申请实施例中,参考点信息关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若参考点信息关联的频率的重选优先级与当前服务小区的频率优先级相同,并且当前服务小区的信号质量满足质量条件,则说明终端当前所处的服务小区满足通信条件,而由于终端与参考点间也有一定的距离,则需要考虑终端与参考点间的距离来确定是否测量该参考点信息关联的频率,在终端与参考点信息指示的位置之间的距离大于距离门限的情况下,不测量该参考点信息关联的频率。
其中,若终端与参考点信息指示的位置之间的距离大于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围之外,即使参考点信息关联的频率的优先级与当前服务小区的频率优先级相同,并且当前服务小区的信号质量满足质量条件,但是终端位于参考点信息指示的邻小区的覆盖范围之外,因此终端不对该参考点信息关联的频率进行测量。
(2)在参考点信息对应的距离门限关联的频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且终端与参考点信息对应的位置之间的距离大于参考点信息对应的距离门限的情况下,不测量频率。
其中,该质量条件用于指示服务小区的信号质量要求,在服务小区的信号质量满足质量条件的情况下,说明终端可以通过服务小区进行通信。
在一些实施例中,质量条件为服务小区的小区选择电平大于预设电平,且服务小区的小区选择质量大于预设质量。
其中,该预设电平和预设质量由协议约定,或者,由网络设备预先配置,本申请实施例不作限定。
在本申请实施例中,参考点信息对应的距离门限关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若参考点信息对应的距离门限关联的频率的重选优先级与当前服务小区的频率优先级相同,并且当前服务小区的信号质量满足质量条件,则说明终端当前所处的服务小区满足通信条件,而由于终端与参考点间也有一定的距离,则需要考虑终端与参考点间的距离来确定是否测量该参考点信息对应的距离门限关联的频率,在终端与参考点信息指示的位置之间的距离大于距离门限的情况下,不测量该参考点信息对应的距离门限关联的频率。
其中,若终端与参考点信息指示的位置之间的距离大于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围之外,即使参考点信息对应的距离门限关联的频率的优先级与当前服务小区的频率优先级相同,并且当前服务小区的信号质量满足质量条件,但是终端位于参考点信息指示的邻小区的覆盖范围之外,因此终端不对该参考点信息对应的距离门限关联的频率进行测量。
(3)在参考点信息和参考点信息对应的距离门限关联的频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且终端与参考点信息对应的位置之间的距离大于参考点信息对应的距离门限的 情况下,不测量频率。
其中,该质量条件用于指示服务小区的信号质量要求,在服务小区的信号质量满足质量条件的情况下,说明终端可以通过服务小区进行通信。
在一些实施例中,质量条件为服务小区的小区选择电平大于预设电平,且服务小区的小区选择质量大于预设质量。
其中,该预设电平和预设质量由协议约定,或者,由网络设备预先配置,本申请实施例不作限定。
在本申请实施例中,参考点信息和参考点信息对应的距离门限关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若参考点信息和参考点信息对应的距离门限关联的频率的重选优先级与当前服务小区的频率优先级相同,并且当前服务小区的信号质量满足质量条件,则说明终端当前所处的服务小区满足通信条件,而由于终端与参考点间也有一定的距离,则需要考虑终端与参考点间的距离来确定是否测量该参考点信息和参考点信息对应的距离门限关联的频率,在终端与参考点信息指示的位置之间的距离大于距离门限的情况下,不测量该参考点信息和参考点信息对应的距离门限关联的频率。
其中,若终端与参考点信息指示的位置之间的距离大于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围之外,即使参考点信息和参考点信息对应的距离门限关联的频率的优先级与当前服务小区的频率优先级相同,并且当前服务小区的信号质量满足质量条件,但是终端位于参考点信息指示的邻小区的覆盖范围之外,因此终端不对该参考点信息和参考点信息对应的距离门限关联的频率进行测量。
本申请实施例提供的方案中,在终端确定频率的重选优先级与服务小区的频率优先级相同,且服务小区的信号质量满足质量条件的情况下,若终端与该频率关联的参考点信息指示的位置之间的距离大于距离门限,则终端不会测量该频率,提高了终端进行邻小区测量的准确性。
