communication method and communications device

专利摘要:
that request reveals a method of communication and a communications device. the method includes: sending, through a distributed unit, a connection installation request message to a central unit; and receiving, by the distributed unit, a connection installation response message from the central unit, where the connection installation request message or the connection installation response message includes network slice information supported by the distributed unit . the corresponding device is also revealed. in this order, the network slice information supported by the distributed unit is exchanged between the distributed unit and the central unit using a connection installation process, so that a service based on the network slice in a distributed unit architecture and central unit can be implemented.
公开号:BR112019018044A2
申请号:R112019018044
申请日:2018-09-12
公开日:2020-04-07
发明作者:Han Feng；Li Hong；Tan Wei；Jin Yinghao
申请人:Huawei Tech Co Ltd；
IPC主号:

专利说明:

“COMMUNICATION METHOD AND COMMUNICATIONS DEVICE” FIELD OF TECHNIQUES [001] This request refers to the field of communications technologies, and in particular, a communication method and a communications device.
BACKGROUND [002] A concept of network slicing is introduced into a next-generation mobile communications network technology (eg, mobile communications 5th generation (5th generation, 5G)) to serve various different tenants and services by use of a personalized network. A main network device (core network, CN), a radio access network device (radio access network, RAN), and a terminal device can each support a plurality of network slices. Because RAN devices from different vendors differ in function, or because different RAN devices have different capabilities to support network slice due to operator policies, RAN devices also support different services based on network slice within coverage areas of RAN devices.
[003] In the next generation mobile communications network technology, an architecture of the RAN device is divided. Specifically, a RAN device includes a central unit (central unit, CU) and one or more distributed units (distributed unit, DU). How to implement a service based on network slice in a CU-DU architecture is a problem that deserves to be considered.
SUMMARY [004] This order provides a communication method and a communications device, to implement a service based on network slice in a CU-DU architecture.
[005] According to one aspect, a method of communication is provided, and the method includes: sending, by a distributed unit, a connection installation request message to a central unit; and receiving, by the distributed unit, a connection installation response message from the central unit, where the connection installation request message or the connection installation response message includes network slice information supported by the distributed unit.
[006] In this project, the network slice information supported by
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2/64 distributed unit are exchanged between the distributed unit and the central unit by using a connection installation process, so that the distributed unit and the central unit provide a service based on network slice to a terminal device.
[007] In a possible project, the connection installation response message additionally includes network slice information supported by the central unit.
[008] In this project, the central unit notifies the distributed unit of a network slice supported by the central unit, and the distributed unit can provide the terminal device only with a service based on the network slice that is supported by both the distributed unit and the by the central unit.
[009] In another possible project, the method additionally includes: sending, through the distributed unit, a configuration update message to the central unit, where the configuration update message includes updated network slice information supported by the distributed unit.
[010] In this project, when a network slice supported by the distributed unit is updated, the distributed unit needs to update the network slice information for the central unit.
[011] In yet another possible project, the network slice information supported by the distributed unit includes at least one or a combination of the following: network slice indication information supported by at least one cell in the distributed unit; a cell identifier of the at least one cell of the distributed unit and network slice indication information supported by each of the at least one cell; or a tracking area identifier or registration area that corresponds to at least one cell of the distributed unit and network slice indication information supported by each tracking area or each registration area in the tracking area or the record that corresponds to at least one cell.
[012] In this project, a plurality of ways of representing the network slice information is provided. This request is certainly not limited to these various forms of representation.
[013] Correspondingly, another aspect of that request additionally provides a communications device, which it can implement
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3/64 the aforementioned method of communication. The communications device has the function of implementing the behavior of the distributed unit in the aforementioned method. The function can be implemented by using hardware, or it can be implemented by using software that runs corresponding hardware. The hardware or software includes one or more modules that correspond to the aforementioned function.
[014] In a possible project, the communications device includes: a transmission unit, configured to send a connection installation request message to a central unit; and a receiving unit, configured to receive a connection installation response message from the central unit, where the connection installation request message or the connection installation response message includes network slice information supported by the unit distributed.
