WO2023179231A1 - Procédé et appareil de configuration d'informations de cellule, support de stockage lisible et système de puce - Google Patents
Procédé et appareil de configuration d'informations de cellule, support de stockage lisible et système de puce Download PDFInfo
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- WO2023179231A1 WO2023179231A1 PCT/CN2023/075179 CN2023075179W WO2023179231A1 WO 2023179231 A1 WO2023179231 A1 WO 2023179231A1 CN 2023075179 W CN2023075179 W CN 2023075179W WO 2023179231 A1 WO2023179231 A1 WO 2023179231A1
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- mobile relay
- tac
- cell
- location information
- relay
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- 238000004891 communication Methods 0.000 claims abstract description 134
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/14—Relay systems
- H04B7/15—Active relay systems
- H04B7/185—Space-based or airborne stations; Stations for satellite systems
- H04B7/18502—Airborne stations
- H04B7/18504—Aircraft used as relay or high altitude atmospheric platform
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/14—Relay systems
- H04B7/15—Active relay systems
- H04B7/185—Space-based or airborne stations; Stations for satellite systems
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W16/00—Network planning, e.g. coverage or traffic planning tools; Network deployment, e.g. resource partitioning or cells structures
- H04W16/18—Network planning tools
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/0005—Control or signalling for completing the hand-off
- H04W36/0083—Determination of parameters used for hand-off, e.g. generation or modification of neighbour cell lists
- H04W36/00835—Determination of neighbour cell lists
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W60/00—Affiliation to network, e.g. registration; Terminating affiliation with the network, e.g. de-registration
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/20—Manipulation of established connections
- H04W76/27—Transitions between radio resource control [RRC] states
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/40—Connection management for selective distribution or broadcast
Definitions
- the present application relates to the field of communication technology, and in particular to a cell information configuration method, device, readable storage medium and chip system.
- relay devices In order to improve network capacity and coverage, a relay node that supports wireless backhaul transmission is proposed to implement dense network deployment.
- Devices that support relay functions are referred to as relay devices (can also be called relays or relay nodes).
- Relay devices provide similar functions and services to ordinary base stations for terminals accessing their cells. Relay devices and terminals The communication link between them is called the access link.
- the relay device accesses a base station serving it in a terminal-like manner through a wireless interface.
- the base station is called a donor base station.
- the wireless interface link between the relay device and the donor base station is called a backhaul link. road (backhaul link).
- IAB node In the fifth generation (the fifth generation, 5G) new radio (NR) research, integrated access and backhaul (integrated access and backhaul) that integrates wireless access links and wireless backhaul links are proposed.
- IAB node The IAB node can access the network through its mobile terminal (Mobile-Termination, MT) function, and then the operations administration and maintenance (OAM) device configures cell information for the IAB node. The cell information can be included in the IAB node.
- Configured tracking area code (TAC) Existing IAB nodes are fixed relay devices on the ground. When a terminal device accesses the fixed IAB node, the network side can determine the location of the terminal device based on the TAC of the IAB node cell currently accessed by the terminal device.
- TAC tracking area code
- a mobile base station relay also known as vehicle mounted relay (VMR)
- VMR vehicle mounted relay
- the VMR node can be configured in the vehicle and can move with the vehicle.
- the VMR can be in the vehicle Or the terminal equipment near the car provides services.
- the VMR node is an IAB node with mobile capabilities.
- VMR can also be called a mobile relay.
- the VMR node can use a wireless interface similar to The terminal accesses a base station that serves it.
- the base station can be called a donor base station.
- the wireless interface link between the relay device and the donor base station is called a backhaul link.
- the VMR node can also access the network through its mobile terminal (mobile-termination, MT) function, and then the OAM device configures cell information for the VMR node.
- MT mobile-termination
- This application provides a cell information configuration method, device, readable storage medium and chip system for configuring cell information for relay equipment with mobile capabilities.
- this application provides a method for configuring cell information, which method can be executed by a relay device with mobile capabilities or a unit, module or chip within the relay device.
- the relay device with mobility capability is called a mobile relay.
- This application takes the method executed by a mobile relay as an example for illustration.
- the mobile relay is in a moving state, and is used to provide relay services between terminal equipment and access network equipment.
- the access network device may also be called the host base station of the mobile relay.
- the method includes:
- the mobile relay sends the location information of the mobile relay to the management device, and the location information of the mobile relay is used to obtain the cell configuration information of the mobile relay.
- the mobile relay receives cell configuration information of the mobile relay from the management device.
- the cell configuration information of the mobile relay includes the first TAC, and the first TAC is determined based on the location information of the mobile relay.
- the TAC of the mobile relay is not determined based on the location information of the mobile relay.
- the management device configures a fixed TAC for the mobile relay cell, such as TAC#1.
- the mobile relay is located at the first position, and the TAC included in the broadcast message sent by mobile relay 3 is TAC#1.
- the TAC of mobile relay 3 does not change, and the broadcast message sent by mobile relay 3
- the TAC included in is still TAC#1.
- the TAC of the mobile relay that the terminal device accesses is always TAC#1. Therefore, even if the mobile relay has moved to the second position, the network side may still think that the mobile relay is at the first position, and then determine that the terminal device accessing the mobile relay is also near the first position. It can be seen that configuring a fixed TAC for the mobile relay will cause the network side to determine incorrect location information for the UE accessing the mobile relay.
- the TAC of the mobile relay cell is determined based on the location information of the mobile relay, the network side (such as network elements, network side equipment, devices, etc.)
- the TAC of the relay determines the location information of the mobile relay, and then the current location of the terminal device accessing the mobile relay can be determined relatively accurately. It can be seen that the cell information configuration method provided by this application can configure cell configuration information for a relay with mobility capabilities.
- the location information of the mobile relay in this application may include various forms, and it only needs to be able to indicate the location of the mobile relay.
- the location information of the mobile relay may include: at least one of the second TAC of the first cell of the first access network device accessed by the mobile relay, the identity of the first cell, or the identity of the first access network device. item.
- the location information of the mobile relay may also include information on the geographical area of the location where the mobile relay is located. Among them, there is at least one item of information on the geographical area where the mobile relay is located.
- the information of the geographical area may include at least one of a longitude area range, a latitude area range, or a geographical area identifier (the geographical area identifier may include, for example, an administrative region identifier, etc.).
- the first access network device accessed by the mobile relay may refer to the access network device currently accessed by the MT function of the mobile relay.
- the first access network device may also be called the host base station of the mobile relay.
- the management device may assign the TAC to the cell of the access network device to which the mobile relay is connected.
- the TAC is determined to be the TAC of the cell of the mobile relay, that is, the first TAC is the same as the second TAC of the first cell of the access network device accessed by the mobile relay.
- the TAC configured by the management device for the cell of the mobile relay can also be configured with the TAC of the cell of the mobile relay.
- the TAC of the cell that the mobile relay accesses is different, that is, the first TAC is different from the second TAC of the first cell of the access network device that the mobile relay accesses.
- the mobile relay receives a first broadcast message from the first cell of the access device, and the first broadcast message includes the second TAC of the first cell of the access network device accessed by the mobile relay, the identity of the first cell, or At least one of the identifiers of the access network equipment.
- the mobile relay may obtain at least one of the second TAC of the first cell of the access network device accessed by the mobile relay, the identity of the first cell, or the identity of the access network device obtained from the first broadcast message.
- a piece of location information as a mobile relay is sent to the management device, which can save the signaling consumed by the mobile relay in querying location information from other network elements.
- the mobile relay before the mobile relay sends the location information of the mobile relay to the management device, the mobile relay queries the core network device for the location of the mobile relay, and the mobile relay receives the location information of the mobile relay from the core network device.
- the location information of the mobile relay may include information about the geographical area where the mobile relay is located.
- the information of the geographical area may include at least one of longitude area range, latitude area range, or geographical area identification, etc.
- the mobile relay After the mobile relay determines that the mobile relay has moved, the mobile relay sends the location information of the mobile relay to the management device.
- the management device can re-configure the TAC for the cell of the mobile relay based on the moved location information of the mobile relay, thereby achieving dynamic
- the effect of configuring TAC for the mobile relay is that the network side can more accurately determine the current location of the terminal device based on the TAC of the mobile relay accessed by the terminal device.
- the mobile relay determines that the mobile relay has moved based on at least one of the TAC of the cell where the mobile relay accesses, a cell identity, or an identity of the access network device. For example, the mobile relay receives a second broadcast message from the second cell of the second access network device, and the second broadcast message includes at least one of the third TAC, the identity of the second cell, or the identity of the second access device. item. After the mobile relay receives the second broadcast message, the mobile relay receives the first broadcast message of the first cell of the first access network device, where the first broadcast message includes the second TAC of the first cell of the first access network device. , the identity of the first cell, or at least one of the identity of the first access network device.
- the mobile relay determines that the mobile relay has moved when it is determined that at least one of the following contents is satisfied: the second TAC is different from the third TAC, the identity of the first cell is different from the identity of the second cell, or, the first cell
- the identifier of the access device is different from the identifier of the second access device.
- the mobile relay will receive broadcast messages in different cells, and then the mobile relay can determine whether the mobile relay has moved based on the information carried in the broadcast message, and then when it is determined that movement has occurred, notify the management device Send location information.
- the mobile relay determines whether the mobile relay has moved based on at least one of the second TAC of the first cell of the first access network device, the identity of the first cell, or the identity of the first access network device. , it can also prevent the mobile relay from frequently sending the location information of the mobile relay. For example, a mobile relay is always in a moving state, but it does not mean that the mobile relay will send location information to the management device when it moves any distance. Instead, the mobile device needs to move within a preset movement range before sending the location information to the management device. For example, if the mobile device moves out of the cell it is currently accessed, the movement of the mobile device satisfies the preset movement range.
- the mobile relay When the mobile relay determines that at least one of the TAC, cell identity, and access network equipment of the accessed cell changes, the mobile relay may move out of the currently accessed cell. Therefore, the mobile relay When the mobile relay moves, it is determined based on at least one of the TAC of the cell where the mobile relay accesses, the cell identity, and the access network equipment to which the mobile relay accesses, that the mobile relay's movement will satisfy the preset movement range to a large extent. Therefore, The mobile relay determines the time when the mobile relay moves based on at least one of the TAC of the cell where the mobile relay accesses, the cell identity, and the access network equipment to which the mobile relay accesses. to send location information.
- the mobile relay when the mobile relay determines that the mobile relay's movement satisfies the preset movement range, the mobile relay sends location information.
- the preset movement range may include at least one of the following: the TAC of the cell accessed by the mobile relay changes, the cell identity of the cell accessed by the mobile relay changes, or the cell identity accessed by the mobile relay changes.
- the access network equipment changes.
- the preset mobility range includes: the TAC of the cell accessed by the mobile relay changes.
- the mobile relay sends the location information of the mobile relay.
- the mobile relay when the mobile relay determines that the movement of the mobile intermediate level does not meet the preset movement range, the mobile relay may not send location information.
- the preset mobility range includes: the TAC of the cell accessed by the mobile relay changes.
- the mobile relay determines that the TAC of the accessed cell has not changed, it is possible that the mobile relay has a smaller moving range.
- the mobile relay can be allowed not to send location information. In this way, it can be avoided The mobile relay frequently sends the location information of the mobile relay to reduce signaling consumption.
- the preset mobility range includes: the identity of the access network device connected to the mobility relay changes.
- the mobile relay determines that the identity of the access network device has not changed, it is possible that the mobile relay's movement range is small.
- the mobile relay can be allowed not to send location information, so , which can prevent the mobile relay from frequently sending the location information of the mobile relay and reduce signaling consumption.
- the mobile relay after the mobile relay receives the cell configuration information of the mobile relay from the management device, the mobile relay requests the access network device to activate the cell of the mobile relay, and the first TAC is used as the mobile relay TAC of the relay cell, so that the access network device activates the mobile relay cell according to the first TAC.
- embodiments of the present application provide a cell information configuration method, which can be executed by a mobile relay or a unit, module or chip within the mobile relay.
- This application takes the method executed by a mobile relay as an example for illustration.
- the mobile relay is in a moving state, and is used to provide relay services between terminal equipment and access network equipment.
- the method includes:
- the mobile relay sends indication information to the management device, and the indication information is used to trigger the management device to obtain the location information of the mobile relay.
- the mobile relay receives the first TAC configured for the cell of the mobile relay from the management device, and the first TAC is determined based on the location information of the mobile relay.
- the management device can obtain the location information of the mobile relay based on the instruction information, and then obtain the location information of the mobile relay based on the location information of the mobile relay.
- Determine the TAC of the mobile relay so the network side can determine the location information of the mobile relay based on the TAC of the mobile relay accessed by the terminal device, and then can more accurately determine the terminal accessing the DU cell of the mobile relay.
- the current location of the device It can be seen that the cell information configuration method provided by this application can configure cell configuration information for a relay device with mobility capabilities.
- the indication information for triggering the management device to obtain the location information of the mobile relay includes: indicating that the type of the mobile relay is a type of relay device with mobility capabilities; and/or, for Information indicating that the type of mobile relay is a vehicle-mounted relay equipment type.
- the management device can determine based on the indication information that the relay device has mobility capability and belongs to the mobile relay. Instead, you can obtain the location information of the mobile relay.
- relay devices without mobility capabilities may be called non-mobile relays.
- the management device configures TAC for such non-mobile relays, it may be configured based on the location information of the non-mobile relays. TAC may also not be configured based on the location information of the non-mobile relay.
- the management device determines that the relay device belongs to a non-mobile relay (for example, the management device does not receive the location information indication information from the relay device that is used to trigger the management device to obtain a mobile relay), it determines that the relay device belongs to a non-mobile relay; For another example, if the message sent by the relay device to the management device requesting to configure the cell configuration information of the relay device does not carry the location information indication information used to trigger the management device to obtain the mobile relay, then it is determined that the relay device is a non-mobile relay. ), and there is no need to configure TAC based on the location information of the non-mobile relay, the management device does not need to obtain the location information of the non-mobile relay, thereby saving signaling overhead.
- the management device determines that the relay device is a non-mobile relay. For example, if the management device does not receive the location information indication information from the relay device that is used to trigger the management device to obtain the mobile relay, then it determines that the relay device is a non-mobile relay. The relay equipment is a non-mobile relay. For another example, if the message sent by the relay device to the management device requesting to configure the cell configuration information of the relay device does not carry the location information indication information used to trigger the management device to obtain the mobile relay, then it is determined that the relay device is a non-mobile relay. .
- the location information of the mobile relay includes: the second TAC of the first cell of the access network device accessed by the mobile relay, the identity of the first cell, or the identity of the access network device. at least one of.
- the first TAC is the same as or different from the second TAC of the first cell of the access network device accessed by the mobile relay.
- embodiments of the present application provide a cell information configuration method, which can be executed by a management device or a unit, module or chip within the management device.
- This application takes the method executed by the management device as an example for illustration. The method includes:
- the management device obtains the location information of the mobile relay; the mobile relay is in a moving state, and the mobile relay is used to provide relay services between the terminal device and the access network device.
- the management device sends a first TAC to the mobile relay, where the first TAC is used as a TAC of a cell serving as the mobile relay, and the first TAC is determined based on the location information of the mobile relay.
- the network side can determine the location information of the mobile relay based on the TAC of the mobile relay accessed by the terminal device, and then can determine it more accurately.
- embodiments of the present application provide a cell information configuration method, which can be executed by a management device or a unit, module or chip within the management device.
- This application takes the method executed by the management device as an example for illustration. The method includes:
- the management device receives location information from the mobile relay, and the location information of the mobile relay is used to obtain the cell configuration information of the mobile relay.
- the management device sends a first TAC to the mobile relay, where the first TAC is used as a TAC of a cell serving as the mobile relay, and the first TAC is determined based on the location information of the mobile relay.
- the network side can The TAC of the mobile relay that the terminal device accesses determines the location information of the mobile relay, and then the current location of the terminal device in the cell of the DU entity that accesses the mobile relay can be determined relatively accurately. It can be seen that the cell information configuration method provided by this application can configure cell configuration information for a relay with mobility capabilities.
- the management device may obtain an association between the location and the TAC.
- the association may include an association between the location indicated by the location information of the mobile relay and the first TAC.
- the association may also be called correspondence. Relationships, mapping relationships, etc. can also be reflected in the form of mapping tables.