本申请还提供了一种邻小区测量方法,终端基于至少一个参考点信息和每个参考点信息对应的距离门限进行邻小区测量。其中,一个频率关联多个参考点信息,而终端仍会根据频率的优先级、服务小区的信号质量以及终端与参考点信息指示的位置之间的距离确定是否测量参考点信息关联的频率。
其中,若频率关联有多个参考点信息,也就是说多个参考点信息关联的频 率相同,而每个参考点信息指示至少一个邻小区,则说明多个参考点信息指示的邻小区的频率相同。
在一些实施例中,终端在频率关联多个参考点信息和/或多个参考点信息对应的距离门限,频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离小于或等于参考点信息对应的距离门限的情况下,测量频率。
其中,终端测量参考点信息关联的频率的情况包括以下三种:
(1)在频率关联多个参考点信息,频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离小于或等于参考点信息对应的距离门限的情况下,测量频率。
其中,该质量条件用于指示服务小区的信号质量要求,在服务小区的信号质量满足质量条件的情况下,说明终端可以通过服务小区进行通信。
在一些实施例中,质量条件为服务小区的小区选择电平大于预设电平,且服务小区的小区选择质量大于预设质量。
其中,该预设电平和预设质量由协议约定,或者,由网络设备预先配置,本申请实施例不作限定。
在本申请实施例中,与多个参考点信息关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若与多个参考点信息关联的频率的重选优先级与当前服务小区的频率优先级相同,且当前服务小区的信号质量满足质量条件,而由于终端与参考点间也有一定的距离,则需要考虑终端与参考点间的距离来确定是否测量该频率,因此若多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离小于或等于已配置的参考点信息对应的距离门限,测量该频率。
其中,若终端与参考点信息指示的位置之间的距离小于或等于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围内,即使该频率的优先级与服务小区的频率优先级相同,并且当前服务小区的信号质量满足质量条件,但是终端还位于多个参考点信息中至少一个参考点信息指示的邻小区的覆盖范围内,如果该参考点信息指示的邻小区为TN网络,终端可能会优先驻留在TN网络,因此终端可以对该频率进行测量。
例如,参考点信息1、参考点信息2和参考点信息3均与频率1关联,并且参考点信息1、参考点信息2和参考点信息3对应的距离门限均为50米,而终端与参考点信息1指示的位置之间的距离为40米,终端与参考点信息2指示的位置之间的距离为70米,终端与参考点信息3指示的位置之间的距离为60米,则可以确定参考点信息1、参考点信息2和参考点信息3中的参考点信息1指示的位置与终端之间的距离小于50米,因此终端可以对频率1进行测量。
(2)在频率关联多个参考点信息对应的距离门限,频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离小于或等于参考点信息对应的距离门限的情况下,测量频率。
其中,该质量条件用于指示服务小区的信号质量要求,在服务小区的信号质量满足质量条件的情况下,说明终端可以通过服务小区进行通信。
在一些实施例中,质量条件为服务小区的小区选择电平大于预设电平,且服务小区的小区选择质量大于预设质量。
其中,该预设电平和预设质量由协议约定,或者,由网络设备预先配置,本申请实施例不作限定。
在本申请实施例中,与多个参考点信息对应的距离门限关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若与多个参考点信息对应的距离门限关联的频率的重选优先级与当前服务小区的频率优先级相同,且当前服务小区的信号质量满足质量条件,而由于终端与参考点间也有一定的距离,则需要考虑终端与参考点间的距离来确定是否测量该频率,因此若多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离小于或等于已配置的参考点信息对应的距离门限,测量该频率。
其中,若终端与参考点信息指示的位置之间的距离小于或等于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围内,即使该频率的优先级与服务小区的频率优先级相同,并且当前服务小区的信号质量满足质量条件,但是终端还位于多个参考点信息中至少一个参考点信息指示的邻小区的覆盖范围内,如果该参考点信息指示的邻小区为TN网络,终端可能会优先驻留在TN网络,因此终端可以对该频率进行测量。
(3)在频率关联多个参考点信息以及多个参考点信息对应的距离门限,频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量 满足质量条件,且多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离小于或等于参考点信息对应的距离门限的情况下,测量频率。