[015] In a possible project, the connection installation response message additionally includes network slice information supported by the central unit.
[016] In a possible project, the transmission unit is additionally configured to send a configuration update message to the central unit, where the configuration update message includes updated network slice information supported by the distributed unit.
[017] In a possible project, the network slice information supported by the distributed unit includes at least one or a combination of the following: network slice indication information supported by at least one cell in the distributed unit; a cell identifier of the at least one cell of the distributed unit and network slice indication information supported by each of the at least one cell; or a tracking area identifier or registration area that corresponds to at least one cell of the distributed unit and network slice indication information supported by each tracking area or each registration area in the tracking area or the record that corresponds to at least one cell.
[018] When the distributed unit is a chip, the receiving unit can be an input unit such as an input circuit or a communications interface, and the transmission unit can be a unit
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4/64 output such as an output circuit or a communications interface. When the communications device is a device, the receiving unit can be a receiving device (or it can be referred to as a receiver), and the transmission unit can be a transmitting device (or it can be referred to as a transmitter).
[019] In another possible project, the communications device includes a receiver, a transmitter, a memory, and a processor. The memory stores a set of program code, and the processor is configured to invoke the program code stored in memory, to perform the following operations: control the transmitter to send a connection installation request message to a central unit; and controlling the receiver to receive a connection installation response message from the central unit, where the connection installation request message or the connection installation response message includes network slice information supported by the distributed unit.
[020] Based on the same concept of invention, as for a principle of problem solving and beneficial effects of the device, make reference to the aforementioned possible method implementations and beneficial effects brought from the distributed unit. Therefore, for the implementation of the device, refer to the implementation of the method. Repeated parts are not described again.
[021] According to yet another aspect, a method of communication is provided, and the method includes: receiving, by a central unit, a message requesting a connection installation from a distributed unit; and sending, through the central unit, a connection installation response message to the distributed unit, where the connection installation request message or the connection installation response message includes network slice information supported by the distributed unit.
[022] In this project, the distributed unit and the central unit obtain, through the use of a connection installation process, the network slice information supported by the distributed unit, so that the distributed unit and the central unit subsequently provide a service based on network slice for a terminal device.
[023] In a possible project, the installation response message from
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5/64 connection additionally includes network slice information supported by the central unit.
[024] In this project, the central unit notifies the distributed unit of a network slice supported by the central unit, and the distributed unit can only support a network slice that is supported by both the distributed unit and the central unit.
[025] In another possible project, the method additionally includes: receiving, by the central unit, a configuration update message from the distributed unit, where the configuration update message includes updated network slice information supported by the distributed unit .
[026] In this project, when a network slice supported by the distributed unit is updated, the distributed unit needs to update the network slice information for the central unit.
[027] In yet another possible project, the method additionally includes: sending, through the central unit, a configuration update message to the distributed unit, where the configuration update message includes updated network slice information supported by the central unit .
[028] In this project, when a network slice supported by the central unit is updated, the central unit needs to update the network slice information for the distributed unit.
[029] In yet another possible project, the configuration update message or the connection installation response message additionally includes network slice configuration information. The network slice configuration information includes at least one of the following configuration information: layer 1 protocol stack configuration information, layer 2 protocol stack configuration information, physical resource information, bandwidth information frequency that corresponds to a network slice, frequency information that corresponds to a network slice, or status information supported by a network slice.
[030] In this project, since the network slice information of the distributed unit is configured for the central unit, the central unit can additionally send the network slice configuration information when
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6/64 send the network slice information supported by the central unit to the distributed unit, so that the distributed unit can configure a network slice based on the configuration information, to provide a service based on the network slice to the terminal device.
[031] Correspondingly, yet another aspect of that request additionally provides a communications device, which can implement the aforementioned method of communication. The communications device has the function of implementing the behavior of the central unit in the aforementioned method. The function can be implemented by using hardware, or it can be implemented by using software that runs corresponding hardware. The hardware or software includes one or more modules that correspond to the aforementioned function.