- the management device may determine that the TAC corresponding to the location information of the mobile relay is the first TAC based on the association relationship, and then send the first TAC to the mobile relay. In this way, the network side can determine the location of the mobile relay that the terminal device accesses based on the TAC of the mobile relay that the terminal device accesses and the location managed by the TAC, and then can obtain the current location of the terminal device more accurately.
- the location information of the mobile relay includes: the second TAC of the first cell of the access network device accessed by the mobile relay, the identity of the first cell, or the access network device accessed by the mobile relay. At least one of the identifiers of the network access device.
- the first TAC is the same as or different from the second TAC of the first cell of the access network device accessed by the mobile relay.
- embodiments of the present application provide a cell information configuration method, which can be executed by a management device or a unit, module or chip within the management device.
- This application takes the method executed by the management device as an example for illustration. The method includes:
- the management device subscribes to the core network device for the location information of the mobile relay; the management device receives the location information of the mobile relay from the core network device.
- the management device sends a first TAC to the mobile relay, where the first TAC is used as a TAC of a cell serving as the mobile relay, and the first TAC is determined based on the location information of the mobile relay.
- the network side can determine the location information of the mobile relay based on the TAC of the mobile relay accessed by the terminal device, and then can determine it more accurately.
- the management device before the management device subscribes to the core network device for the location information of the mobile relay, the management device receives indication information from the mobile relay, and the indication information is used to trigger the management device to subscribe to the location information of the mobile relay.
- the indication information includes: used to indicate that the type of mobile relay is a type of relay device with mobility capabilities; and/or used to indicate that the type of mobile relay is a type of vehicle-mounted relay device. Information.
- the management device may obtain an association between the location and the TAC.
- the association may include an association between the location indicated by the location information of the mobile relay and the first TAC.
- the association may also be called correspondence. Relationships, mapping relationships, etc. can also be reflected in the form of mapping tables.
- the management device may determine that the TAC corresponding to the location information of the mobile relay is the first TAC based on the association relationship, and then send the first TAC to the mobile relay.
- the network side can determine the location of the mobile relay that the terminal device accesses based on the TAC of the mobile relay that the terminal device accesses and the location managed by the TAC, and then can more accurately obtain the location of the mobile relay that the terminal device accesses. Prepare your current location.
- the location information of the mobile relay includes: the second TAC of the first cell of the access network device accessed by the mobile relay, the identity of the first cell, or the access network device accessed by the mobile relay. At least one of the identifiers of the network access device.
- the first TAC is the same as or different from the second TAC of the first cell of the access network device accessed by the mobile relay.
- a communication device may be the above-mentioned mobile relay or management device.
- the communication device may include a communication unit and a processing unit to perform any one of the methods of the first to fifth aspects. any implementation.
- the communication unit is used to perform functions related to sending and receiving.
- the communication unit includes a receiving unit and a sending unit.
- the communication device is a communication chip
- the processing unit may be one or more processors or processor cores
- the communication unit may be an input/output circuit or port of the communication chip.
- the communication unit may be a transmitter and a receiver, or the communication unit may be a transmitter and a receiver.
- the communication device further includes various modules that can be used to perform any one of the methods of the first to fifth aspects.
- a communication device may be the above-mentioned mobile relay or management device.
- the communication device may include a processor and a memory.
- a transceiver is also included, the memory is used to store computer programs or instructions, and the processor is used to call and run the computer program or instructions from the memory.
- the processor executes the computer program or instructions in the memory, the The communication device performs any one of the implementation methods of any one of the above-mentioned first to fifth aspects.
- processors there are one or more processors and one or more memories.
- the memory can be integrated with the processor, or the memory can be provided separately from the processor.
- the transceiver may include a transmitter (transmitter) and a receiver (receiver).
- a communication device may be the above-mentioned mobile relay or management device, and the communication device may include a processor.
- the processor is coupled to a memory and may be used to execute any one of the first to fifth aspects and the method in any possible implementation of the first to fifth aspects.
- the communication device further includes a memory.
- the communication device further includes a communication interface, and the processor is coupled to the communication interface.
- the communication interface may be a transceiver or an input/output interface.
- the transceiver may be a transceiver circuit.
- the input/output interface may be an input/output circuit.
- the communication interface may be an input/output interface, interface circuit, output circuit, input circuit, pin or related circuit on the chip or chip system, etc.
- a processor may also be embodied as a processing circuit or logic circuit.
- a system which includes the above-mentioned mobile relay and management equipment.
- a computer program product includes: a computer program (which can also be called a code, or an instruction).
- a computer program which can also be called a code, or an instruction.
- the computer program When the computer program is run, it causes the computer to execute any one of the above-mentioned first aspects.
- the method in the above-mentioned aspect can be implemented, or the computer can be caused to execute the method in any one of the above-mentioned first to fifth aspects.
- a computer-readable storage medium stores a computer program (which may also be called a code, or an instruction) that when run on a computer causes the computer to execute any of the above-mentioned tasks in the first aspect.
- a computer program (which may also be called a code, or an instruction) that when run on a computer causes the computer to execute any of the above-mentioned tasks in the first aspect.
- a twelfth aspect provides a chip system, which may include a processor.
- the processor is coupled to a memory and may be used to execute any one of the first to fifth aspects, and any method in any possible implementation manner of any one of the first to fifth aspects.
- the chip system also includes a memory.
- Memory is used to store computer programs (also called codes, or instructions).
- a processor configured to call and run a computer program from a memory, so that the device installed with the chip system executes any one of the first to fifth aspects, and any one of the first to fifth aspects possible. Methods in the implementation.
- a communication device may be the above-mentioned mobile relay or management device.
- the communication device may include: an interface circuit and a processing circuit.
- Interface circuits may include input circuits and output circuits.
- the processing circuit is configured to receive signals through the input circuit and transmit signals through the output circuit, so that the method in any one of the first to fifth aspects and any possible implementation manner of the first to fifth aspects is implemented.
- the above-mentioned processing device may be a chip
- the input circuit may be an input pin
- the output circuit may be an output pin
- the processing circuit may be a transistor, a gate circuit, a flip-flop, and various logic circuits.
- the input signal received by the input circuit may be received and input by, for example, but not limited to, the receiver, and the signal output by the output circuit may be, for example, but not limited to, output to and transmitted by the transmitter, and the input circuit and the output A circuit may be the same circuit that functions as an input circuit and an output circuit at different times.
- This application does not limit the specific implementation methods of the processor and various circuits.
- the wireless communication device when the communication device is a wireless communication device, the wireless communication device may be a terminal such as a smartphone or a wireless access network device such as a base station.
- the interface circuit may be a radio frequency processing chip in the wireless communication device, and the processing circuit may be a baseband processing chip in the wireless communication device.
- the communication device may be a part of a wireless communication device, such as an integrated circuit product such as a system chip or a communication chip.
- the interface circuit may be an input/output interface, interface circuit, output circuit, input circuit, pin or related circuit on the chip or chip system, etc.
- the processing circuitry may be logic circuitry on the chip.
- Figure 1a is a schematic diagram of a possible application scenario applicable to the embodiment of the present application.
- Figure 1b is a schematic diagram of a network architecture to which embodiments of the present application may be applicable;
- Figure 1c is a schematic diagram of a possible system architecture applicable to the embodiment of the present application.
- Figure 1d is a schematic diagram of a possible system architecture applicable to the embodiment of the present application.
- Figure 2 is a schematic flow chart of a possible cell information configuration method provided by an embodiment of the present application.
- Figure 3 is a schematic flow chart of another possible cell information configuration method provided by the embodiment of the present application.
- Figure 4a is a schematic flow chart of another possible cell information configuration method provided by the embodiment of the present application.
- Figure 4b is a schematic flow chart of another possible cell information configuration method provided by the embodiment of the present application.
- Figure 4c is a schematic flow chart of another possible cell information configuration method provided by the embodiment of the present application.
- Figure 5a is a schematic flow chart of another possible cell information configuration method provided by the embodiment of the present application.
- Figure 5b is a schematic flow chart of another possible cell information configuration method provided by the embodiment of the present application.
- Figure 6 is a schematic flow chart of another possible cell information configuration method provided by the embodiment of the present application.
- Figure 7a is a schematic flow chart of another possible cell information configuration method provided by the embodiment of the present application.
- Figure 7b is a schematic flow chart of another possible cell information configuration method provided by the embodiment of the present application.
- Figure 8 is a possible structural schematic diagram of the device provided by the embodiment of the present application.
- Figure 9 is another possible structural schematic diagram of the device provided by the embodiment of the present application.
- Figure 10 is a possible structural schematic diagram of the device provided by the embodiment of the present application.
- Figure 1a exemplarily shows a schematic diagram of a possible application scenario applicable to the embodiment of the present application.
- this scenario includes one or more access network devices.
- the access network device includes a base station. 1 and base station 2 are taken as examples for illustration.
- Base station 1 includes cell 101 and cell 102, and base station 2 includes cell 103.
- this scenario includes mobile relay 3.
- Mobile relay 3 needs to perform cell selection when accessing the network, and subsequently initiates random access in the cell.
- the access network equipment corresponding to the cell accessed by mobile relay 3 can be called a host base station.
- mobile relay 3 is used as a vehicle-mounted relay for illustration.
- Figure 1a shows a possible driving path of the mobile relay 3. According to the driving path, the mobile relay 3 can sequentially access the cell 101 of the base station 1, the cell 102 of the base station 1 and the cell 103 of the base station 2. .
- the terminal device is user equipment (UE) as an example.
- UE user equipment
- the UE can access the cell of mobile relay 3.
- the UE may be a terminal device of a passenger riding on a vehicle in which the mobile relay 3 is deployed. Of course, it may also be a terminal device located at other locations, which is not limited by the embodiment of this application. Any two UEs among the three UEs shown in Figure 1a may be the same or different, and are not limited in this embodiment of the present application.
- the mobile relay 3 is located at a first location (the first location is, for example, a location within the coverage area of the cell 101 of the base station 1), and the TAC included in the broadcast message sent by the mobile relay 3 is TAC#1.
- the first location is, for example, a location within the coverage area of the cell 101 of the base station 1
- the second location is, for example, a location within the coverage area of cell 102 of base station 1 or cell 103 of base station 2
- the TAC of mobile relay 3 does not change.
- the TAC included in the broadcast message sent by the mobile relay 3 is still TAC#1. Because for a UE accessing mobile relay 3, the TAC of mobile relay 3 accessed by the UE is TAC#1.
- the network side may still think that the mobile relay 3 is at the first position, and then determine that the UE accessing the mobile relay 3 is also near the first position. It can be seen that configuring a fixed TAC for mobile relay 3 will cause the network side to determine incorrect location information for UEs accessing the mobile relay.
- the embodiment of the present application aims to determine the TAC of mobile relay 3 based on the location information of mobile relay 3. Therefore, when the UE accesses the cell of mobile relay 3, the UE can obtain the cell of mobile relay 3. TAC. Then, the network side can determine the location of the UE based on the TAC of the mobile relay that the UE accesses. For example, the network side can first determine the current location of mobile relay 3 based on the TAC of the cell of mobile relay 3 that the UE accesses, and then obtain to the location of the UE. It can be seen that the solution provided by the embodiment of this application can configure TAC for the mobile relay.
- the communication systems mentioned in the embodiments of this application include but are not limited to: fifth generation mobile networks or 5th generation wireless systems (5G), or communication systems or communication networks after 5G, etc., such as new wireless (new radio, NR) system, etc.
- 5G fifth generation mobile networks
- 5G 5th generation wireless systems
- NR new wireless
- Figure 1b takes 5G as an example to illustrate a schematic diagram of a network architecture that may be applicable to the embodiment of the present application.
- Each device involved in the embodiment of the present application will be introduced below in conjunction with Figure 1b.
- the access network equipment including the base station 1 in Figure 1a is taken as an example for illustration.
- the relevant content of base station 2 in Figure 1a is similar to that of base station 1 and will not be described again.
- the MT entity of the mobile relay can access the access network device.
- the access network equipment can also be called a host node. In English, it can also be called a donor base station, or a donor macro station.
- Access network equipment is a device in the communication system that connects terminal side equipment to the wireless network.
- the core network can be accessed through this node.
- Access network equipment is connected to the core network (such as 5G Core Network (5GC)) through wired links (such as fiber optic cables).
- the access network device can be responsible for receiving data from the core network and forwarding it to the wireless backhaul device, or receiving data from the wireless backhaul device and forwarding it to the core network.
- the access network device may be connected to the network in a wired manner, for example.
- the access network equipment may include a radio network controller (RNC), a node B (Node B, NB), a base station controller (base station controller, BSC), and a base transceiver station (base transceiver station).
- RNC radio network controller
- Node B, NB node B
- BSC base station controller
- base transceiver station base transceiver station
- BTS radio network controller
- home base station for example, home evolved NodeB, or home Node B, HNB
- base band unit base band unit
- BBU base band unit
- LTE-A evolved LTE systems
- Evolutionary base station NodeB or eNB or e-NodeB, evolutionary Node B
- it can also include the next generation Node B (next) in the fifth generation (5G) new wireless (new radio, NR) system. generation node B, gNB), etc.
- the access network equipment may include a gNB-centralized unit (CU) and a gNB-distributed unit (DU).
- CU gNB-centralized unit
- DU gNB-distributed unit
- gNB-CU and gNB-DU are connected through the F1 interface.
- the CU and the core network are connected through the next generation (NG) interface.
- NG next generation
- gNB-DU includes the functions of the physical layer (PHY)/medium access control (MAC)/radio link control (RLC) layer, which are used for the access network equipment.
- the relay equipment attached below provides access services.
- gNB-DU can connect to gNB-CU through the F1 interface.
- the gNB-DU can also be connected to the terminal device (such as UE111) or the MT function of the relay device (such as the MT of mobile relay 3) through the Uu interface.
- gNB-CU is used to control radio resource control (RRC) for all relay devices and terminal devices under it. For example, it can store the context of relay devices and terminal devices.
- RRC radio resource control
- gNB-CU can connect with the DU function of other relay devices (such as the DU of mobile relay 3 and the DU of mobile relay 4) through the F1 interface.
- the function of the access network device may be implemented by hardware components inside the access network device, for example, a processor and/or a programmable chip inside the access network device.
- the chip can be implemented by an application-specific integrated circuit (ASIC) or a programmable logic device (PLD).
- ASIC application-specific integrated circuit
- PLD programmable logic device
- the above-mentioned PLD can be a complex programmable logical device (CPLD), a field-programmable gate array (FPGA), a general array logic (generic array logic, GAL), system on a chip (SOC) or any combination thereof.
- CPLD complex programmable logical device
- FPGA field-programmable gate array
- GAL general array logic
- SOC system on a chip
- the mobile relay in the embodiment of this application can be understood as a relay device with mobile capabilities.
- mobile relays may include relay devices deployed on movable objects such as aircraft, high-speed trains, vehicles, and drones, or the mobile relay itself may be a relay device with mobile capabilities.
- part of the content in the embodiment of the present application is shown by taking the mobile relay as a relay device deployed on the vehicle as an example (such as the aforementioned Figure 1a).
- the mobile relay deployed on the vehicle can be Called VMR.
- the mobile relay can include two parts: MT and DU.
- the mobile relay includes the mobile relay 3 in Figure 1a and the mobile relay 4, and the mobile relay 3 and the mobile relay 4 are currently accessing the base station 1 for illustration.
- the MT of mobile relay is similar to the function of user equipment (UE), communicating with the parent node through the Uu interface and providing data backhaul.
- UE user equipment
- the MT of mobile relay 3 is connected to the DU of the parent node (base station 1) through the Uu interface.
- the DU of mobile relay is similar to the function of DU in gNB, including the functions of PHY/MAC/RLC layer, communicating with sub-nodes and providing access services to sub-nodes.
- the DU of mobile relay 3 can provide services for sub-nodes (terminal devices (such as UE112) or other relays (such as mobile relay 4)) through the Uu interface.
- UE 112 in Figure 1b may be a UE that accesses the cell of mobile relay 3 when mobile relay 3 accesses cell 1 or cell 2 of base station 1 in Figure 1a.
- Mobile relay 4 is similar to mobile relay 3.
- the MT of mobile relay 3 can be connected to the DU of the parent node (mobile relay 3) through the Uu interface.
- the DU of mobile relay 4 can provide services for terminal equipment (such as UE113) or other relays through the Uu interface.
- the MT of the mobile relay is called the MT function of the mobile relay, the MT entity of the mobile relay, or the MT entity; the DU of the mobile relay is called the mobile relay.