其中,该质量条件用于指示服务小区的信号质量要求,在服务小区的信号质量满足质量条件的情况下,说明终端可以通过服务小区进行通信。
在一些实施例中,质量条件为服务小区的小区选择电平大于预设电平,且服务小区的小区选择质量大于预设质量。
其中,该预设电平和预设质量由协议约定,或者,由网络设备预先配置,本申请实施例不作限定。
在本申请实施例中,与多个参考点信息和多个参考点信息对应的距离门限关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若与多个参考点信息和多个参考点信息对应的距离门限关联的频率的重选优先级与当前服务小区的频率优先级相同,且当前服务小区的信号质量满足质量条件,而由于终端与参考点间也有一定的距离,则需要考虑终端与参考点间的距离来确定是否测量该频率,因此若多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离小于或等于已配置的参考点信息对应的距离门限,测量该频率。
其中,若终端与参考点信息指示的位置之间的距离小于或等于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围内,即使该频率的优先级与服务小区的频率优先级相同,并且当前服务小区的信号质量满足质量条件,但是终端还位于多个参考点信息中至少一个参考点信息指示的邻小区的覆盖范围内,如果该参考点信息指示的邻小区为TN网络,终端可能会优先驻留在TN网络,因此终端可以对该频率进行测量。
本申请实施例提供了一种邻小区测量的方式,保证了邻小区的测量,并且基于参考点信息以及参考点信息对应的距离门限来进行小区测量,提高了小区测量的准确性。并且,在终端确定频率的重选优先级与服务小区的频率优先级相同,且服务小区的信号质量满足质量条件的情况下,若终端与该频率关联的参考点信息指示的位置之间的距离小于或等于距离门限,终端仍会测量该频率,提高了终端进行邻小区测量并重选到邻小区的效率。
需要说明的是,本申请实施例是以终端测量参考点关联的频率为例进行说明,而在另一些实施例中,还存在终端不测量频率的情况。
可选地,在频率关联多个参考点信息和/或多个参考点信息对应的距离门限, 频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且多个参考点信息中每个参考点信息对应的位置与终端之间的距离大于参考点信息对应的距离门限的情况下,不测量频率。
其中,终端不测量参考点信息关联的频率的情况包括以下三种:
(1)在频率关联多个参考点信息,频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且多个参考点信息中每个参考点信息对应的位置与终端之间的距离大于参考点信息对应的距离门限的情况下,不测量频率。
其中,该质量条件用于指示服务小区的信号质量要求,在服务小区的信号质量满足质量条件的情况下,说明终端可以通过服务小区进行通信。
在一些实施例中,质量条件为服务小区的小区选择电平大于预设电平,且服务小区的小区选择质量大于预设质量。
其中,该预设电平和预设质量由协议约定,或者,由网络设备预先配置,本申请实施例不作限定。
在本申请实施例中,与多个参考点信息关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若与多个参考点信息关联的频率的重选优先级与当前服务小区的频率优先级相同,且当前服务小区的信号质量满足质量条件,而由于终端与参考点间也有一定的距离,则需要考虑终端与参考点间的距离来确定是否测量该频率,因此若多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离大于已配置的参考点信息对应的距离门限,不测量该频率。
其中,若终端与参考点信息指示的位置之间的距离大于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围之外,由于该频率的优先级与服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,并且终端还位于多个参考点信息中至少一个参考点信息指示的邻小区的覆盖范围之外,因此终端可以不对该频率进行测量。
例如,参考点信息1、参考点信息2和参考点信息3均与频率1关联,并且参考点信息1、参考点信息2和参考点信息3对应的距离门限均为50米,而终端与参考点信息1指示的位置之间的距离为55米,终端与参考点信息2指示的位置之间的距离为70米,终端与参考点信息3指示的位置之间的距离为60米,则可以确定参考点信息1、参考点信息2和参考点信息3指示的位置与终端之间 的距离均大于50米,因此终端可以不对频率1进行测量。