[032] In a possible project, the communications device includes: a receiving unit, configured to receive a connection installation request message from a distributed unit; and the transmission unit, configured to send a connection installation response message to the distributed unit, where the connection installation request message or the connection installation response message includes network slice information supported by the distributed unit .
[033] In a possible project, the connection installation response message additionally includes network slice information supported by the central unit.
[034] In a possible project, the transmission unit is additionally configured to send a configuration update message to the distributed unit, where the configuration update message includes updated network slice information supported by the central unit.
[035] In a possible project, the configuration update message additionally includes network slice configuration information. The network slice configuration information or the connection installation response message includes at least one of the following configuration information: layer 1 protocol stack configuration information, layer 2 protocol stack configuration information, physical resource information, frequency band information that corresponds to a
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7/64 network slice, frequency information that corresponds to a network slice, or status information supported by a network slice.
[036] When the communications apparatus is a chip, the receiving unit may be an input unit such as an input circuit or a communications interface, and the transmission unit may be an output unit such as a communication circuit. output or a communications interface. When the communications device is a device, the receiving unit can be a receiving device (or it can be referred to as a receiver), and the transmission unit can be a transmitting device (or it can be referred to as a transmitter).
[037] In another possible project, the communications device includes a receiver, a transmitter, a memory, and a processor. The memory stores a set of program code, and the processor is configured to invoke the program code stored in memory, to perform the following operations: control the receiver to receive a connection installation request message from a distributed unit ; and controlling the transmitter to send a connection installation response message to the distributed unit, where the connection installation request message or the connection installation response message includes network slice information supported by the distributed unit.
[038] Based on the same concept of invention, as for a principle of problem solving and beneficial effects of the device, make reference to the aforementioned possible method implementations and beneficial effects brought from the central unit. Therefore, for the implementation of the device, refer to the implementation of the method. Repeated parts are not described.
[039] According to yet another aspect, a communication method is provided, and the method includes: sending, by a central unit, a first message to a distributed unit, where the first message includes network slice indication information that corresponds to a session, a carrier, or a flow; and receiving, by the central unit, a reply message from the distributed unit.
[040] In this project, as different network slices have different layer 1 or layer 2 configurations on one side of RAN, different sessions can correspond to different network slices. During installation or
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8/64 session modification, the central unit notifies the distributed unit of network slice indication information that corresponds to a session, carrier, or flow to be established or modified, so that the distributed unit establishes or modifies the session, carrier, or flow in a given network slice. Therefore, the distributed unit can accurately select a network slice, and can configure, based on network slice information that corresponds to the session, an L1 / L2 parameter that corresponds to the network slice for a terminal device, so that sessions that belong to different network slices meet a specific requirement for QoS.
[041] In a possible project, the method additionally includes: sending, by the central unit, a radio resource control message to the terminal device by using the distributed unit, where the radio resource control message includes an a session, carrier, or flow that is successfully established.
[042] In this project, the terminal device obtains the session identifier, carrier, or flow that is successfully established (established), to conduct a session with a network device.
[043] In another possible project, the method additionally includes: sending, through the central unit, a trajectory switching request message to a main network device, where the trajectory switching request message includes a session identifier successfully established by the central unit or the distributed unit, and / or a stream identifier that corresponds to the session identifier and which is successfully established by the central unit or the distributed unit.
[044] In this project, due to the mobility of the terminal device, the terminal device moves from an original server unit or central distributed unit to a new central unit or distributed unit. In this scenario, the central unit notifies the primary network device of a session or flow that requires path switching, so that the primary network device can send downlink data and receive uplink data based on a switched path.
[045] In yet another possible project, the first message or the response message additionally includes carrier duplication indication information. In this project, the terminal device can transmit the
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9/64 same data over two paths, thereby increasing the reliability of data transmission.
[046] In yet another possible project, the first message additionally includes UE-AMBR Dll indication information, and UE-AMBR Dll indication information is used to indicate a maximum aggregation bit rate applied by the distributed unit for the terminal device.