- the MT entity and DU entity of mobile relay are just an example of naming. In future communication systems or networks, the MT entity and DU entity can also be replaced by modules with equivalent functions, or there can be other names. This article There are no restrictions on this application.
- the mobile relay in the embodiment of the present application may also have other names, such as mobile relay node, mobile relay device, relay node, relay device, etc.
- the embodiment of the present application does not limit its name.
- mobile relay is taken as an example.
- An end device is a device that provides voice and/or data connectivity to a user.
- the terminal-side device involved in this application may be a terminal device or a terminal, or a hardware component inside the terminal device that can implement the functions of the terminal device.
- the terminal equipment includes UE111, UE112 and UE113 as an example for illustration.
- the terminal-side device may be called user equipment (UE), mobile station (MS), mobile terminal (MT), etc., and may include, for example, a handheld device with a wireless connection function. device, or a processing device connected to a wireless modem.
- the terminal can communicate with the core network via a radio access network (radio access network, RAN), and exchange voice and/or data with the RAN.
- radio access network radio access network
- terminal devices are: personal communication service (PCS) phones, cordless phones, Session initiation protocol (SIP) phones, wireless local loop (WLL) stations, personal digital assistants (PDAs), barcodes, radio frequency identification (RFID), sensors, Satellite navigation systems, such as global positioning system (GPS), Beidou positioning system, laser scanners and other information sensing equipment.
- PCS personal communication service
- SIP Session initiation protocol
- WLL wireless local loop
- PDAs personal digital assistants
- RFID radio frequency identification
- sensors satellite navigation systems, such as global positioning system (GPS), Beidou positioning system, laser scanners and other information sensing equipment.
- GPS global positioning system
- Beidou positioning system Beidou positioning system
- laser scanners and other information sensing equipment.
- the terminal side device can also be a wearable device.
- Wearable devices can also be called wearable smart devices. It is a general term for applying wearable technology to intelligently design daily wear and develop wearable devices, such as glasses, gloves, watches, clothing and shoes, etc.
- a wearable device is a portable device that is worn directly on the body or integrated into the user's clothing or accessories. Wearable devices are not just hardware devices, but also achieve powerful functions through software support, data interaction, and cloud interaction. Broadly defined wearable smart devices include full-featured, large-sized devices that can achieve complete or partial functions without relying on smartphones, such as smart watches or smart glasses, and those that only focus on a certain type of application function and need to cooperate with other devices such as smartphones.
- the terminal can also be a virtual reality (VR) device, an augmented reality (AR) device, a wireless terminal in industrial control, a wireless terminal in self-driving, or remote surgery Wireless terminals in (remote medical surgery), wireless terminals in smart grid (smart grid), wireless terminals in transportation safety (transportation safety), wireless terminals in smart city (smart city), smart home (smart home) Wireless terminals, terminal equipment in the future evolved public land mobile network (PLMN), or vehicle equipment in the Internet of Vehicles (vehicle to everything, V2X), customer premises equipment (CPE) )wait.
- VR virtual reality
- AR augmented reality
- the functions of the terminal-side device can be implemented through hardware components inside the terminal device, and the hardware components can be processors and/or programmable chips inside the terminal device.
- the chip can be implemented by ASIC, or PLD.
- PLD can be any one of CPLD, FPGA, GAL, SOC or any combination thereof.
- the various terminals introduced above can be considered as vehicle-mounted terminal equipment if they are located on the vehicle (for example, placed or installed in the vehicle).
- Figure 1b may also include other equipment, such as core network equipment or equipment used to carry virtualized network functions, etc., which are not limited by the embodiment of this application.
- the network architecture shown in Figure 1b does not limit the number of terminal equipment, mobile relays and access network equipment.
- Figures 1c and 1d exemplarily illustrate two possible system architecture diagrams applicable to the embodiments of the present application.
- Figures 1c and 1d are introduced by taking the application of the embodiment of the present application to the 5G network architecture as an example. There are many possible 5G network architectures.
- Figures 1c and 1d are two possible 5G network architectures provided by the embodiment of the present application. Schematic diagram. As shown in Figure 1c, the network architecture usually includes the following devices, network elements, and networks:
- Access network equipment including (wireless) access network (radio access network, (R)AN) network elements are used as examples for demonstration.
- R radio access network
- R radio access network
- One or more mobile relays may be deployed between the terminal device and the access network device, such as mobile relay 3 in Figure 1a above.
- User plane network element used for packet routing and forwarding and quality of service (QoS) processing of user plane data, interconnecting protocol data unit (PDU) sessions with data networks, and packet routing And forwarding, for example, supports uplink classifier on traffic and then forwards it to the data network, supports branching points to support multi-homed PDU sessions, and packet inspection, etc.
- QoS quality of service
- the user plane network element can be a user plane function (UPF) network element, for example, it can include an intermediate user plane function (I-UPF) network element. element, or at least one of the anchor user plane function (PDU Session anchor user plane function, PSA-UPF) network elements.
- UPF user plane function
- I-UPF intermediate user plane function
- PSA-UPF anchor user plane function
- user plane network elements can still be UPF network elements, or they can have other names, which are not limited in this application.
- DN Data network
- the data networks can be DN1 and DN2.
- the data network may still be a DN, or may have other names, which are not limited in this application.
- Mobility management network element mainly used for mobility management and access management, etc., and can be used to implement other functions besides session management in the mobility management entity (MME) function, such as, Legal interception, access authorization/authentication, mobility status management, assigning user temporary identities, authenticating and authorizing users and other functions.
- MME mobility management entity
- the access and mobility management can be an access and mobility management function (AMF) network element.
- AMF access and mobility management function
- access and mobility management can still be AMF network elements, or they can have other names, which are not limited in this application.
- Session management network element mainly used for session management, network interconnection protocol (IP) address allocation and management of terminal equipment, selection of endpoints for manageable user plane functions, policy control and charging function interfaces, and downlink Data notification, bearer establishment, modification and release, and quality of service (QoS) control, etc.
- IP network interconnection protocol
- the session management network element can be a session management function (SMF) network element, for example, it can include an intermediate session management function (I-SMF) network element. element, or at least one of the anchor session management function (A-SMF) network elements.
- SMF session management function
- I-SMF intermediate session management function
- A-SMF anchor session management function
- the session management network element can still be an SMF network element, or it can also have other names, which is not limited in this application.
- Policy control network element A unified policy framework used to guide network behavior, providing policy rule information for control plane functional network elements (such as AMF, SMF network elements, etc.).
- the policy control network element may be a policy control function (PCF) network element.
- PCF policy control function
- the policy control network element can still be a PCF network element, or it can also have other names, which is not limited in this application.
- Authentication service network element used for authentication services, generating keys to implement two-way authentication of terminal devices, and supporting a unified authentication framework.
- the authentication service network element may be an authentication server function (AUSF) network element.
- AUSF authentication server function
- the authentication service function network element can still be an AUSF network element, or it can also have other names, which is not limited in this application.
- the data management network element can be a unified data management (UDM) network element, which can be used to process terminal device identification, access authentication, registration and mobility management wait.
- UDM unified data management
- unified data management can still be a UDM network element, or it can also have other names, which is not limited in this application.
- the data management network element can also be a unified database (Unified Data Repository, UDR).
- UDR Unified Data Repository
- PCF Policy Decision-related or corresponding contract information from UDR.
- the unified database can still be UDR, or it can also have other names, which is not limited in this application.
- Application network element used for data routing that affects applications, access network open function network elements, and interacts with the policy framework for policy control, etc.
- the application network element may be an application function (AF) network element 107.
- AF application function
- application network elements can still be AF network elements, or they can have other names, which are not limited in this application.
- Network storage network element used to maintain real-time information of all network function services in the network.
- the network storage network element may be a network registration function (network repository function, NRF) network element.
- network storage network elements can still be NRF network elements, or they can have other names, which are not limited in this application.
- Network slice selection network element used to provide network slice selection function.
- the network slice selection network element can be a Network Slice Selection Function (NSSF) network element.
- NSSF Network Slice Selection Function
- the network slice selection network element can still be an NSSF.
- a network element may also have other names, which are not limited in this application.
- Network capability opening network element used to provide network customization functions.
- the network capability opening network element can be a network capability exposure function (NEF) network element.
- NEF network capability exposure function
- the network capability opening network element can still be an NEF network element. Yuan, or it can also have other names, which are not limited in this application.
- the communication system architecture applicable to the embodiments of this application may also include other network elements, such as network analysis function network elements and service communication function network elements.
- the network analysis function network element is used to provide network slicing instance-level data analysis functions. For example, you can obtain data, then use the data for training and analysis, and make corresponding inferences based on the analysis results.
- the network analysis function network element may be a network analytics function (NWDAF) network element.
- Nnssf, Nausf, Nnef, Npcf, Nudm, Naf, Namf, Nsmf, N1, N2, N3, N4, and N6 are interface serial numbers. The meaning of these interface serial numbers can be found in the meaning defined in the 3GPP standard protocol, and is not limited here.
- the above network element or function can be a network element in a hardware device, a software function running on dedicated hardware, or a virtualization function instantiated on a platform (for example, a cloud platform).
- the above network elements or functions can be divided into one or more services.
- instances of the above functions, or instances of services included in the above functions, or service instances that exist independently of network functions can be called service instances.
- the embodiments of the present application are not limited to the above-mentioned system architecture, and can also be applied to other future communication systems, such as the sixth generation communication (the 6th generation, 6G) system architecture, etc.
- the names of each network element used in the above embodiments of the present application may maintain the same functions in future communication systems, but the names will change.
- FIG. 1d illustrates a schematic diagram of a 5G network architecture based on a service-oriented architecture provided by an embodiment of the present application.
- N7 The interface between PCF and SMF, used to deliver protocol data unit (PDU) session granularity and business data flow granularity control policy.
- PDU protocol data unit
- N15 The interface between PCF and AMF, used to deliver UE policies and access control related policies.
- N5 The interface between AF and PCF, used for issuing application service requests and reporting network events.
- N4 The interface between SMF and UPF. It is used to transfer information between the control plane and the user plane, including controlling the distribution of forwarding rules, QoS control rules, traffic statistics rules, etc. for the user plane and reporting of user plane information.
- N11 The interface between SMF and AMF, used to transfer PDU session tunnel information between RAN and UPF, transfer control messages sent to UE, transfer radio resource control information sent to RAN, etc.
- N2 The interface between AMF and RAN, used to transmit wireless bearer control information from the core network side to the RAN.
- N1 The interface between AMF and UE, independent of access, used to deliver QoS control rules to UE, etc.
- N8 The interface between AMF and UDM, used for AMF to obtain access and mobility management-related subscription data and authentication data from UDM, and for AMF to register UE's current mobility management-related information with UDM.
- N10 The interface between SMF and UDM, used for SMF to obtain session management-related subscription data from UDM, and for SMF to register UE current session-related information with UDM.
- N12 The interface between AMF and AUSF, used by AMF to initiate the authentication process to AUSF, which can carry SUCI as the signing identifier;
- N13 The interface between UDM and AUSF, used by AUSF to obtain the user authentication vector from UDM to perform the authentication process.
- N22 The interface between NSSF and AMF, used for AMF to receive slice selection information from NSSF.
- the system architecture applicable to the embodiments of the present application may also include other network elements, such as management equipment.
- the management equipment is not shown in the above-mentioned Figures 1c and 1d.
- the management device may include a device with management capabilities for mobile relays.
- the management device may be an operations administration and maintenance (OAM) device, which may have the functions of operation, maintenance, and management.
- OAM operations administration and maintenance
- the management device may Mobile relay operations, maintenance and management.
- the management device in the embodiment of the present application can establish a connection with one or more network elements in the system architecture shown in Figure 1c and Figure 1d.
- the management device can establish a connection with an NEF network element, an AMF network element, etc.
- Figure 2 exemplarily shows a flow chart of a possible cell information configuration method provided by the embodiment of the present application. .
- Figure 2 takes the execution subject including mobile relay and management equipment as an example for introduction.
- the mobile relay involved in Figure 2 may be the mobile relay 3 in Figure 1a and Figure 1b.
- the management device involved in Figure 2 can be a device that has management authority for the mobile relay, for example, it can configure cell configuration information for the mobile relay.
- the solution on the mobile relay side in the embodiment of the present application can also be executed by units, modules or chips inside the mobile relay, and the solution on the management device side in the embodiment of the present application can also be executed by units, modules or chips inside the management device.
- the method includes:
- Step 201 The management device obtains the location information of the mobile relay.
- the mobile relay is in a moving state, which can also be understood to mean that the mobile relay has the ability to move, or that the mobile relay has the ability to move.
- Mobile relay is used to provide relay services between terminal equipment and access network equipment.
- the management device can obtain the location information of the mobile relay through multiple channels.
- the mobile relay can send the location information to the management device.
- the management device can obtain the location information of the mobile relay from the core network device.
- the management device can first subscribe to the core network device for the location information of the mobile relay.
- the management device can query the core network device for the location information of the mobile relay. location information, etc.
- the location information of the mobile relay in the embodiment of the present application may include various forms, and it only needs to be able to indicate the location of the mobile relay.
- the location information of the mobile relay may include: the second TAC of the first cell of the first access network device accessed by the mobile relay (for distinction, the TAC of the first cell is called the second TAC in the embodiment of this application). ), at least one of the identifier of the first cell, the identifier of the first access network device, or information about the geographical area where the mobile relay is located.
- the information of the geographical area may include at least one of a longitude area range, a latitude area range, or a geographical area identifier (the geographical area identifier may include, for example, an administrative region identifier, etc.).
- Step 202 The management device sends the first TAC to the mobile relay.
- the first TAC is determined based on the location information of the mobile relay.
- the first TAC is the TAC of the cell that is the mobile relay.
- the mobile relay receives the first TAC from the management device.
- the network side can determine the mobile relay based on the TAC of the mobile relay accessed by the terminal device.
- the relayed location information can then be more accurately determined to determine the current location of the terminal equipment in the cell of the DU entity that accesses the mobile relay.
- the cell information configuration method provided by this application can configure cell configuration information for a relay with mobility capabilities.
- the first TAC involved in the above step 202 and the second TAC of the first cell of the first access network device accessed by the mobile relay may be the same or different, and may be configured according to actual requirements.
- the management device when configuring a TAC for a mobile relay, may not reuse the TAC of the cell of the access network device currently accessed by the mobile relay. In this way, the first TAC configured by the management device is the same as the second TAC configured by the management device. TAC is different.
- the management device can configure a dedicated TAC for the mobile relay. In this way, the network side can determine that the terminal device accesses the cell of the mobile relay based on the TAC of the cell where the terminal device accesses.
- the management device when the management device configures the TAC for the mobile relay, the management device may configure the TAC of the mobile relay to be the TAC of the cell of the access network device accessed by the mobile relay, that is, the first TAC and The second TAC is the same. In this way, the network side can directly and accurately determine the current location of the terminal device based on the TAC of the mobile relay accessed by the terminal device.
- the solution is relatively simple.
- the management device may obtain the association between the location and the TAC.
- the association may include the association between the location indicated by the location information of the mobile relay and the first TAC.
- the association may be It can also be called correspondence relationship, mapping relationship, etc., and can also be embodied in the form of a mapping table.
- the management device may determine that the TAC corresponding to the location information of the mobile relay is the first TAC based on the association relationship, and then send the first TAC to the mobile relay.
- the network side can determine the location of the mobile relay that the terminal device accesses based on the TAC of the mobile relay that the terminal device accesses and the location managed by the TAC, and then can obtain a more accurate current location of the terminal device.
- association between the location indicated by the location information of the mobile relay and the first TAC may be preset.
- the association relationship may also be pre-stored on the management device side; it may also pre-exist in other devices (such as core network devices) or the cloud, and the management device obtains the association relationship from other devices (such as core network devices) or the cloud.
- Figure 3 exemplarily shows another cell information configuration method provided by the embodiment of the present application.
- the embodiment shown in FIG. 3 is an extended embodiment of the embodiment shown in FIG. 2 .
- the method includes:
- Step 301 The mobile relay sends the location information of the mobile relay to the management device.
- the management device receives the location information of the mobile relay from the mobile relay.
- Step 301 can be used as an implementation manner of step 201.
- the mobile relay can obtain the location information of the mobile relay in multiple ways.
- the mobile relay is currently connected to the first cell of the first access network device, and the mobile relay receives the first broadcast message.