(2)在频率关联多个参考点信息对应的距离门限,频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且多个参考点信息中每个参考点信息对应的位置与终端之间的距离大于参考点信息对应的距离门限的情况下,不测量频率。
其中,该质量条件用于指示服务小区的信号质量要求,在服务小区的信号质量满足质量条件的情况下,说明终端可以通过服务小区进行通信。
在一些实施例中,质量条件为服务小区的小区选择电平大于预设电平,且服务小区的小区选择质量大于预设质量。
其中,该预设电平和预设质量由协议约定,或者,由网络设备预先配置,本申请实施例不作限定。
在本申请实施例中,与多个参考点信息对应的距离门限关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若与多个参考点信息对应的距离门限关联的频率的重选优先级与当前服务小区的频率优先级相同,且当前服务小区的信号质量满足质量条件,而由于终端与参考点间也有一定的距离,则需要考虑终端与参考点间的距离来确定是否测量该频率,因此若多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离大于已配置的参考点信息对应的距离门限,不测量该频率。
其中,若终端与参考点信息指示的位置之间的距离大于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围之外,由于该频率的优先级与服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,并且终端还位于多个参考点信息中至少一个参考点信息指示的邻小区的覆盖范围之外,因此终端可以不对该频率进行测量。
(3)在频率关联多个参考点信息以及多个参考点信息对应的距离门限,频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且多个参考点信息中每个参考点信息对应的位置与终端之间的距离大于参考点信息对应的距离门限的情况下,不测量频率。
其中,该质量条件用于指示服务小区的信号质量要求,在服务小区的信号质量满足质量条件的情况下,说明终端可以通过服务小区进行通信。
在一些实施例中,质量条件为服务小区的小区选择电平大于预设电平,且服务小区的小区选择质量大于预设质量。
其中,该预设电平和预设质量由协议约定,或者,由网络设备预先配置,本申请实施例不作限定。
在本申请实施例中,与多个参考点信息和多个参考点信息对应的距离门限关联的频率具有优先级,而终端当前所处的服务小区的频率也具有优先级,若与多个参考点信息和多个参考点信息对应的距离门限关联的频率的重选优先级与当前服务小区的频率优先级相同,且当前服务小区的信号质量满足质量条件,而由于终端与参考点间也有一定的距离,则需要考虑终端与参考点间的距离来确定是否测量该频率,因此若多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离大于已配置的参考点信息对应的距离门限,不测量该频率。
其中,若终端与参考点信息指示的位置之间的距离大于距离门限,则说明终端位于参考点信息指示的邻小区的覆盖范围之外,由于该频率的优先级与服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,并且终端还位于多个参考点信息中至少一个参考点信息指示的邻小区的覆盖范围之外,因此终端可以不对该频率进行测量。
本申请实施例提供的方案中,在终端确定频率的重选优先级与服务小区的频率优先级相同,且服务小区的信号质量满足质量条件的情况下,若终端与该频率关联的参考点信息指示的位置之间的距离大于距离门限,则终端不会测量该频率,提高了终端进行邻小区测量的准确性。
需要说明的是,上述实施例中的质量条件为
Srxlev=Q rxlevmeas–(Q rxlevmin+Q rxlevminoffset)–P compensation-Qoffset temp
Squal=Q qualmeas–(Q qualmin+Q qualminoffset)-Qoffset temp
其中,Srxlev为小区选择电平,Squal为小区选择质量。Qoffset temp为小区偏移量。Q rxlevmeas为RSRP(Reference Signal Receiving Power,参考信号接收功率)。Q qualmeas为RSRQ(Reference Singnal Received Quality,参考信号接收质量)。Q rxlevmin为小区要求的最低电平。Q qualmin为小区要求的最低质量水平。Q rxlevminoffset为在Srxlev评估中的信号偏移量。Q qualminoffset为在Srxlev评估中的信号偏移量。P compensation为补偿电平。