[047] In this project, the terminal device can perform data transmission with at least two distributed units that correspond to the same central unit, and the terminal device can transmit different data to different distributed units. The DU UEAMBR indication information is from the first message, so that a transmission data rate from each unit distributed to the terminal device does not exceed the maximum aggregation bit rate applied by the unit distributed to the terminal device.
[048] In yet another possible project, the first message additionally includes configuration information from a source network device for at least one protocol stack that corresponds to a carrier, and at least one protocol stack includes a protocol stack. RLC protocol, MAC protocol stack, and PHY protocol stack.
[049] In this project, the central unit adds, to the first message to be sent to the distributed unit, configuration information from the source network device to a protocol stack that corresponds to a terminal device carrier, so that the distributed unit can perform different configuration in protocol stacks, thereby simplifying distributed unit operations.
[050] In yet another possible project, the source network device includes any of the following: the central unit, a source base station, a source central unit, and the main network device.
[051] Correspondingly, yet another aspect of that request additionally provides a communications device, which can implement the aforementioned method of communication. The communications device has the function of implementing the behavior of the central unit in the aforementioned method. The function can be implemented by using hardware, or it can be
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10/64 implemented by using software that runs corresponding hardware. The hardware or software includes one or more modules that correspond to the aforementioned function.
[052] In a possible project, the communications device includes: a transmission unit, configured to send a first message to a distributed unit, where the first message includes information about the network slice indication that corresponds to a session, a carrier , or a stream; and a receiving unit, configured to receive a reply message from the distributed unit.
[053] In a possible project, the transmission unit is additionally configured to send a radio resource control message to a terminal device using the distributed unit, where the radio resource control message includes a session identifier , carrier, or flow that is successfully established.
[054] In a possible project, the transmission unit is additionally configured to send a path switch request message to a main network device, where the path switch request message includes an identifier of a successfully established session by the central unit or by the distributed unit, and / or a flow identifier that corresponds to the session identifier and which is successfully established by the central unit or the distributed unit.
[055] In a possible project, the first message or the reply message additionally includes carrier duplication indication information.
[056] In a possible project, the first message additionally includes UE-AMBR Dll indication information, and UE-AMBR Dll indication information is used to indicate a maximum aggregation bit rate applied by the unit distributed to the device. terminal.
[057] In a possible project, the first message additionally includes configuration information from a source network device for at least one protocol stack that corresponds to a carrier, and at least one protocol stack includes an RLC protocol stack, a MAC protocol stack, and a PHY protocol stack.
[058] In a possible project, the source network device includes any
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11/64 among the following: the central unit, a source base station, a source central unit, and the main network device.
[059] When the communications apparatus is a chip, the receiving unit may be an input unit such as an input circuit or a communications interface, and the transmission unit may be an output unit such as a communication circuit. output or a communications interface. When the communications device is a device, the receiving unit can be a receiving device (or it can be referred to as a receiver), and the transmission unit can be a transmitting device (or it can be referred to as a transmitter).
[060] In another possible project, the central unit includes a receiver, a transmitter, a memory, and a processor. The memory stores a set of program code, and the processor is configured to invoke the program code stored in memory, to perform the following operations: send a first message to a distributed unit using the transmitter, where the first message includes network slice indication information that corresponds to a session, carrier, or flow; and receiving a reply message from the distributed unit using the receiver.
[061] Based on the same concept of invention, as for a principle of problem solving and beneficial effects of the device, make reference to the aforementioned possible method implementations and beneficial effects brought from the central unit. Therefore, for the implementation of the device, refer to the implementation of the method. Repeated parts are not described.
[062] According to yet another aspect, a communication method is provided, and the method includes: receiving, by a distributed unit, a first message from a central unit, where the first message includes slice indication information network that corresponds to a session, a carrier, or a stream; and sending, by the distributed unit, a reply message to the central unit.