- the first broadcast message is sent by the first access network device.
- the first broadcast message includes: at least one of the second TAC of the first cell of the first access network device, the identity of the first cell, or the identity of the first access network device.
- the second TAC is the TAC of the first cell.
- the mobile relay may send at least one of the second TAC of the first cell, the identity of the first cell, or the identity of the first access network device to the management device as location information.
- the mobile relay can trigger the positioning process to obtain the location information of the mobile relay.
- the mobile relay queries the core network device for the location of the mobile relay (for example, the mobile relay sends a message to the core network device to query the location of the mobile relay), and the mobile relay receives data from the core network.
- Location information for the device's mobile relay may include geographical location information of the location of the mobile relay.
- the location information queried by the mobile relay from the core network device may also include the second TAC of the first cell of the first access network device accessed by the mobile relay, the identity of the first cell, or the identity of the first access network device. At least one of the identifiers, etc.
- the embodiment of the present application does not limit the specific form of the location information.
- Step 302 The management device sends the first TAC to the mobile relay.
- the first TAC is determined based on the location information of the mobile relay.
- the first TAC is the TAC of the cell that is the mobile relay.
- step 302 For the relevant content of step 302, please refer to the relevant content of the aforementioned step 202.
- Step 303 The mobile relay requests the first access network device to activate the cell of the mobile relay, and the first TAC is used as the TAC of the cell of the mobile relay.
- the mobile relay may send the first TAC to the first access network device, so that the first access network device obtains the TAC of the mobile relay's cell.
- Step 303 in the embodiment of this application may be an optional step.
- the mobile relay can obtain the location information of the mobile relay by itself and send the location information to the management device, there is no need for the management device to obtain the location information of the mobile relay through other means, and the management The device can directly configure the TAC corresponding to the location information for the mobile relay cell based on the obtained location information, thereby avoiding the signaling consumption caused by the management device obtaining the mobile relay location information through other means. And since there are multiple ways for the mobile relay to determine location information, the solution provided in Figure 3 can improve the flexibility of the embodiment of the present application.
- Figures 4a, 4b and 4c exemplarily introduce several possible cell information configurations.
- Figures 4a, 4b and 4c respectively show several possible expansion schemes of the embodiment shown in Figure 3.
- the method includes:
- Step 401 The mobile relay sends a first message to the management device.
- the first message is used to obtain cell configuration information.
- the first message includes location information of the mobile relay.
- the management device receives the first message from the mobile relay.
- Step 401 may be a possible implementation of the above step 301.
- Step 402 The management device may send a response message to the first message to the mobile relay, where the response message to the first message carries cell configuration information, and the cell configuration information includes the first TAC.
- the mobile relay may receive cell configuration information from the management device.
- the cell configuration information may also include cell identification and other information.
- Step 402 may be a possible implementation of the above-mentioned step 302 or step 202.
- the process of the management device determining the first TAC please refer to the relevant description of step 202, which will not be described again.
- the information interaction between the mobile relay and the management device in the embodiment of the present application can be the information interaction between the MT entity of the mobile relay and the management device, or it can also be the information interaction between the DU entity of the mobile relay and the management device.
- the information exchange between them is not limited by this application.
- the subsequent content is similar and will not be described again.
- the mobile relay sending the first message to the management device may be the MT entity of the mobile relay sending the first message to the management device.
- the response message in which the management device can send the first message to the mobile relay may be a response message in which the management device can send the first message to the MT entity of the mobile relay.
- the mobile relay sending the first message to the management device may be the DU entity of the mobile relay sending the first message to the management device.
- the response message in which the management device can send the first message to the mobile relay may be a response message in which the management device can send the first message to the DU entity of the mobile relay.
- Step 403 The mobile relay sends a second message to the first access network device, where the second message is used to request activation of the cell of the mobile relay.
- the DU entity of the mobile relay can select an appropriate access network device as the host base station, such as selecting the first access network device as the host base station. Then, the DU entity of the mobile relay can select the first access network device as the host base station. The CU entity of the access network device sends the second message.
- the second message may carry cell configuration information supported by the mobile relay. For example, it may carry part or all of the cell configuration information configured by the management device for the mobile relay.
- the first TAC may be included in the second message.
- the second message may also include information such as a cell identifier configured by the management device for the cell of the mobile relay.
- the second message can be an F1 setup request, which can be written as F1setup request in English.
- Step 403 may be a possible implementation of the above step 303.
- Step 403 is an optional step and may or may not be executed.
- Step 404 The first access network device sends target configuration information to the core network device.
- the target configuration information may include the first TAC.
- the first access network device may send target configuration information to the core network device through a configuration update process.
- the first access network device may send a configuration update request message to the AMF, where the configuration update request message carries target configuration information.
- the target configuration information includes a tracking area identity (TAI) list supported by the first access network device.
- TAI list supported by the first access network device may include a first TAI, and the first TAI may include a first TAC, So that the core network device (such as AMF) learns that the first access network device supports the first TAC.
- Step 405 The first access network device sends a response message to the second message to the mobile relay.
- the response message of the second message may carry the activated cell configuration information.
- the response message of the second message may carry the cell identity of the activated mobile relay cell, and the activated cell identity of the mobile relay cell may include the identity of the first access network device.
- the response message of the second message can be an F1 setup response, and can be written as F1setup response in English.
- Step 405 is an optional step and may or may not be executed.
- Step 406 The mobile relay sends the third broadcast message.
- the mobile relay may send a broadcast message, such as the third broadcast message in step 406.
- the broadcast message sent by the mobile relay is used to send cell information corresponding to the cell of the mobile relay to the terminal device.
- the terminal device that receives the broadcast message can choose to access the cell and access the network through the mobile relay.
- the mobile relay may send a broadcast message by the MT entity of the mobile relay, or the DU entity of the mobile relay may send a broadcast message.
- the DU entity of the mobile relay sends the third broadcast message or the MT entity of the mobile relay sends the third broadcast message.
- the third broadcast message may include the first TAC and/or the cell identity of the mobile relay.
- the third broadcast message includes the first TAC
- the terminal device located within the service range of the mobile relay can make the broadcast message received
- the mobile relay is accessed, and the accessed terminal device can determine that the TAC of the mobile relay is the first TAC according to the third broadcast message.
- Figure 4a shows an example of a terminal device receiving the third broadcast message.
- the mobile relay can carry the location information of the mobile relay in the message requesting the management device to configure the cell configuration information of the mobile relay. In this way, there is no need for the management device to obtain the mobile relay through other means.
- the management device can directly configure the TAC corresponding to the location information for the cell of the mobile relay based on the obtained location information, thereby avoiding the signaling caused by the management device obtaining the location information of the mobile relay through other means. consumption.
- the management device can avoid configuring an incorrect TAC for the mobile relay, such as configuring a TAC that does not match the current location for the mobile relay.
- the management device when the management device configures the cell configuration information for the mobile relay, the management device can configure the TAC for the cell of the mobile relay based on the location information of the mobile relay. In this way, the mobile relay initially performs cell configuration.
- the TAC of the cell can be configured as a TAC related to the location information of the mobile relay, so that the network side can determine the actual location of the terminal device accessing the mobile relay, and improve the network's mobility management of the terminal device. efficiency and accuracy.
- the mobile relay moves after accessing the second cell, and moves from the second cell to the first access
- the first cell of network equipment is taken as an example for introduction.
- the TAC of the second cell is called the third TAC
- the TAC of the first cell is called the second TAC.
- the access network equipment corresponding to the second cell may be the same as the first access network equipment, or may be different.
- Figure 4b takes the example that the access network equipment corresponding to the second cell is the same as the first access network equipment.
- Figure 4c takes the example that the access network equipment corresponding to the second cell is different from the first access network equipment. introduce,
- the method includes:
- Step 411 The mobile relay determines that the mobile relay has moved.
- the mobile relay when the mobile relay moves, it can be understood that both the MT entity of the mobile relay and the DU entity of the mobile relay move.
- the method for the mobile relay to determine that the mobile relay has moved may be that the MT entity of the mobile relay determines that the MT entity has moved, or the MT entity of the mobile relay determines that the mobile relay has moved.
- a preset movement range can be set in advance.
- the mobile relay determines that the mobile relay's movement satisfies the preset movement range, the mobile relay determines that the mobile relay has moved.
- the preset movement range may include at least one of the following content 1, content 2, content 3, content 4 or content 5.
- Content 1 The TAC of the cell accessed by the mobile relay changes.
- Content 3 The access network equipment connected to the mobile relay changes.
- Content 4 The information of the geographical area of the mobile relay changes.
- Content 5 The moving distance of the mobile relay is greater than the preset distance.
- the mobile relay can determine that the movement of the mobile relay satisfies the preset movement range.
- the mobile relay may determine that the movement of the mobile relay satisfies the preset movement range; or, the mobile relay may determine that the movement of the mobile relay satisfies each of the multiple items within the preset movement range. , it is determined that the mobile relay movement meets the preset movement range.
- the method is relatively flexible and can be flexibly set according to the actual situation.
- the preset mobility range includes: the TAC of the cell accessed by the mobile relay changes.
- the TAC of the cell accessed by the mobile relay changes, which may mean that the TAC of the cell accessed by the MT entity of the mobile relay changes.
- the MT entity of the mobile relay receives the second broadcast message, and the second broadcast message includes TAC#8. Since the mobile relay has moved, after the MT entity of the mobile relay receives the second broadcast message, the MT entity of the mobile relay may also receive the first broadcast message, and the first broadcast message includes TAC#9.
- the MT entity of the mobile relay determines that when TAC#9 and TAC#8 are different, it determines that the mobile relay has moved, or that the mobile relay has moved to meet the preset movement range, or that the movement of the mobile relay satisfies Default movement range.
- the preset movement range includes: the cell identity of the cell accessed by the mobile relay changes.
- the cell identity of the cell accessed by the mobile relay changes, which may mean that the cell identity of the cell accessed by the MT entity of the mobile relay changes.
- the MT entity of the mobile relay receives the second broadcast message, and the second broadcast message includes cell identification #1. Since the mobile relay has moved, after the MT entity of the mobile relay receives the second broadcast message, the MT entity of the mobile relay may also receive the first broadcast message, where the first broadcast message includes cell identification #2.
- the MT entity of the mobile relay determines that when the cell identifier #2 is different from the cell identifier #1, it determines that the mobile relay has moved, or that the mobile relay has moved within the preset movement range, or that the mobile relay has moved The movement satisfies the preset movement range.
- the preset mobility range includes: the access network equipment connected to the mobile relay changes.
- the access network equipment connected to the mobile relay changes, which may mean that the access network equipment connected to the MT entity of the mobile relay changes.
- the MT entity of the mobile relay receives the second broadcast message, and the second broadcast message includes the identification #1 of the access network device. Since the mobile relay has moved, after the MT entity of the mobile relay receives the second broadcast message, the MT entity of the mobile relay may also receive the first broadcast message.
- the first broadcast message includes the identification of the access network device# 2.
- the MT entity of the mobile relay determines that the mobile relay has moved when the identifier #2 of the access network device is different from the identifier #1 of the access network device, or that the mobile relay has moved within the preset movement range. The movement, or the movement of the mobile relay, satisfies the preset movement range.
- the preset movement range includes: the information of the geographical area of the mobile relay changes.
- the information on the geographical area of the mobile relay changes, which may mean that the information on the geographical area where the MT entity of the mobile relay is located changes.
- the positioning process is initiated to obtain the information that the current geographical location of the MT entity of the mobile relay is the information #1 of the geographical area from the core network. Since the mobile relay has moved, when the MT entity of the mobile relay initiates the positioning process again, the core The heart network obtains information #2 that the current geographical location of the MT entity of the mobile relay may be a geographical area.
- the MT entity of the mobile relay determines that when the geographical area information #2 is different from the geographical area information #1, it determines that the mobile relay has moved, or that the mobile relay has moved within a preset movement range, or that the mobile relay has moved within a preset movement range. The movement of the mobile relay satisfies the preset movement range.
- the preset movement range includes: the movement distance of the mobile relay is greater than the preset distance.
- the moving distance of the mobile relay is greater than the preset distance, which may mean that the moving distance of the MT entity of the mobile relay is greater than the preset distance.
- the preset distance may be an experience value, and the preset distance may be related to the preset movement range. For example, when the moving distance of the mobile relay is greater than the preset distance, the mobile relay is likely to have moved out of the currently accessed access network device (or the cell of the currently accessed access network device, or the current corresponding TAC, or the geographic area to which it currently belongs).
- the preset distance can be set to 1000 meters.
- the mobile relay can query that the mobile relay's moving distance is greater than the preset distance by triggering the positioning process, or detect that the mobile relay's moving distance is greater than the preset distance through the detection device on the terminal device, or the mobile relay can infer the movement.
- the moving distance of the relay is greater than the preset distance (for example, inferred based on historical data), or the detection device on other devices detects that the moving distance of the mobile relay is greater than the preset distance and notifies the mobile relay, or other devices infer the movement.
- the moving distance of the relay is greater than the preset distance and the mobile relay is notified.
- the mobile relay determines that the moving distance of the mobile relay is greater than the preset distance, it is determined that the mobile relay has moved, or that the mobile relay has moved within the preset movement range, or that the movement of the mobile relay satisfies the preset movement range. Set the movement range.
- the mobile relay when the mobile relay determines that the mobile relay's movement does not meet the preset movement range, the mobile relay may not send location information. Alternatively, the mobile relay may attribute such a situation to a situation where the mobile relay determines that the mobile relay has not moved, or that the mobile relay has not moved within a preset movement range.
- the preset movement range includes any one of the above content 1, content 2, content 3, content 4 and content 5: when the mobile relay determines that the mobile relay has not moved If the content in the preset movement range is satisfied, the mobile relay determines that the movement of the mobile relay does not satisfy the preset movement range.
- the preset mobility range includes: the TAC of the cell accessed by the mobile relay changes.
- the mobile relay determines that the TAC of the accessed cell has not changed, it is possible that the movement amount of the mobile relay is small.
- the mobile relay determines that the movement of the mobile relay does not meet the preset movement requirements.
- the range allows the mobile relay not to send location information. In this way, the mobile relay can avoid frequently sending the location information of the mobile relay and reduce signaling consumption.
- the mobile relay determines that the mobile relay has not moved If every item in the preset movement range is satisfied, the mobile relay determines that the movement of the mobile relay does not satisfy the preset movement range. In other words, as long as any item in the preset movement range is met, the mobile relay can determine that its movement satisfies the preset movement range.
- the preset mobility range includes: the TAC of the cell accessed by the mobile relay changes, and the access network equipment accessed by the mobile relay changes.
- the mobile relay determines that the movement of the mobile relay does not meet the preset movement requirements. range, it is possible to allow mobile relays not to send location information.
- the mobile relay determines that the TAC of the cell it accesses has changed, but the access network equipment connected to the mobile relay has not changed, the mobile relay can also be allowed to send location information. This can be attributed to the mobile relay. The subsequent movement meets the preset movement range.
- the preset movement range includes the above content 1, content 2, content 3, content
- the mobile relay determines that the movement of the mobile relay does not meet at least one of the contents in the preset movement range, the mobile relay determines that the movement of the mobile relay does not meet the preset movement. range, the mobile relay may not send location information. In this case, the mobile relay may determine that the movement of the mobile relay satisfies the preset movement range when determining that the movement of the mobile relay satisfies each of the multiple items within the preset movement range.
- the preset mobility range includes: the TAC of the cell accessed by the mobile relay changes, and the access network equipment accessed by the mobile relay changes.
- the mobile relay determines that the TAC of the cell accessed has changed, but the access network equipment connected to the mobile relay has not changed, the mobile relay can be allowed not to send location information.
- the mobile relay determines that the TAC of the cell accessed changes and the access network equipment connected to the mobile relay changes, the mobile relay is allowed to send location information.
- Step 412 The mobile relay sends a third message to the management device, where the third message includes the location information of the mobile relay.
- the management device receives the third message from the mobile relay.
- the third message in step 412 carries the moved location information of the mobile relay.
- the type of location information sent by the mobile relay may be associated with a preset movement range.
- the type of location information sent by the mobile relay may be one or more of the types of location information corresponding to one or more contents included in the preset movement range.
- the preset mobility range includes: the TAC of the cell accessed by the mobile relay changes. Then, the type of location information sent by the mobile relay may include the TAC of the cell currently accessed by the mobile relay.