对于P compensation的取值来说,对于FR1(Frequency Range1,频率范围1),如果终端支持NR-NS-PmaxList中的附加Pmax,如果存在,则在SIB1(System Information Block 1,系统信息块1)、SIB2(System Information Block 2,系统信息块2)和SIB4(System Information Block 4,系统信息块4) 中:获取PEMAX1与PPowerClass的差值和0中的第一最大值,PPowerClass为功率等级电平,PEMAX2与PPowerClass中的第一最小值,PEMAX1与PPowerClass中的第二最小值,再获取第一最小值与第二最小值的第一差值,将第一最大值与第一差值之间的差值确定为P compensation;如果不存在,将PEMAX1–PPowerClass与0中的最大值确定为P compensation,对于FR2(Frequency Range2,频率范围2),P compensation设置为0。PEMAX为终端在上行传输时可以使用的最大功率电平。如果终端支持该小区的SUL(Supplementary Uplink,补充上行链路)频率,PEMAX1和PEMAX2分别从SIB1、SIB2和SIB4中的SUL中SUL的p-Max和SUL的NR-NS-PmaxList(一种最大功率电平列表)中获得。如果终端不支持该小区的SUL频率,PEMAX1和PEMAX2分别从正常UL(Uplink,上行链路)的SIB1、SIB2和SIB4中的p-Max和NR-NS-PmaxList获得。
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3示出了本申请一个示例性实施例提供的一种邻小区测量装置的框图,参见图3,该装置包括:
接收模块301,用于接收网络设备发送的配置信息,配置信息包括至少一个参考点信息和每个参考点信息对应的距离门限,每个参考点信息和/或每个参考点信息对应的距离门限与至少一个频率关联;
测量模块302,用于基于至少一个参考点信息和每个参考点信息对应的距离门限,进行邻小区测量。
在一些实施例中,至少一个参考点信息指示邻小区的位置。
在一些实施例中,配置信息为系统消息,或者,配置信息为无线资源控制RRC release消息。
在一些实施例中,测量模块302,还用于:
在参考点信息和/或参考点信息对应的距离门限对应的频率的重选优先级高于当前服务小区的频率优先级,且终端与参考点信息指示的位置之间的距离小于或等于距离门限的情况下,测量频率。
在一些实施例中,测量模块302,还用于:
在参考点信息和/或参考点信息对应的距离门限对应的频率的重选优先级高 于当前服务小区的频率优先级,且终端与参考点信息指示的位置之间的距离大于距离门限的情况下,不测量频率。
在一些实施例中,测量模块302,还用于:
在频率关联多个参考点信息和/或多个参考点信息对应的距离门限,频率的重选优先级高于当前服务小区的频率优先级,且多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离小于或等于参考点信息对应的距离门限的情况下,测量频率。
在一些实施例中,测量模块302,还用于:
在频率关联多个参考点信息和/或多个参考点信息对应的距离门限,频率的重选优先级高于当前服务小区的频率优先级,且多个参考点信息中每个参考点信息对应的位置与终端之间的距离大于参考点信息对应的距离门限的情况下,不测量频率。
在一些实施例中,测量模块302,还用于:
在参考点信息和/或参考点信息对应的距离门限对应的频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且终端与参考点信息对应的位置之间的距离小于或等于参考点信息对应的距离门限的情况下,测量频率。
在一些实施例中,测量模块302,还用于:
在参考点信息和/或参考点信息对应的距离门限对应的频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且终端与参考点信息对应的位置之间的距离大于参考点信息对应的距离门限的情况下,不测量频率。
在一些实施例中,测量模块302,还用于:
在频率关联多个参考点信息和/或多个参考点信息对应的距离门限,频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且多个参考点信息中存在至少一个参考点信息对应的位置与终端之间的距离小于或等于参考点信息对应的距离门限的情况下,测量频率。
在一些实施例中,测量模块302,还用于:
在频率关联多个参考点信息和/或多个参考点信息对应的距离门限,频率的重选优先级与当前服务小区的频率优先级相同,当前服务小区的信号质量满足质量条件,且多个参考点信息中每个参考点信息对应的位置与终端之间的距离 大于参考点信息对应的距离门限的情况下,不测量频率。