[063] In this project, as different network slices have different layer 1 or layer 2 configurations on one side of the RAN, different sessions can correspond to different network slices. During installation or session modification, the central unit notifies the distributed unit of network slice indication information that corresponds to a session,
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12/64 bearer, or flow to be established or modified, so that the distributed unit establishes or modifies the session, bearer, or flow in an indicated network slice. Therefore, the distributed unit can precisely select a network slice, and can configure, based on network slice information that corresponds to the session, an L1 / L2 parameter that corresponds to the network slice for a terminal device. Therefore, sessions that belong to different network slices meet a specific requirement for QoS.
[064] In a possible project, the method additionally includes: sending, through the distributed unit, a radio resource control message from the central unit to the terminal device, where the radio resource control message includes an a session, carrier, or flow that is successfully established.
[065] In this project, the terminal device obtains the session identifier, carrier, or flow that is successfully established (established), to conduct a session with a network device.
[066] In another possible project, after receiving, by a distributed unit, a first message from a central unit, the method additionally includes: determining, by the distributed unit, whether or not the distributed unit supports a slice of network that corresponds to the network slice indication information.
[067] In this project, the distributed unit determines, based on a network slice supported by the distributed unit, whether or not the distributed unit supports the network slice that corresponds to the network slice indication information of the first message, so to ensure that a session service can be provided.
[068] In yet another possible project, the first message or the response message additionally includes carrier duplication indication information.
[069] In this project, the terminal device can transmit the same data in two paths, thereby increasing the reliability of data transmission.
[070] In yet another possible project, the first message additionally includes UE-AMBR Dll indication information, and UE-AMBR Dll indication information is used to indicate a rate
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13/64 bit maximum aggregation applied by the distributed unit to the terminal device.
[071] In this project, the UE-AMBR Dll indication information is from the first message, so that a transmission data rate from the unit distributed to the terminal device does not exceed the maximum aggregation bit rate applied by the unit distributed to the terminal device.
[072] In yet another possible project, the first message additionally includes configuration information from a source network device for at least one protocol stack that corresponds to a carrier, and at least one protocol stack includes a protocol stack. RLC protocol, MAC protocol stack, and PHY protocol stack.
[073] In this project, the central unit adds, to the first message to be sent to the distributed unit, configuration information from the source network device to a protocol stack that corresponds to a terminal device carrier, so that the distributed unit can perform different configuration in protocol stacks, thereby simplifying distributed unit operations.
[074] Correspondingly, yet another aspect of that application additionally provides a communications device, and the communications device has a function of implementing the behavior of the distributed unit in the aforementioned method. The function can be implemented by using hardware, or it can be implemented by using software that runs corresponding hardware. The hardware or software includes one or more modules that correspond to the aforementioned function.
[075] In a possible project, the communications device includes: a receiving unit, configured to receive a first message from a central unit, where the first message includes indication of network slice indication that corresponds to a session, a carrier, or a stream; and a transmission unit, configured to send a response message to the central unit.
[076] In a possible project, the transmission unit is additionally configured to send a radio resource control message from the central unit to a terminal device, where the radio resource control message includes a session identifier , carrier, or flow that
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14/64 is established (established) successfully.
[077] In a possible project, the communications device additionally includes a processing unit, configured to determine whether or not the communications device supports a network slice that corresponds to the network slice indication information.
[078] In a possible project, the first message or the reply message additionally includes carrier duplication indication information.
[079] In a possible project, the first message additionally includes UE-AMBR Dll indication information, and UE-AMBR Dll indication information is used to indicate a maximum aggregation bit rate applied by the unit distributed to the device terminal.
[080] In a possible project, the first message additionally includes configuration information from a source network device for at least one protocol stack that corresponds to a carrier, and at least one protocol stack includes an RLC protocol stack, a MAC protocol stack, and a PHY protocol stack.
[081] In a possible project, the source network device includes any one of the following: the central unit, a source base station, a source central unit, and a main network device.
[082] When the communications apparatus is a chip, the receiving unit may be an input unit such as an input circuit or a communications interface, and the transmission unit may be an output unit such as a communication circuit. output or a communications interface. When the communications device is a device, the receiving unit can be a receiving device (or it can be referred to as a receiver), and the transmission unit can be a transmitting device (or it can be referred to as a transmitter).