- the preset mobility range includes: changes in the TAC of the cell to which the mobile relay is connected, changes to the cell identity of the cell to which the mobile relay is connected, and changes to the access network to which the mobile relay is connected. Equipment changes.
- the type of location information sent by the mobile relay may include at least one of the TAC of the cell currently accessed by the mobile relay, the cell identifier, and the access network device identifier.
- Step 412 may be a possible implementation of the above step 301.
- Step 413 The management device may send a response message to the third message to the mobile relay, where the response message to the third message carries the first TAC.
- the mobile relay receives the response message of the third message from the management device.
- the third message may be sent by the MT entity of the mobile relay, and the response message to the third message may be sent by the management device to the MT entity of the mobile relay.
- the third message may also be sent by the DU entity of the mobile relay, and the response message of the third message may also be sent by the management device to the DU entity of the mobile relay.
- the management device may not determine whether the movement of the mobile relay satisfies the preset movement range. After receiving the third message, the management device can feed back the first TAC to the mobile relay.
- the management device can also determine whether the movement of the mobile relay satisfies the preset movement range. For example, when the management device receives the third message and determines that the movement of the mobile relay satisfies the preset movement range, the management device feeds back the first TAC to the mobile relay. For another example, when the management device receives the third message and determines that the movement of the mobile relay does not meet the preset movement range, the management device does not feed back the first TAC to the mobile relay.
- the preset movement range may include at least one of the aforementioned content 1, content 2, content 3, content 4 or content 5.
- the solution for the management device to determine that the mobile relay has moved is similar to the previous solution for the mobile relay to determine that the mobile relay has moved, and will not be elaborated here.
- the difference is that the mobile relay obtains the TAC and cell number of the cell accessed by the mobile relay.
- the way in which the information about the area identifier, access network equipment, geographical area where the mobile relay is located, or the moving distance of the mobile relay may be somewhat different from the way in which the management device obtains this information.
- the management device can receive or query the mobile relay information.
- the embodiments of this application do not limit this.
- the mobile relay when the mobile relay determines that the movement of the mobile relay meets the preset movement range, the mobile relay sends location information to the management device, and when the mobile relay determines that the movement of the mobile relay does not meet the preset movement range If the location is within the range, the location information may not be sent to the management device. In this case, the management device may not determine whether the movement of the mobile relay satisfies the preset movement range.
- the mobile relay may obtain the location information and send it to the management device without determining whether the movement of the mobile relay satisfies the preset movement range.
- the management device can perform the step of judging whether the movement of the mobile relay satisfies the preset movement range, and feeds back the first TAC to the mobile relay when the movement of the mobile relay satisfies the preset movement range. If the subsequent movement does not meet the preset movement range, the first TAC will not be fed back to the mobile relay.
- the management device may also directly feed back the first TAC to the mobile relay without performing the step of determining whether the movement of the mobile relay satisfies the preset movement range.
- Step 413 may be a possible implementation of the above step 302.
- Step 414 The DU entity of the mobile relay sends a configuration update message to the first access network device, where the configuration update message is used to update the TAC of the cell of the mobile relay to the first TAC.
- the first access network device side should store the TAC of the cell of the mobile relay corresponding to the position before the mobile relay moves.
- the TAC of the cell of the mobile relay corresponding to the position before the mobile relay moves is the same as the first TAC. different.
- the first access network device updates the TAC of the mobile relay cell to the first TAC.
- the mobile relay is initially located at position 1, which is within the coverage of the second cell of the first access network device, and the mobile relay accesses the second cell at position 1.
- the mobile relay's cell The TAC is the TAC corresponding to position 1, and the TAC of the mobile relay cell stored on the first access network device side is the TAC associated with position 1.
- the mobile relay moved to location 2.
- Location 2 is located within the coverage of the first cell of the first access network device.
- the mobile relay sent location 2 to the management device.
- the management device configured the mobile relay with Position 2 has the first TAC associated with it.
- the mobile relay sends the first TAC to the first access network device, so that the first access network device updates the mobile relay's TAC associated with position 1 to be associated with position 2.
- the first TAC of the relationship is provided.
- the first access network device sends the updated first TAC of the mobile relay cell to the core network device through a configuration update process.
- the first access network device may Send the first TAC to the AMF, so that the AMF learns that the first access network device supports the first TAC.
- the first access network device sends a response message to the configuration update message to the mobile relay.
- the response message of the configuration update message may indicate that the cell configuration information update of the mobile relay is completed.
- the mobile relay may perform step 415.
- Step 415 The mobile relay sends the third broadcast message.
- the third broadcast message may include the identity of the first TAC and/or the cell of the mobile relay.
- the content of step 415 please refer to the relevant content of step 406, which will not be described again.
- the mobile relay when the mobile relay moves within the preset movement range, the mobile relay can send the current location information of the mobile relay to the management device, so that the management device can calculate the location information after the mobile relay has moved.
- the cell of the mobile relay allocates TAC, which can achieve the effect that the TAC of the mobile relay is kept updated as it moves, that is, the TAC of the mobile relay is associated with the location of the mobile relay.
- the mobile relay can request the access network device to update the TAC of the mobile relay's cell, thereby maintaining the mobile base station's TAC stored on the host base station side. Accuracy of cell configuration information.
- the mobile relay moves out of the coverage area of the current access network equipment (for example, the mobile relay moves from the coverage area of the second access network equipment to the coverage area of the first access network equipment).
- the host base station of the mobile relay changes as an example.
- the method includes:
- Step 421 The mobile relay determines that the mobile relay has moved.
- Step 422 The mobile relay sends the third message to the management device.
- Step 423 The management device may send a response message of the third message to the mobile relay.
- step 421 to step 423 For the content of step 421 to step 423, please refer to the aforementioned step 411 to step 413, which will not be described again here.
- Step 424 The mobile relay sends a second message to the first access network device, where the second message is used to request activation of the cell of the mobile relay.
- step 424 please refer to the relevant content of the aforementioned step 403, and will not be described again.
- Step 425 The first access network device sends target configuration information to the core network device through a configuration update process.
- the target configuration information may include the first TAC.
- step 425 For the content of step 425, please refer to the relevant content of the aforementioned step 404, and will not be described again.
- Step 426 The first access network device sends a response message to the second message to the mobile relay.
- step 426 For the content of step 426, please refer to the relevant content of the aforementioned step 405, and will not be described again.
- Step 427 The mobile relay sends the third broadcast message.
- the third broadcast message includes the first TAC.
- step 427 For the content of step 427, please refer to the relevant content of the aforementioned step 406, and will not be described again.
- the mobile relay when the mobile relay moves within the preset movement range, the mobile relay can send the current location information of the mobile relay to the management device, so that the management device can calculate the location information after the mobile relay has moved.
- the cell of the mobile relay allocates TAC, which can achieve the effect that the TAC of the mobile relay is kept updated as it moves, that is, the TAC of the mobile relay is associated with the location of the mobile relay.
- the mobile relay can request the new host base station to activate the cell of the mobile relay again, and will move when requesting the activation of the cell of the mobile relay.
- the relayed new TAC is sent to the new host base station, so that the accuracy of the cell configuration information of the mobile base station stored on the host base station side can be maintained.
- Fig. 5a and Fig. 5b exemplarily show A schematic flow chart of another possible cell information configuration method is provided.
- Figure 5a is an example where the mobile relay has not changed its host base station
- Figure 5b is an example where the mobile relay has changed its host base station.
- the method includes:
- Step 501 The MT entity of the mobile relay receives the broadcast message a1 from access network device one.
- the broadcast message a1 includes at least one of the TAC of cell 1 of access network device one, the identity of cell 1, or the identity of access network device one.
- the broadcast message a1 may also include indication information that the cell corresponding to the broadcast message a1 supports mobile relay.
- Step 502 The MT entity of the mobile relay performs cell selection and selects cell 1 for access.
- the MT entity of the mobile relay can select a cell that supports the DU entity of the mobile relay for access based on the indication information carried in the broadcast message of whether to support mobile relay, such as the MT entity of the mobile relay. Select cell 1 for access.
- Step 503 The MT entity of the mobile relay establishes an RRC connection with the access network device.
- the MT entity of the mobile relay may send an RRC connection establishment request message to the access network device.
- the RRC connection establishment request message may carry indication information indicating that the RRC connection is initiated by the mobile relay.
- the RRC connection establishment request message may include the RRC connection setup procedure.
- the access network device may send an RRC establishment completion message to the MT entity of the mobile relay.
- the RRC establishment completion message is used to indicate that the RRC connection is successfully established.
- Step 504 The MT entity of the mobile relay sends a registration request message to the core network device.
- the core network device receives the registration request message.
- the MT entity of the mobile relay may send a registration request message to the core network device through the access network device.
- Core network equipment may include AMF.
- the registration request message may carry indication information indicating that the registered network is a mobile relay, and then the core network device verifies the identity of the mobile relay.
- the registration request message may include N2message.
- Step 505 The MT entity of the mobile relay is successfully registered.
- the process of registering the MT entity of the mobile relay on the network is similar to the process of registering the terminal device on the network device, and will not be elaborated here.
- Step 506 The MT entity of the mobile relay initiates session establishment.
- the network allocates an IP address to the MT entity of the mobile relay.
- the mobile relay can use the IP address to interact with the management device.
- Step 507 The mobile relay sends message a2 to the management device.
- Message a2 is used to obtain cell configuration information.
- Message a2 includes location information 1 of the mobile relay.
- the management device receives message a2 from the mobile relay.
- step 507 For the relevant content of step 507, please refer to the relevant description of the foregoing step 401.
- relevant content of the message a2 please refer to the relevant introduction of the foregoing first message (for example, the message a2 can be the foregoing first message), which will not be described again here.
- Step 508 The management device determines the TAC#2 corresponding to the location information 1 of the mobile relay based on the location information 1 carried in the message a2.
- step 508 For the relevant content of step 508, please refer to the relevant introduction of the management device determining the first TAC, and will not be described again.
- Step 509 The management device may send a response message to message a2 to the mobile relay.
- the response message to message a2 carries cell configuration information, and the cell configuration information includes TAC#2.
- the mobile relay may receive cell configuration information from the management device.
- TAC#2 is used as the TAC of the cell serving as a mobile relay.
- relevant content of step 509 please refer to the relevant description of step 402, which will not be described again.
- message a2 may be sent by the MT entity of the mobile relay, and the response message to message a2 may be sent by the management device to the MT entity of the mobile relay.
- message a2 may also be sent by the DU entity of the mobile relay, and the response message to message a2 may also be sent by the management device to the DU entity of the mobile relay.
- Step 510 The DU entity of the mobile relay sends message a3 to the access network device 1 currently accessed by the MT entity of the mobile relay.
- Message a3 is used to request activation of a mobile relay cell.
- Message a3 can carry TAC#2.
- the access network device receives the message a3
- step 510 For the relevant content of step 510, please refer to the relevant description of the foregoing step 403.
- the relevant content of the message a3 please refer to the relevant introduction of the foregoing second message (for example, the message a3 can be the foregoing second message), which will not be described again here.
- Step 511 The access network device sends TAC#2 to the core network device.
- access network device 1 may also send other information to the core network device, such as information in the activated cell configuration information of the mobile relay.
- information in the activated cell configuration information of the mobile relay For the relevant content of step 511, please refer to the relevant description of step 404.
- TAC#2 may be carried in the target configuration information, and the relevant content will not be described again here.
- Step 512 The access network device sends a response message of message a3 to the DU entity of the mobile relay.
- step 512 For the relevant content of step 512, please refer to the relevant description of step 405, which will not be described again.
- Step 513 The mobile relay sends broadcast message a4.
- the broadcast message a4 includes TAC#2.
- the relevant content of step 513 please refer to the relevant description of step 406, which will not be described again.
- Step 514 The MT entity of the mobile relay receives the broadcast message a5, where the broadcast message a5 includes at least one of the TAC of cell 2 of access network device one, the identity of cell 2, or the identity of access network device one.
- the mobile relay may be in a moving state.
- the mobile relay may receive the broadcast message a5. Then the mobile relay needs to perform cell selection again. For example, cell 2 can be selected as a new cell, and the mobile relay can access cell 2.
- Step 515 The mobile relay determines that the mobile relay has moved.
- the mobile relay may determine that the mobile relay has moved based on at least one of the above content 1, content 2, content 3, content 4 or content 5.
- the mobile relay When the mobile relay responds to the above content 1 (the TAC of the cell accessed by the mobile relay changes), content 2 (the cell identity of the cell accessed by the mobile relay changes) or content 3 (the cell the mobile relay accesses changes), When it is determined that the mobile relay has moved based on at least one of the following: changes in access network equipment), the mobile relay can determine that the mobile relay has moved based on the information carried in the broadcast message a5 received in step 514. In this case In this case, step 515 needs to be executed after step 514.
- step 515 may be performed first and then step 514, which is not limited in the embodiment of this application.
- step 515 For the relevant content of step 515, please refer to the relevant description of step 411, which will not be described again.
- Step 516 The mobile relay sends message a6 to the management device.
- the message a6 includes the location information 2 of the mobile relay.
- the location indicated by the location information 2 of the mobile relay carried in message a6 is the location of the mobile relay after movement. After the movement, the mobile relay is within the coverage of cell 2 of access network device one.
- step 516 For the relevant content of step 516, please refer to the relevant description of step 412, which will not be described again.
- Step 517 The management device determines the TAC#3 corresponding to the location information 2 of the mobile relay based on the location information 2 carried in the message a6.
- step 517 For the relevant content of step 517, please refer to the relevant introduction of the management device determining the first TAC, and will not be described again.
- Step 518 The management device may send a response message to message a6 to the mobile relay, where the response message to message a6 carries TAC#3.
- the mobile relay receives the response message of message a6 from the management device.
- message a6 may be sent by the MT entity of the mobile relay, and the response message to message a6 may be sent by the management device to the MT entity of the mobile relay.
- message a6 may also be sent by the DU entity of the mobile relay, and the response message to message a6 may also be sent by the management device to the DU entity of the mobile relay.
- TAC#3 is used as the TAC of the cell serving as a mobile relay.
- relevant content of step 518 please refer to the relevant description of step 413, which will not be described again.
- Step 519 The DU entity of the mobile relay sends a configuration update message to the access network device currently accessed by the MT entity of the mobile relay.
- the configuration update message is used to update the TAC of the cell of the mobile relay from TAC#2 to TAC#3.
- step 519 For the relevant content of step 519, please refer to the relevant description of step 414, which will not be described again.
- Step 520 The mobile relay sends broadcast message a7.
- the broadcast message a7 may include TAC#3.
- the content of step 520 please refer to the relevant content of the aforementioned step 415, and will not be described again.
- the MT entity of the mobile relay accesses cell 1 of access network device 1, and the management device allocates TAC#2 to the mobile relay based on the location information of cell 1 where the mobile relay is located.
- the mobile relay can send the location information again so that the management device can use the location information of cell 2 where the mobile relay is located.
- Assign TAC#3 to the mobile relay. If the mobile relay moves later, if it moves to a cell of access network device 1 that is different from cell 2, the mobile relay can resend the location information.
- This solution is similar to the solution provided in steps 514 to 520, and no longer Repeat.
- the TAC of the mobile relay's cell will also be dynamically updated, so that the network side can determine the location of the mobile relay based on the TAC of the mobile relay accessed by the terminal device. Then the current location of the terminal device can be determined more accurately.
- the mobile relay is moved out of the coverage of the current access network device, that is, the mobile relay is moved from the access network device one to the access network device two. That is, in the example shown in Figure 5b, the host base station of the mobile relay changes.
- the method includes:
- Step 601 The mobile relay receives the broadcast message a1 from access network device one.
- Step 602 The MT entity of the mobile relay performs cell selection and selects cell 1 for access.
- Step 603 The MT entity of the mobile relay establishes an RRC connection with the access network device.
- Step 604 The MT entity of the mobile relay sends a registration request message to the core network device.
- Step 605 The MT entity of the mobile relay is successfully registered.
- Step 606 The MT entity of the mobile relay initiates session establishment.
- the network allocates an IP address to the MT entity of the mobile relay.
- the mobile relay can use the IP address to interact with the management device.
- Step 607 The mobile relay sends message a2 to the management device.
- Message a2 is used to obtain cell configuration information.
- information a2 includes location information 1 of the mobile relay.
- Step 608 The management device determines the TAC #2 corresponding to the location information 1 of the mobile relay based on the location information 1 carried in the message a2.