在一些实施例中,质量条件为服务小区的小区选择电平大于预设电平,且服务小区的小区选择质量大于预设质量。
在一些实施例中,网络设备属于非陆地网络NTN。
在一些实施例中,至少一个参考点信息和每个参考点信息对应的距离门限属于陆地网络TN。
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4示出了本申请一个示例性实施例提供的另一种邻小区测量装置的框图,参见图4,该装置包括:
发送模块401,用于向终端发送配置信息,配置信息包括至少一个参考点信息和每个参考点信息对应的距离门限,每个参考点信息和/或每个参考点信息与至少一个频率关联;
至少一个参考点信息和每个参考点信息对应的距离门限用于终端进行小区测量。
在一些实施例中,至少一个参考点信息指示邻小区的位置。
在一些实施例中,配置信息为系统消息,或者,配置信息为RRC release消息。
在一些实施例中,网络设备属于NTN。
在一些实施例中,至少一个参考点信息和每个参考点信息对应的距离门限属于TN。
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5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501、接收器502、发射器503、存储器504和总线505。
处理器501包括一个或者一个以上处理核心,处理器501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502和发射器503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504通过总线505与处理器501相连。
存储器504可用于存储至少一个程序代码,处理器501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或网络设备。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邻小区测量方法。
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,当所述芯片在终端或网络设备上运行时,用于实现如各个方法实施例提供的邻小区测量方法。
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或网络设备的处理器执行时,其用于实现上述各个方法实施例提供的邻小区测量方法。
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 (24)

  1. 一种邻小区测量方法,其特征在于,所述方法由终端执行,所述方法包括:
    接收网络设备发送的配置信息,所述配置信息包括至少一个参考点信息和每个参考点信息对应的距离门限,所述每个参考点信息和/或所述每个参考点信息对应的距离门限与至少一个频率关联;
    基于所述至少一个参考点信息和所述每个参考点信息对应的距离门限,进行邻小区测量。
  2. 根据权利要求1所述的方法,其特征在于,所述至少一个参考点信息指示邻小区的位置。
  3. 根据权利要求1或2所述的方法,其特征在于,所述配置信息为系统消息,或者,为无线资源控制释放RRC release消息。
  4. 根据权利要求1至3任一所述的方法,其特征在于,所述基于所述至少一个参考点信息和所述每个参考点信息对应的距离门限,进行邻小区测量,包括:
    在所述参考点信息和/或所述参考点信息对应的距离门限关联的频率的重选优先级高于当前服务小区的频率优先级,且所述终端与所述参考点信息指示的位置之间的距离小于或等于所述距离门限的情况下,测量所述频率。
  5. 根据权利要求1至3任一所述的方法,其特征在于,所述方法还包括:
    在所述参考点信息和/或所述参考点信息对应的距离门限关联的频率的重选优先级高于当前服务小区的频率优先级,且所述终端与所述参考点信息指示的位置之间的距离大于所述距离门限的情况下,不测量所述频率。
  6. 根据权利要求1至3任一所述的方法,其特征在于,所述基于所述至少一个参考点信息和所述每个参考点信息对应的距离门限,进行邻小区测量,包括:
    在频率关联多个参考点信息和/或所述多个参考点信息对应的距离门限,所述频率的重选优先级高于当前服务小区的频率优先级,且所述多个参考点信息 中存在至少一个参考点信息对应的位置与所述终端之间的距离小于或等于所述参考点信息对应的距离门限的情况下,测量所述频率。
  7. 根据权利要求1至3任一所述的方法,其特征在于,所述方法还包括:
    在频率关联多个参考点信息和/或所述多个参考点信息对应的距离门限,所述频率的重选优先级高于当前服务小区的频率优先级,且所述多个参考点信息中每个参考点信息对应的位置与所述终端之间的距离大于所述参考点信息对应的距离门限的情况下,不测量所述频率。