- Step 609 The management device may send a response message to message a2 to the mobile relay.
- the response message to message a2 carries cell configuration information, and the cell configuration information includes TAC#2.
- Step 610 The DU entity of the mobile relay sends message a3 to the access network device 1 currently accessed by the MT entity of the mobile relay.
- the message a3 is used to request activation of the cell of the mobile relay.
- Message a3 can carry TAC#2.
- Step 611 The access network device sends TAC#2 to the core network device.
- Step 612 The access network device sends a response message of message a3 to the DU entity of the mobile relay.
- Step 613 The mobile relay sends broadcast message a4.
- Steps 601 to 613 included in Figure 5b are the same as steps 501 to 513 included in Figure 5a and will not be described again.
- Step 614 The MT entity of the mobile relay receives the broadcast message a8.
- the broadcast message a8 includes at least one of the TAC of cell 3 of access network device 2, the identity of cell 3, or the identity of access network device 2.
- the mobile relay may be in a moving state.
- the mobile relay may receive broadcast message a8. Then the mobile relay needs to perform cell selection again. For example, cell 3 can be selected as a new cell, and the mobile relay can access cell 3.
- the MT entity of the mobile relay when the MT entity of the mobile relay switches from access network device 1 to access network device 2, the MT entity of the mobile relay may be in the RRC connected state.
- the MT entity of the mobile relay in the RRC connected state switches from the cell of the access network device one to the cell of the access network device two, and establishes an RRC connection with the access network device two. This step is not shown in Figure 5b.
- Step 615 The mobile relay determines that the mobile relay has moved.
- step 615 For the relevant content of step 615, please refer to the relevant description of step 515, which will not be described again.
- Step 616 The mobile relay sends message a9 to the management device.
- the message a9 includes the location information 3 of the mobile relay.
- the location indicated by the location information 3 of the mobile relay carried in message a9 is the location of the mobile relay after movement. After the movement, the mobile relay is within the coverage of cell 3 of access network device 2.
- step 616 For the relevant content of step 616, please refer to the relevant description of step 412, which will not be described again.
- Step 617 The management device determines the TAC #4 corresponding to the location information 3 of the mobile relay based on the location information 3 carried in the message a9.
- step 617 For the relevant content of step 617, please refer to the relevant introduction of the management device determining the first TAC, and will not be described again.
- Step 618 The management device may send a response message to message a9 to the mobile relay, where the response message to message a9 carries TAC#4.
- the mobile relay receives the response message of message a9 from the management device.
- TAC#4 is used as the TAC of the cell serving as a mobile relay.
- relevant content of step 618 please refer to the relevant description of step 413, which will not be described again.
- message a9 may be sent by the MT entity of the mobile relay, and the response message to message a9 may be sent by the management device to the MT entity of the mobile relay.
- message a9 may also be sent by the DU entity of the mobile relay, and the response message of message a9 may also be sent by the management device to the DU entity of the mobile relay.
- relevant content please refer to the above description and will not be repeated again.
- Step 619 The DU entity of the mobile relay sends message a10 to the access network device 2 currently accessed by the MT entity of the mobile relay.
- the message a10 is used to request activation of the cell of the mobile relay.
- Message a10 may include TAC#4.
- step 619 For the content of step 619, please refer to the relevant content of the aforementioned step 403, and will not be described again.
- Step 620 Access network device 2 sends TAC#4 to the core network device.
- the access network device 2 may also send other information to the core network device, such as information in the activated cell configuration information of the mobile relay.
- information in the activated cell configuration information of the mobile relay For the relevant content of step 620, please refer to the relevant description of step 404. TAC#4 can be carried in the target configuration information, and the relevant content will not be described again here.
- Step 621 Access network device 2 sends a response message of message a10 to the DU entity of the mobile relay.
- step 621 For the content of step 621, please refer to the relevant content of step 405, and will not be described again.
- Step 622 The mobile relay sends the broadcast message a11.
- the DU entity of the mobile relay sends the broadcast message a11 or the MT entity of the mobile relay sends the broadcast message a11.
- This application is not limited.
- relevant content please refer to the foregoing description and will not be repeated here.
- the broadcast message a11 includes TAC#4.
- step 622 For the content of step 622, please refer to the relevant content of the aforementioned step 406, and will not be described again.
- the MT entity of the mobile relay accesses cell 1 of access network device 1, and the management device allocates TAC#2 to the mobile relay based on the location information of cell 1 where the mobile relay is located. .
- the mobile relay can send the location information again so that the management device can use the location information of cell 3 where the mobile relay is located.
- Assign TAC#4 to the mobile relay. If the mobile relay moves later, if it moves to an access network device different from the access network device 2, the mobile relay can resend the location information.
- This solution is similar to the solution provided in steps 614 to 622, and is no longer Repeat.
- the mobile relay can resend the location information.
- This solution is similar to the solution provided in steps 514 to 520 and will not be described again.
- the TAC of the mobile relay's cell will also be dynamically updated, so that the network side can determine the location of the mobile relay based on the TAC of the mobile relay accessed by the terminal device. Then the current location of the terminal device can be determined more accurately.
- the management device can also obtain the location information of the mobile relay through various other methods.
- the core network device sends the location information of the mobile relay to the management device.
- the management device receives the location information of the mobile relay from the core network device.
- the solution in which the management device obtains the location information of the mobile relay from the core network device can reduce the number of times the mobile relay sends location information to the management device, thereby saving mobile relay power.
- the management device can subscribe to the core network device for the location information of the mobile relay, and then the core network device can send the location information of the mobile relay to the management device.
- a message for subscribing to the location information of the mobile relay can be sent to the core network device.
- the message used to subscribe to the location information of the mobile relay may include indication information indicating the MT entity of the mobile relay.
- the indication information may be the identity of the MT entity, and the identity of the MT entity may be a general public user.
- ISDN Global System for Mobile communications
- PSTN Public Switched Telephone Network
- the core network device may store information indicating the mobile relay The corresponding relationship between the indication information of the MT entity and the location information of the mobile relay (such as the location information of the MT entity of the mobile relay). Then, the core network device can use the indication for instructing the MT entity of the mobile relay to The information queries the location information of the mobile relay from the corresponding relationship, and then the location information of the mobile relay can be sent to the management device.
- the message used to subscribe to the location information of a mobile relay may include indication information (such as the identity of the DU entity) used to indicate the mobile relay's DU entity, and the core network device may store the information used to indicate the mobile relay's location information.
- the corresponding relationship between the indication information of the DU entity of the relay and the location information of the mobile relay (such as the location information of the MT entity of the mobile relay).
- the core network device can use the DU for indicating the mobile relay to
- the entity's indication information queries the location information of the mobile relay from the corresponding relationship, and then the location information of the mobile relay can be sent to the management device.
- the management device can configure the TAC for the cell of the mobile relay based on the obtained location information of the mobile relay.
- the management device can query the core network device for the location information of the mobile relay.
- the management device can periodically query the core network device for the location information of the mobile relay.
- FIG. 6 exemplarily shows a flow chart of yet another cell information configuration method.
- the embodiment shown in FIG. 6 can be regarded as an extended embodiment of the embodiment shown in FIG. 6 .
- the method includes:
- Step 701 The mobile relay sends the identification of the mobile relay and/or the indication information used to trigger the management device to subscribe to the location information of the mobile relay to the management device.
- the management device receives the identification of the mobile relay from the mobile relay and/or the indication information used to trigger the management device to subscribe to the location information of the mobile relay.
- the identity of the mobile relay and/or the indication information used to trigger the management device to subscribe to the location information of the mobile relay may be sent by the MT entity of the mobile relay, or may be sent by the DU entity of the mobile relay.
- the identity of the mobile relay and/or the indication information used to trigger the management device to subscribe to the location information of the mobile relay may be sent by the MT entity of the mobile relay, or may be sent by the DU entity of the mobile relay.
- the identity of the mobile relay can be used when the subsequent management device subscribes to the core network device for the location information of the mobile relay.
- the management device can send the identity of the mobile relay to the core network device NEF so that NEF can query the mobile relay identity.
- the corresponding AMF thereby subscribing to the AMF for the location information of the mobile relay.
- the AMF side can store the correspondence between the identity of the MT entity of the mobile relay and the location information of the mobile relay, and then the AMF can query the location information of the mobile relay based on the identity of the MT entity from the correspondence.
- the identity of the mobile relay can be understood as the identity of the MT function of the mobile relay that has successfully accessed the network, such as the subscriber permanent identifier (SUPI), mobile subscriber international ISDN/PSTN number , MSISDN) etc.
- SUPI subscriber permanent identifier
- MSISDN mobile subscriber international ISDN/PSTN number
- ISDN is the abbreviation of integrated service digital network (ISDN).
- PSTN is the abbreviation of public switched telephone network (PSTN).
- the indication information used to trigger the management device to subscribe to the location information of the mobile relay may be an identification of the mobile relay.
- the management device can determine that the mobile relay has mobility capabilities based on the identifier of the mobile relay. Rules can be preset on the management device side: for relay devices with mobile capabilities, location information of such relay devices needs to be subscribed.
- the management device determines that the mobile relay has mobility capabilities based on the received identification of the mobile relay, and then the management device subscribes to the core network device for the location information of the mobile relay.
- step 701 can also be replaced by: the mobile relay sends the identification of the mobile relay to the management device.
- the location information used to trigger the management device to subscribe to the mobile relay in the embodiment of the present application is
- the indication information may be: information used to indicate that the type of mobile relay is a relay device with mobility capabilities. Rules can be preset on the management device side: for relay devices with mobile capabilities, location information of such relay devices needs to be subscribed.
- the management device determines that the mobile relay has mobility capability based on the received information indicating that the type of the mobile relay is a relay device with mobility capability, and then the management device subscribes to the core network device for the mobility capability. location information.
- the information used to indicate that the type of the mobile relay is a relay device with mobility capabilities can be implemented in a variety of ways.
- the information used to indicate that the type of the mobile relay is a vehicle-mounted relay device type, and then For example, it may be information used to indicate that the type of mobile relay is a type of relay device deployed on a drone.
- Another example may be information used to indicate that the type of mobile relay is a type of relay device deployed on an aircraft. Since vehicles, drones, or aircraft have mobility capabilities and are usually in a mobile state, relay devices deployed on such vehicles can be regarded as relay devices with mobility capabilities.
- relay devices without mobility capabilities may be called non-mobile relays.
- the management device configures TAC for such non-mobile relays, it may be configured based on the location information of the non-mobile relays. TAC may also not be configured based on the location information of the non-mobile relay.
- the management device determines that the relay device belongs to a non-mobile relay (for example, the management device does not receive the location information indication information from the relay device that is used to trigger the management device to subscribe to the mobile relay), it determines that the relay device belongs to a non-mobile relay; For another example, if the message sent by the relay device to the management device requesting to configure the cell configuration information of the relay device does not carry the location information indication information used to trigger the management device to subscribe to the mobile relay, it is determined that the relay device belongs to a non-mobile relay. ), and there is no need to configure TAC based on the location information of the non-mobile relay, the management device does not need to subscribe to the location information of the non-mobile relay, thereby saving signaling overhead.
- the management device determines that the relay device is a non-mobile relay. For example, if the management device does not receive the location information indication information from the relay device to trigger the management device to subscribe to the mobile relay, then it determines that the relay device is a non-mobile relay.
- the relay equipment is a non-mobile relay.
- the message sent by the relay device to the management device requesting to configure the cell configuration information of the relay device does not carry the location information indication information used to trigger the management device to subscribe to the mobile relay, it is determined that the relay device belongs to a non-mobile relay. .
- the mobile relay may subscribe to the core network device for the location information of the mobile relay upon receiving indication information for triggering the management device to subscribe to the location information of the mobile relay.
- the management device may not subscribe to the core network device for the location information of the mobile relay if the management device does not receive the instruction information for triggering the management device to subscribe to the location information of the mobile relay. This can reduce the signaling consumption caused by subscribing to location information of non-mobile relays.
- step 701 is an optional step and may or may not be executed.
- Figure 6 takes the mobile relay execution step 701 as an example.
- Step 702 The management device sends a first subscription request message to the NEF.
- the first subscription request message is used to subscribe to the location information of the mobile relay.
- the first subscription request message may carry the identifier of the mobile relay and the subscription event identifier, where the subscription event identifier is used to indicate that this subscription event includes the location information of the subscribed mobile relay.
- the management device may determine the subscription event identifier according to the preset movement range. It can also be understood that the subscription event identifier can indicate the type of location information that the management device needs to subscribe to.
- the type of location information that the management device needs to subscribe to may be associated with a preset movement range.
- the type of location information that the management device needs to subscribe to can be one or more items included in the preset movement range.
- One or more types of location information corresponding to the content may be associated with a preset movement range.
- the preset mobility range includes: the TAC of the cell accessed by the mobile relay changes. Then the type of location information that the management device needs to subscribe to may include the TAC of the cell accessed by the mobile relay.
- the preset mobility range includes: changes in the TAC of the cell to which the mobile relay is connected, changes to the cell identity of the cell to which the mobile relay is connected, and changes to the access network to which the mobile relay is connected. Equipment changes.
- the type of location information that the management device needs to subscribe to may include at least one of the TAC of the cell accessed by the mobile relay, the cell identity, or the access network device identity.
- Step 703 NEF sends a second subscription request message to AMF.
- the second subscription request message is used to subscribe to the location information of the mobile relay.
- the NEF may query the UDM for the AMF serving the mobile relay according to the identifier of the mobile relay, and then send the second subscription request message to the AMF.
- the second subscription request message may carry the identifier of the mobile relay and the subscription event identifier, where the subscription event identifier is used to indicate that this subscription event includes the location information of the subscribed mobile relay.
- Step 704 AMF determines the location information of the mobile relay.
- the location information of the mobile relay determined by the AMF comes in many forms.
- the location information of the mobile relay determined by the AMF may include the TAC of the cell that the mobile relay accesses, the identity of the cell that the mobile relay accesses, or the mobile relay's location information. At least one of the identifiers of the access network equipment for relay access.
- the TAI in the embodiment of this application may include the TAC and the public land mobile network (public land mobile network, PLMN) identifier, or it may also be understood that the TAC is included in the TAI.
- PLMN public land mobile network
- the subscription event identifier carried in the second subscription request message may indicate the type of location information that the management device needs to subscribe to.
- the AMF can feed back to the management device location information that matches the type of location information that the management device needs to subscribe to based on the subscription event identifier.
- the location information of the mobile relay subscribed by the management device includes the identity of the cell that the mobile relay accesses.
- the location information of the mobile relay determined by the AMF also includes the identity of the cell that the mobile relay accesses. Then the mobile relay can be The identification of the accessed cell is sent to the management device.
- the subscription event identifier in the embodiment of this application may not indicate the type of location information that the management device needs to subscribe to.
- the AMF can notify the management device of the queried location information of the mobile relay.
- Step 705 The AMF sends a first notification message to the management device.
- the first notification message carries the location information 4 of the mobile relay.
- the AMF can send the location information 4 of the mobile relay to the management device through step 705.
- the AMF may send the first notification message to the management device through NEF.
- the AMF may first send the notification message to NEF, and then the NEF may transparently transmit or forward the first notification message to the management device.
- Step 706 The management device determines TAC#5 corresponding to the location information 4.
- step 706 For the relevant content of step 706, please refer to the relevant content of the management device determining the TAC of the mobile relay cell based on the location information, and will not be described again.
- Step 707 The management device sends TAC#5 to the mobile relay.
- TAC#5 is determined based on the location information 4 of the mobile relay.
- TAC#5 is used as the TAC of the cell serving as a mobile relay.
- TAC#5 may be sent by the management device to the MT entity of the mobile relay, or may be sent by the management device to the DU entity of the mobile relay.
- step 707 For the relevant content of step 707, please refer to the relevant content of the aforementioned step 202.
- step 708 may also be included:
- Step 708 AMF determines that the mobile relay has moved.
- the AMF since the AMF receives the second subscription request message, that is, the management device subscribes to the AMF for the location information of the mobile relay, the AMF determines whether the mobile relay has moved. It can also be understood as step 703 as a prerequisite for step 708.
- the AMF does not need to determine whether the mobile relay has moved. It can be seen that in this embodiment, the AMF does not determine whether the mobile relay has moved for all mobile relays, thereby reducing the workload of the AMF.
- step 708 the AMF needs to determine that the location movement range of the mobile relay satisfies the preset movement range.
- the preset movement range may include at least one of the aforementioned content 1, content 2, content 3, content 4 or content 5.
- the AMF determines whether the movement of the mobile relay satisfies the preset movement range based on the obtained information.
- the preset movement range includes: the identity of the cell accessed by the mobile relay changes.
- the mobile relay moves from the second cell of the first access network device to the first cell of the first access network device.
- the first access network device Send the identifier of the second cell accessed by the mobile relay to the AMF.
- the first access network device sends the identifier of the first cell that the mobile relay accesses to the AMF.
- the AMF determines that the identity of the cell accessed by the mobile relay is updated from the identity of the second cell to the identity of the first cell, the AMF determines that the location of the mobile relay has moved.
- the AMF's determination of whether the movement of the mobile relay satisfies the preset movement range is similar to the previous solution for the mobile relay to determine whether the movement of the mobile relay satisfies the preset movement range, and will not be elaborated here.
- the difference is that the mobile relay obtains the TAC, cell identity, access network equipment, information of the geographical area where the mobile relay is located, or the moving distance of the mobile relay, and the AMF obtains this information.
- the methods may be somewhat different.
- the AMF can receive or query the TAC, cell identity, access network equipment, information of the geographical area where the mobile relay is located, or the moving distance of the mobile relay. The embodiments of this application do not limit this.
- Step 709 The AMF sends a second notification message to the management device.
- the second notification message carries the location information 5 of the mobile relay.
- the AMF can perform step 709 when it determines that the mobile relay has moved.
- the location information 5 of the mobile relay carried by the AMF in the second notification message is the location information of the mobile relay after movement.
- the location information 5 of the mobile relay is different from the location information 4 of the mobile relay. It is worth explaining that the access network device corresponding to location information 4 and the access network device corresponding to location information 5 may be the same or different.
- the AMF executes step 709 to send the moved location information of the mobile relay to the management device.
- the AMF may not send the location information of the mobile relay to the management device. , or attribute this situation to the situation where the mobile relay has not moved.
- AMF may send a second notification message to the management device through NEF.
- AMF may first send The notification message is sent, and then the NEF transparently transmits or forwards the second notification message to the management device.
- Step 710 The management device determines TAC#6 corresponding to the location information 5.
- step 710 For the relevant content of step 710, please refer to the relevant content of the management device determining the TAC of the mobile relay cell based on the location information, and will not be described again.
- the management device may not determine whether the movement of the mobile relay satisfies the preset movement range.
- the management device receives the location information 5, it can determine the TAC #6 corresponding to the location information 5.
- the management device can also determine whether the movement of the mobile relay satisfies the preset movement range. For example, the management device receives the location information 5, and determines the TAC #6 corresponding to the location information 5 when it is determined that the movement of the mobile relay satisfies the preset movement range. For another example, when the management device receives location information 5 and determines that the movement of the mobile relay does not meet the preset movement range, it is not sure of the TAC#6 corresponding to the location information 5 and no longer notifies the mobile relay of TAC#6. .
- the preset movement range may include at least one of the aforementioned content 1, content 2, content 3, content 4 or content 5.
- the solution for the management device to determine that the mobile relay has moved is similar to the previous solution for the mobile relay to determine that the mobile relay has moved, and will not be elaborated here.
- the difference lies in the way in which the mobile relay obtains the TAC, cell identity, access network equipment, information on the geographical area where the mobile relay is located, or the moving distance of the mobile relay, and the management device.
- the methods of this information may be somewhat different.
- the management device may receive or query the TAC of the cell accessed by the mobile relay, cell identity, access network equipment, information about the geographical area where the mobile relay is located, or information about the mobile relay's location. Moving distance.
- the embodiments of this application do not limit this.
- the AMF when the AMF determines that the movement of the mobile relay satisfies the preset movement range, the AMF sends location information to the management device, and when the AMF determines that the movement of the mobile relay does not meet the preset movement range , you do not need to send location information to the management device. In this case, the management device may not determine whether the movement of the mobile relay satisfies the preset movement range.
- the AMF may not determine whether the movement of the mobile relay satisfies the preset movement range.
- the management device can determine whether the movement of the mobile relay satisfies the preset movement range.
- the AMF may not determine whether the movement of the mobile relay meets the preset movement range, and notify the management device after obtaining the location information.
- the management device can perform the step of judging whether the movement of the mobile relay satisfies the preset movement range, and feeds back TAC#6 to the mobile relay when the movement of the mobile relay satisfies the preset movement range. If the relay's movement does not meet the preset movement range, TAC#6 will not be fed back to the mobile relay.
- the management device may also directly feed back TAC#6 to the mobile relay without performing the step of determining whether the movement of the mobile relay satisfies the preset movement range.
- Step 711 The management device sends TAC#6 to the mobile relay.
- TAC#6 is determined based on the location information 5 of the mobile relay.
- TAC#6 is used as the TAC of the cell serving as a mobile relay.
- TAC#6 may be sent by the management device to the MT entity of the mobile relay, or may be sent by the management device to the DU entity of the mobile relay.
- step 711 For the relevant content of step 711, please refer to the relevant content of the aforementioned step 202.
- step 707 can be used as a possible implementation of the above-mentioned step 202.
- TAC#5 is the above-mentioned first TAC.
- Step 711 can also be used as a possible implementation of the above-mentioned step 202.
- TAC#6 is the above-mentioned first TAC.
- the mobile relay may move one or more times in the future.
- the AMF can send the location information of the moved mobile relay to the management device again, so that the management device can move according to the The moved location information of the mobile relay configures a TAC for the mobile relay, thereby achieving the effect of dynamically configuring a TAC for the mobile relay based on the location information of the mobile relay.
- the management device can receive the location information of the mobile relay from the core network device in various scenarios. For example, after the AMF receives the second subscription request message, the AMF may send the location information of the mobile relay to the management device through step 705. For another example, after the AMF determines that the mobile relay has moved, the AMF may send the location information of the mobile relay to the management device through step 709. Step 705 and step 709 can be regarded as several possible implementations of the aforementioned step 201.
- the solution provided in Figure 6 can also include other steps. For example, after obtaining the TAC from the management device, the mobile relay can also send the received TAC to the host base station. The mobile relay can also send the received TAC to the host base station according to the TAC obtained from the management device. Send a broadcast message.
- FIG. 7a and FIG. 7b can be regarded as an extended scheme based on the scheme of Figure 6.
- Figure 7a is an example where the mobile relay has not changed its host base station
- Figure 7b is an example where the mobile relay has changed its host base station.
- the access network equipment corresponding to location information 4 and the access network equipment corresponding to location information 5 may be the same or different.
- the access network equipment corresponding to location information 4 and the access network equipment corresponding to location information 5 are The access network equipment can be the same as an example for introduction.
- the method includes:
- Step 801 The MT entity of the mobile relay receives the broadcast message b1 from the access network device one.
- the broadcast message b1 includes at least one of the TAC of cell 1 of access network device one, the identity of cell 1, or the identity of access network device one.
- Step 802 The MT entity of the mobile relay performs cell selection and selects cell 1 for access.
- Step 803 The MT entity of the mobile relay establishes an RRC connection with the access network device.
- Step 804 The MT entity of the mobile relay sends a registration request message to the core network device.
- the core network device receives the registration request message.
- Step 805 The MT entity of the mobile relay is successfully registered.
- Step 806 The MT entity of the mobile relay initiates session establishment.
- the network allocates an IP address to the MT entity of the mobile relay.
- the mobile relay can use the IP address to interact with the management device.
- steps 801 to 806 please refer to the relevant content of the foregoing steps 501 to 506.
- broadcast message b1 please refer to the relevant description of the foregoing broadcast message a1, which will not be described again.
- Step 807 The mobile relay sends message b2 to the management device.
- Message b2 is used to obtain cell configuration information.
- the management device receives the message b2 from the mobile relay.
- Message b2 may include an identification of the mobile relay and/or indication information for triggering the management device to subscribe to the location information of the mobile relay.
- the message b2 may not include the location information 4 of the mobile relay.
- step 807 For the relevant content of step 807, please refer to the relevant content of step 701, which will not be described again here.
- Step 808 The management device sends a first subscription request message to NEF.
- step 808 For the relevant content of step 808, please refer to the relevant description of step 702, and will not be described again here.
- Step 809 NEF sends a second subscription request message to AMF.
- step 809 For the relevant content of step 809, please refer to the relevant description of step 703, and will not be described again here.
- Step 810 AMF determines the location information of the mobile relay.
- step 810 For the relevant content of step 810, please refer to the relevant description of step 704, which will not be described again here.
- Step 811 AMF sends a first notification message to the management device.
- step 811 For the relevant content of step 811, please refer to the relevant description of step 705, which will not be described again here.
- Step 812 The management device determines TAC#5 corresponding to the location information 4.
- step 812 For the relevant content of step 812, please refer to the relevant description of step 706, which will not be described again here.
- Step 813 The management device may send a response message to message b2 to the mobile relay.
- the response message to message b2 carries cell configuration information, and the cell configuration information includes TAC#5.
- the mobile relay may receive cell configuration information from the management device.
- TAC#5 is used as the TAC of the cell serving as a mobile relay.
- message b2 may be sent by the MT entity of the mobile relay, and the response message to message b2 may be sent by the management device to the MT entity of the mobile relay.
- message b2 may also be sent by the DU entity of the mobile relay, and the response message to message b2 may also be sent by the management device to the DU entity of the mobile relay.
- relevant content please refer to the above description and will not be repeated again.
- Step 814 The DU entity of the mobile relay sends message b3 to the access network device 1 currently accessed by the MT entity of the mobile relay.
- the message b3 is used to request activation of the cell of the mobile relay.
- Message b3 can carry TAC#5.
- step 814 please refer to the relevant description of the foregoing step 510.
- the relevant content of the message b3 please refer to the relevant introduction of the foregoing second message (for example, the message b3 can be the foregoing second message), which will not be described again here.
- Step 815 The access network device sends TAC#5 to the core network device.
- the access network device may also send other information in the activated mobile relay cell configuration information to the core network device, which is not limited by the embodiment of this application.
- the relevant content of step 815 please refer to the relevant description of step 511, which will not be described again.
- Step 816 The access network device sends a response message of message b3 to the DU entity of the mobile relay.
- step 816 For the relevant content of step 816, please refer to the relevant description of step 512, which will not be described again.
- Step 817 The mobile relay sends broadcast message b4.
- the broadcast message b4 includes TAC#5.
- the relevant content of step 817 please refer to the relevant description of step 513, which will not be described again.
- the mobile relay may be in a moving state. Since the mobile relay has moved, the mobile relay may perform step 818:
- Step 818 The MT entity of the mobile relay receives the broadcast message b5, where the broadcast message b5 includes at least one of the TAC of cell 2 of access network device one, the identity of cell 2, or the identity of access network device one.
- the mobile relay may be in a moving state.
- the mobile relay may receive the broadcast message b5. Then the mobile relay needs to perform cell selection again. For example, cell 2 can be selected as a new cell, and the mobile relay can access cell 2.
- Step 819 AMF determines that the mobile relay has moved.
- step 819 For the relevant content of step 819, please refer to the relevant description of step 708, which will not be described again here.
- Step 820 AMF sends a second notification message to the management device.
- step 820 For the relevant content of step 820, please refer to the relevant description of step 709, which will not be described again here.
- Step 821 The management device determines TAC#6 corresponding to the location information 5.
- step 821 For the relevant content of step 821, please refer to the relevant description of step 710, which will not be described again here.
- Step 822 The management device may send TAC#6 to the mobile relay.
- the mobile relay receives TAC#6 from the management device.
- TAC#6 is used as the TAC of the cell serving as a mobile relay.
- Step 823 The DU entity of the mobile relay sends a configuration update message to the access network device currently accessed by the MT entity of the mobile relay.
- the configuration update message is used to update the TAC of the cell of the mobile relay from TAC#5 to TAC#6.
- step 823 For the relevant content of step 823, please refer to the relevant description of step 519, which will not be described again.
- Step 824 The mobile relay sends broadcast message b7.
- the broadcast message b7 may include TAC#6.
- the content of step 824 please refer to the relevant content of the aforementioned step 520, and will not be described again.
- the MT entity of the mobile relay accesses cell 1 of access network device 1, and the management device allocates TAC#5 to the mobile relay based on the location information of cell 1 where the mobile relay is located.
- the AMF can send the location information to the management device again so that the management device can rely on the location information of cell 2 where the mobile relay is located. Assign TAC#6 to the mobile relay. Subsequently, if the mobile relay moves again, if it moves to a cell different from cell 2 of access network device 1, the AMF can send the location information to the management device again.
- the TAC of the mobile relay's cell will also be dynamically updated, so that the network side can determine the location of the mobile relay based on the TAC of the mobile relay accessed by the terminal device. Then the current location of the terminal device can be determined more accurately.
- the mobile relay moves out of the coverage range of the current access network equipment, that is, the host base station of the mobile relay changes, as an example.
- an introduction is made by taking the access network device corresponding to location information 4 and the access network device corresponding to location information 5 being different as an example.
- the method includes:
- Step 901 The MT entity of the mobile relay receives the broadcast message b1 from the access network device one.
- Step 902 The MT entity of the mobile relay performs cell selection and selects cell 1 for access.
- Step 903 The MT entity of the mobile relay establishes an RRC connection with the access network device.
- Step 904 The MT entity of the mobile relay sends a registration request message to the core network device.
- Step 905 The MT entity of the mobile relay is successfully registered.
- Step 906 The MT entity of the mobile relay initiates session establishment.
- the network allocates an IP address to the MT entity of the mobile relay.
- the mobile relay can use the IP address to interact with the management device.
- Step 907 The mobile relay sends message b2 to the management device.
- Step 908 The management device sends a first subscription request message to NEF.
- Step 909 NEF sends a second subscription request message to AMF.
- Step 910 AMF determines the location information of the mobile relay.
- Step 911 AMF sends a first notification message to the management device.
- Step 912 The management device determines TAC#5 corresponding to the location information 4.
- Step 913 The management device may send a response message of message b2 to the mobile relay.
- Step 914 The DU entity of the mobile relay sends message b3 to the access network device 1 currently accessed by the MT entity of the mobile relay.
- Step 915 The access network device sends TAC#5 to the core network device.
- Step 916 The access network device sends a response message of message b3 to the DU entity of the mobile relay.
- Step 917 The mobile relay sends broadcast message b4.
- steps 901 to 917 For the relevant content of steps 901 to 917, please refer to the relevant content of the aforementioned steps 801 to 817, and will not be described again.
- the mobile relay may be in a moving state. Since the mobile relay has moved, for example, the mobile relay may move within the coverage of access network device 2, so the mobile relay may perform step 918:
- Step 918 The MT entity of the mobile relay receives the broadcast message b8.
- the broadcast message b8 includes at least one of the TAC of cell 3 of access network device 2, the identity of cell 3, or the identity of access network device 2.
- the mobile relay may be in a moving state.
- the mobile relay may receive broadcast message b8. Then the mobile relay needs to perform cell selection again. For example, cell 3 can be selected as a new cell, and the mobile relay can access cell 3.
- Step 919 The AMF determines that the mobile relay has moved.
- step 919 For the relevant content of step 919, please refer to the relevant description of step 708, which will not be described again here.
- Step 920 The AMF sends a second notification message to the management device.
- step 920 For the relevant content of step 920, please refer to the relevant description of step 709, which will not be described again here.
- Step 921 The management device determines TAC#6 corresponding to the location information 5.
- step 921 For the relevant content of step 921, please refer to the relevant description of step 710, which will not be described again here.
- Step 922 The management device may send TAC#6 to the mobile relay.
- TAC#6 is used as the TAC of the cell serving as a mobile relay.
- Step 923 The DU entity of the mobile relay sends message b10 to the access network device 2 currently accessed by the MT entity of the mobile relay.
- the message b10 is used to request activation of the cell of the mobile relay.
- Message b10 may include TAC#6.
- step 923 For the content of step 923, please refer to the relevant content of the aforementioned step 619, and will not be described again.
- Step 924 Access network device 2 sends TAC#6 to the core network device.
- the access network device may also send other information in the activated mobile relay cell configuration information to the core network device, which is not limited by this embodiment of the application.
- step 924 For the content of step 924, please refer to the relevant content of the aforementioned step 620, and will not be described again.
- Step 925 Access network device 2 sends a response message of message b10 to the DU entity of the mobile relay.