  8. 根据权利要求1至3任一所述的方法,其特征在于,所述基于所述至少一个参考点信息和所述每个参考点信息对应的距离门限,进行邻小区测量,包括:
    在所述参考点信息和/或所述参考点信息对应的距离门限关联的频率的重选优先级与当前服务小区的频率优先级相同,所述当前服务小区的信号质量满足质量条件,且所述终端与所述参考点信息对应的位置之间的距离小于或等于所述参考点信息对应的距离门限的情况下,测量所述频率。
  9. 根据权利要求1至3任一所述的方法,其特征在于,所述方法还包括:
    在所述参考点信息和/或所述参考点信息对应的距离门限关联的频率的重选优先级与当前服务小区的频率优先级相同,所述当前服务小区的信号质量满足质量条件,且所述终端与所述参考点信息对应的位置之间的距离大于所述参考点信息对应的距离门限的情况下,不测量所述频率。
  10. 根据权利要求1至3任一所述的方法,其特征在于,所述基于所述至少一个参考点信息和所述每个参考点信息对应的距离门限,进行邻小区测量,包括:
    在频率关联多个参考点信息和/或所述多个参考点信息对应的距离门限,所述频率的重选优先级与当前服务小区的频率优先级相同,所述当前服务小区的信号质量满足质量条件,且所述多个参考点信息中存在至少一个参考点信息对应的位置与所述终端之间的距离小于或等于所述参考点信息对应的距离门限的情况下,测量所述频率。
  11. 根据权利要求1至3任一所述的方法,其特征在于,所述方法还包括:
    在频率关联多个参考点信息和/或所述多个参考点信息对应的距离门限,所述频率的重选优先级与当前服务小区的频率优先级相同,所述当前服务小区的信号质量满足质量条件,且所述多个参考点信息中每个参考点信息对应的位置与所述终端之间的距离大于所述参考点信息对应的距离门限的情况下,不测量所述频率。
  12. 根据权利要求8至11任一所述的方法,其特征在于,所述质量条件为所述服务小区的小区选择电平大于预设电平,且所述服务小区的小区选择质量大于预设质量。
  13. 根据权利要求1至12任一所述的方法,其特征在于,所述网络设备属于非陆地网络NTN。
  14. 根据权利要求1至12任一所述的方法,其特征在于,所述至少一个参考点信息和每个参考点信息对应的距离门限属于陆地网络TN。
  15. 一种邻小区测量方法,其特征在于,所述方法由网络设备执行,所述方法包括:
    向终端发送配置信息,所述配置信息包括至少一个参考点信息和每个参考点信息对应的距离门限,所述每个参考点信息和/或所述每个参考点信息对应的距离门限与至少一个频率关联;
    所述至少一个参考点信息和所述每个参考点信息对应的距离门限用于所述终端进行小区测量。
  16. 根据权利要求15所述的方法,其特征在于,所述至少一个参考点信息指示邻小区的位置。
  17. 根据权利要求15或16所述的方法,其特征在于,所述配置信息为系统 消息,或者,为无线资源控制释放RRC release消息。
  18. 根据权利要求15至17任一所述的方法,其特征在于,所述网络设备属于NTN。
  19. 根据权利要求15至17任一所述的方法,其特征在于,所述至少一个参考点信息和每个参考点信息对应的距离门限属于TN。
  20. 一种邻小区测量装置,其特征在于,所述装置包括:
    接收模块,用于接收网络设备发送的配置信息,所述配置信息包括至少一个参考点信息和每个参考点信息对应的距离门限,所述每个参考点信息和/或所述每个参考点信息对应的距离门限与至少一个频率关联;
    测量模块,用于基于所述至少一个参考点信息和所述每个参考点信息对应的距离门限,进行邻小区测量。
  21. 一种邻小区测量装置,其特征在于,所述装置包括:
    发送模块,用于向终端发送配置信息,所述配置信息包括至少一个参考点信息和每个参考点信息对应的距离门限,所述每个参考点信息和/或所述每个参考点信息对应的距离门限与至少一个频率关联;
    所述至少一个参考点信息和所述每个参考点信息对应的距离门限用于所述终端进行小区测量。
  22. 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14任一所述的邻小区测量方法。
  23. 一种网络设备,其特征在于,所述网络设备包括:
    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15至19任一所述的邻小区测量方法。
  24. 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任一所述的邻小区测量方法。
PCT/CN2022/086688 2022-04-13 2022-04-13 邻小区测量方法、装置、设备及存储介质 WO2023197220A1 (zh)

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