- step 925 For the content of step 925, please refer to the relevant content of the aforementioned step 621, and will not be described again.
- Step 926 The mobile relay sends the broadcast message b11.
- the broadcast message b11 includes TAC#6.
- the MT entity of the mobile relay accesses cell 1 of access network device 1, and the management device allocates TAC#5 to the mobile relay based on the location information of cell 1 where the mobile relay is located.
- the AMF can send the location information to the management device again so that the management device can use the location information of cell 3 where the mobile relay is located.
- network element A when a certain network element (for example, network element A) receives information from another network element (for example, network element B), it may mean that network element A directly receives information from network element B. Receiving information may also refer to network element A receiving information from network element B via other network elements (for example, network element C).
- network element C When network element A receives information from network element B via network element C, network element C can transparently transmit the information or process the information, for example, carry the information in different messages for transmission or filter the information. , and only sends the filtered information to network element A.
- network element A when network element A sends information to network element B, it may mean that network element A sends information directly to network element B, or it may mean that network element A sends information to network element B via other network elements (for example, network C). element) sends information to network element B.
- system and “network” in the embodiments of this application may be used interchangeably.
- “At least one” means one or more, and “plurality” means two or more.
- “And/or” describes the association of associated objects, indicating that there can be three relationships, for example, A and/or B, which can mean: A exists alone, A and B exist simultaneously, and B exists alone, where A, B can be singular or plural.
- the character “/” generally indicates that the related objects are in an “or” relationship.
- At least one of the following” or similar expressions thereof refers to any combination of these items, including any combination of a single item (items) or a plurality of items (items).
- At least one of a, b, or c can represent: a, b, c, a-b, a-c, b-c, or a-b-c, where a, b, c can be single or multiple .
- Figure 8 is a schematic structural diagram of a device provided by an embodiment of the present application.
- the communication device can be a mobile relay or management device, or it can be a chip or a circuit.
- it can be provided on a mobile relay A chip or circuit, another example is a chip or circuit that can be installed in a management device.
- the communication device can be used to perform the mobile relay side or the management device side in any of the related solutions in Figure 3, Figure 4a, Figure 4b, Figure 4c, Figure 5a, Figure 5b, Figure 6, Figure 7a or Figure 7b. method.
- the communication device 1801 includes a processor 1802 and a transceiver 1803.
- the communication device 1801 may include a memory 1804.
- the dotted line on the memory 1804 in the figure further indicates that the memory is optional.
- the communication device 1801 may further include a bus system, wherein the processor 1802, the memory 1804, and the transceiver 1803 may be connected through the bus system.
- the above-mentioned processor 1802 may be a chip.
- the processor 1802 can be a field programmable gate array (FPGA), an application specific integrated circuit (ASIC), a system on chip (SoC), or It can be a central processing unit (CPU), a network processor (NP), a digital signal processing circuit (DSP), or a microcontroller unit, MCU), or a programmable logic device (PLD) or other integrated chip.
- FPGA field programmable gate array
- ASIC application specific integrated circuit
- SoC system on chip
- CPU central processing unit
- NP network processor
- DSP digital signal processing circuit
- MCU microcontroller unit
- PLD programmable logic device
- each step of the above method can be completed by instructions in the form of hardware integrated logic circuits or software in the processor 1802 .
- the steps of the methods disclosed in conjunction with the embodiments of the present application can be directly implemented by a hardware processor, or executed by a combination of hardware and software modules in the processor 1802.
- Software modules can be located in random access memory, flash memory, read-only memory, programmable read-only memory or electrically erasable programmable memory, registers and other mature storage media in this field.
- the storage medium is located in the memory 1804.
- the processor 1802 reads the information in the memory 1804 and completes the steps of the above method in combination with its hardware.
- the processor 1802 in the embodiment of the present application may be an integrated circuit chip with signal processing capabilities.
- each step of the above method embodiment can be completed through an integrated logic circuit of hardware in the processor or instructions in the form of software.
- the above-mentioned processor may be a general-purpose processor, a digital signal processor (DSP), an application-specific integrated circuit (ASIC), a field programmable gate array (FPGA) or other programmable logic devices, discrete gate or transistor logic devices, or discrete hardware components.
- DSP digital signal processor
- ASIC application-specific integrated circuit
- FPGA field programmable gate array
- a general-purpose processor may be a microprocessor or the processor may be any conventional processor, etc.
- the steps of the method disclosed in conjunction with the embodiments of the present application can be directly implemented by a hardware decoding processor, or executed by a combination of hardware and software modules in the decoding processor.
- the software module can be located in random access memory, flash memory, read-only memory, programmable read-only memory or electrically erasable programmable memory, registers and other mature storage media in this field.
- the storage medium is located in the memory, and the processor reads the information in the memory and completes the steps of the above method in combination with its hardware.
- the memory 1804 in the embodiment of the present application can be a volatile memory or a non-volatile memory, or can include both volatile and non-volatile memories.
- the memory in the embodiments of the present application please refer to the foregoing content and will not be described again here.
- the processor 1802 is configured to execute through the transceiver 1803: send the location information of the mobile relay to the management device, and the location information of the mobile relay is used to obtain the cell configuration information of the mobile relay; receive Cell configuration information of the mobile relay from the management device.
- the cell configuration information of the mobile relay includes the first TAC.
- the first TAC is determined based on the location information of the mobile relay; where the mobile relay is in a moving state, and the mobile relay Relays are used to provide relay services between terminal equipment and access network equipment.
- the processor 1802 is configured to execute through the transceiver 1803: receiving a first broadcast message, where the first broadcast message includes the access network to which the mobile relay is connected. At least one of the second TAC of the first cell of the device, the identity of the first cell, or the identity of the access network device accessed by the mobile relay.
- the processor 1802 is configured to execute through the transceiver 1803: query the core network device for the location of the mobile relay; the mobile relay receives data from the core network Location information for the device's mobile relay.
- the processor 1802 is configured to determine that the mobile relay has moved.
- the processor 1802 is configured to determine that the mobile relay has moved based on the TAC, cell identification or access network equipment identification of the mobile relay access cell.
- the processor 1802 is configured to execute through the transceiver 1803: send instruction information to the management device, the instruction information is used to trigger the management device to subscribe to the location information of the mobile relay; receive location information from the management device for the mobile relay The first TAC configured in the relay cell is determined based on the location information of the mobile relay.
- the processor 1802 is configured to execute through the transceiver 1803: obtain the location information of the mobile relay; send the first TAC to the mobile relay, where the first TAC is used as the TAC of the cell of the mobile relay. , the first TAC is determined based on the location information of the mobile relay; wherein the mobile relay is in a moving state, and the mobile relay is used to provide relay services between the terminal device and the access network device.
- the processor 1802 is used to The transceiver 1803 performs: receiving location information from the mobile relay, and the location information of the mobile relay is used to obtain the cell configuration information of the mobile relay.
- the processor 1802 is configured to execute through the transceiver 1803: subscribe to the core network device for the location information of the mobile relay; receive the mobile relay from the core network device. location information.
- the processor 1802 is configured to execute through the transceiver 1803: receive indication information from the mobile relay, and the indication information is used to trigger the management device to subscribe to the mobile relay. location information.
- the processor 1802 is configured to execute through the transceiver 1803: determine the location according to the association relationship between the location indicated by the location information of the mobile relay and the first TAC.
- the first TAC corresponding to the message.
- Figure 9 is a schematic structural diagram of a device provided by an embodiment of the present application.
- a communication device 1901 may include a communication interface 1903 and a processor 1902. Further, the communication device 1901 may include a memory 1904. The dotted line on memory 1904 in the figure further indicates that the memory is optional.
- the communication interface 1903 is used to input and/or output information; the processor 1902 is used to execute computer programs or instructions, so that the communication device 1901 implements the above-mentioned Figure 3, Figure 4a, Figure 4b, Figure 4c, Figure 5a, Figure 5b, Figure 6.
- the communication interface 1903 can implement the solution implemented by the transceiver 1803 of Figure 8
- the processor 1902 can implement the solution implemented by the processor 1802 of Figure 8
- the memory 1904 can implement the memory 1804 of Figure 8. The implemented solution will not be described again here.
- Figure 10 is a schematic diagram of a device provided by an embodiment of the present application.
- the communication device 2001 can be a mobile relay or management device, or can be a chip or circuit.
- it can be configured Chips or circuits used in mobile relay or management equipment.
- the communication device 2001 includes a processing unit 2002 and a communication unit 2003. Further, the communication device 2001 may or may not include the storage unit 2004.
- the memory unit 2004 in the figure is dotted to further indicate that the memory is optional.
- the communication unit 2003 is used to input and/or output information; the processing unit 2002 is used to execute computer programs or instructions, so that the communication device 2001 implements the above-mentioned Figure 3, Figure 4a, Figure 4b, Figure 4c, Figure 5a, Figure 5b, Figure 6.
- the communication unit 2003 can implement the solution implemented by the transceiver 1803 of Figure 8
- the processing unit 2002 can implement the solution implemented by the processor 1802 of Figure 8
- the storage unit 2004 can implement the memory of Figure 8. The solution implemented by 1804 will not be described again here.
- the present application also provides a computer program product.
- the computer program product includes: computer program code or instructions.
- the computer program product causes the The computer executes the method of any one of the embodiments shown in any one of Figure 3, Figure 4a, Figure 4b, Figure 4c, Figure 5a, Figure 5b, Figure 6, Figure 7a or Figure 7b.
- the present application also provides a computer-readable storage medium.
- the computer-readable medium stores program code.
- the program code When the program code is run on a computer, it causes the computer to execute Figures 3 and 4a. , the method of any one of the embodiments shown in any one of Figure 4b, Figure 4c, Figure 5a, Figure 5b, Figure 6, Figure 7a or Figure 7b.
- the present application also provides a chip system, and the chip system may include a processor.
- the processor is coupled to the memory and can be used to execute any one of the embodiments shown in any one of Figure 3, Figure 4a, Figure 4b, Figure 4c, Figure 5a, Figure 5b, Figure 6, Figure 7a or Figure 7b method.
- the chip system also includes a memory.
- Memory is used to store computer programs (also called codes, or instructions).
- the processor is used to call and run the computer program from the memory, so that the device equipped with the chip system executes any one of Figure 3, Figure 4a, Figure 4b, Figure 4c, Figure 5a, Figure 5b, Figure 6, Figure 7a or Figure 7b The method of any one of the embodiments shown in the item.
- this application also provides a system, which includes one or more of the aforementioned mobile relays and management devices.
- a computer program product includes one or more computer instructions.
- Computer instructions When computer instructions are loaded and executed on a computer, processes or functions according to embodiments of the present application are generated in whole or in part.
- the computer may be a general purpose computer, a special purpose computer, a computer network, or other programmable device.
- Computer instructions may be stored in or transmitted from one computer-readable storage medium to another computer-readable storage medium, e.g., computer instructions may be transmitted from a website, computer, server or data center via a wired link (e.g.
- Coaxial cable, optical fiber, digital subscriber line (DSL)) or wireless means to transmit to another website, computer, server or data center.
- Computer-readable storage media can be any available media that can be accessed by a computer or a data storage device such as a server, data center, or other integrated media that contains one or more available media. Available media may be magnetic media (e.g., floppy disks, hard disks, tapes), optical media (e.g., high-density digital video discs (DVD)), or semiconductor media (e.g., solid state disks (SSD) )wait.
- magnetic media e.g., floppy disks, hard disks, tapes
- optical media e.g., high-density digital video discs (DVD)
- semiconductor media e.g., solid state disks (SSD)
- the second communication device in the above device embodiments corresponds to the second communication device or the first communication device in the first communication device and method embodiments, and corresponding steps are performed by corresponding modules or units, such as communication units (transceivers).
- corresponding modules or units such as communication units (transceivers).
- processing unit processing unit
- a component may be, but is not limited to, a process, a processor, an object, an executable file, a thread of execution, a program and/or a computer running on a processor.
- applications running on the computing device and the computing device may be components.
- One or more components can reside in a process and/or thread of execution and a component can be localized on one computer and/or distributed between two or more computers. Additionally, these components can execute from various computer-readable media having various data structures stored thereon.
- a component may, for example, be based on a signal having one or more data packets (eg, data from two components interacting with another component, a local system, a distributed system, and/or a network, such as the Internet, which interacts with other systems via signals) via local and/or remote processes to communicate.
- data packets eg, data from two components interacting with another component, a local system, a distributed system, and/or a network, such as the Internet, which interacts with other systems via signals
- the disclosed systems, devices and methods can be implemented in other ways.
- the device embodiments described above are only illustrative.
- the division of units is only a logical function division. In actual implementation, there may be other division methods.
- multiple units or components may be combined or integrated. to another system, or some features can be ignored, or not implemented.
- the coupling or direct coupling or communication connection between each other shown or discussed may be through some interfaces, and the indirect coupling or communication connection of the devices or units may be in electrical, mechanical or other forms.
- a unit described as a separate component may or may not be physically separate.
- a component shown as a unit may or may not be a physical unit, that is, it may be located in one place, or it may be distributed to multiple network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of this embodiment.
- each functional unit in each embodiment of the present application can be integrated into one processing unit, each unit can exist physically alone, or two or more units can be integrated into one unit.
- Functions may be stored in a computer-readable storage medium when implemented in the form of software functional units and sold or used as independent products.
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Abstract
Procédé et appareil de configuration d'informations de cellule, et support de stockage lisible et système de puce, qui se rapportent au domaine technique des communications et sont utilisés pour configurer un TAC pour un relais mobile présentant une capacité mobile. Dans la présente demande, un dispositif de gestion peut acquérir des informations d'emplacement d'un relais mobile, puis configurer un TAC pour une cellule du relais mobile en fonction des informations d'emplacement du relais mobile. Étant donné que le TAC pour la cellule du relais mobile est déterminé en fonction des informations d'emplacement du relais mobile, un côté réseau peut déterminer les informations d'emplacement du relais mobile en fonction d'un TAC d'un relais mobile auquel un dispositif de terminaison accède, de telle sorte que l'emplacement du dispositif de terminaison accédant au relais mobile peut être déterminé.
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CN202210306877.8A CN116846444A (zh) | 2022-03-25 | 2022-03-25 | 小区信息的配置方法、装置、可读存储介质及芯片系统 |
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US20150063199A1 (en) * | 2012-01-18 | 2015-03-05 | Samsung Electronics Co., Ltd. | Method for mobile relay node obtaining ta information, method for mobile relay node switching, method for updating location of user location and method for paging user |
CN109076480A (zh) * | 2016-04-28 | 2018-12-21 | 瑞典爱立信有限公司 | 在无线通信网络中处理跟踪区信息 |
WO2022043498A1 (fr) * | 2020-08-31 | 2022-03-03 | Ipcom Gmbh & Co. Kg | Configuration de nœud de relais en fonction de l'emplacement |
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2022
- 2022-03-25 CN CN202210306877.8A patent/CN116846444A/zh active Pending
-
2023
- 2023-02-09 WO PCT/CN2023/075179 patent/WO2023179231A1/fr unknown
- 2023-03-22 TW TW112110761A patent/TW202341807A/zh unknown
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US20150063199A1 (en) * | 2012-01-18 | 2015-03-05 | Samsung Electronics Co., Ltd. | Method for mobile relay node obtaining ta information, method for mobile relay node switching, method for updating location of user location and method for paging user |
CN109076480A (zh) * | 2016-04-28 | 2018-12-21 | 瑞典爱立信有限公司 | 在无线通信网络中处理跟踪区信息 |
WO2022043498A1 (fr) * | 2020-08-31 | 2022-03-03 | Ipcom Gmbh & Co. Kg | Configuration de nœud de relais en fonction de l'emplacement |
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QUALCOMM INCORPORATED, CATT: "TR 23.700-05: new Key Issue on location and regulatory services support for FS_VMR", 3GPP DRAFT; S2-2201582, 3RD GENERATION PARTNERSHIP PROJECT (3GPP), 25 February 2022 (2022-02-25), XP052117099 * |
ZTE: "Considerations on the scenarios for mobile relay", 3GPP TSG-RAN WG3 MEETING #73, ZHUHAI, CHINA, OCTOBER 10 - 14, 2011, vol. R3-112553, no. 73BIS, 19 October 2011 (2011-10-19) - 14 October 2011 (2011-10-14), pages 1 - 5, XP002679150 * |
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TW202341807A (zh) | 2023-10-16 |
CN116846444A (zh) | 2023-10-03 |
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