[083] In another possible project, the communications device includes a receiver, a transmitter, a memory, and a processor. The memory stores a set of program code, and the processor is configured to invoke the program code stored in memory, to perform the following operations: send a first message from a central unit using the receiver, where the first message includes information
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15/64 indication of network slice that corresponds to a session, a carrier, or a stream; and send a response message to the central unit using the transmitter.
[084] Based on the same concept of invention, regarding a principle of problem solving and beneficial effects of the device, refer to the aforementioned possible method implementations and beneficial effects brought from the distributed unit. Therefore, for the implementation of the device, refer to the implementation of the method. Repeated parts are not described.
[085] In another aspect, a communications system is provided, and the communications system includes the aforementioned communications devices.
[086] According to yet another aspect, a communication method is provided, and the method includes: receiving, by a terminal device, a radio resource control message, where the radio resource control message includes a identifier of a session, carrier, or flow that is successfully established; and sending, by the terminal device, a response radio resource control message to a central unit. In this project, the terminal device obtains the session identifier, carrier, or flow that is successfully established (established), to conduct a session with a network device.
[087] In a possible project, the radio resource control message additionally includes configuration information for at least one protocol stack that corresponds to a carrier, and at least one protocol stack includes at least one of the following stacks protocol stack: an RLC protocol stack, a MAC protocol stack, or a PHY protocol stack.
[088] In this project, the central unit adds, to the first message to be sent to a distributed unit, configuration information from a source network device to a protocol stack that corresponds to a terminal device carrier, and the distributed unit sends the configuration information for the protocol stack that corresponds to the carrier for the terminal device, so that the terminal device can perform different configuration on protocol stacks, thereby simplifying operations of the terminal device.
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16/64 [089] In another possible project, the configuration information for at least one protocol stack that corresponds to the carrier is obtained after the distributed unit performs different configuration based on the configuration information of the source network device for the at least one protocol stack that matches the carrier.
[090] In yet another possible design, the source network device includes any one of the following: the central unit, a source base station, a source central unit, and a main network device.
[091] Correspondingly, this request additionally provides a communications device, which can implement the aforementioned method of communication. For example, the communications device may be a chip (for example, a baseband chip or a chip for communications) or a sending device (for example, a terminal device). The aforementioned method can be implemented by software or hardware, or by running corresponding software by hardware.
[092] In a possible project, a structure of the communications device includes a processor and a memory. The processor is configured to support the device in performing a corresponding function in the aforementioned communication method. The memory is configured to be coupled to the processor, and stores a necessary program (instruction) and / or data from the communications device. Optionally, the communications device can additionally include a communications interface, configured to support communication between the device and another network element.
[093] In another possible project, the communications device may include: a receiving unit, configured to receive a radio resource control message, where the radio resource control message includes a session identifier, bearer , or flow that is established (established) successfully; and a transmission unit, configured to send a response radio resource control message to a central unit.
[094] In a possible project, the radio resource control message additionally includes configuration information for at least one protocol stack obtained after a distributed unit performs differentiated configuration based on configuration information from a device.
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17/64 source network for at least one protocol stack that corresponds to a carrier, and at least one protocol stack includes at least one of the following protocol stacks: an RLC protocol stack, a MAC protocol stack, or a PHY protocol stack.
[095] In a possible design, the source network device includes any one of the following: the central unit, a source base station, a source central unit, and a main network device.
[096] When the communications apparatus is a chip, the receiving unit may be an input unit such as an input circuit or a communications interface, and the transmission unit may be an output unit such as an input circuit. output or a communications interface. When the communications device is a device, the receiving unit can be a receiving device (or it can be referred to as a receiver), and the transmission unit can be a transmitting device (or it can be referred to as a transmitter).
[097] According to yet another aspect, a computer-readable storage medium is provided. The computer-readable storage media stores an instruction, and when the instruction runs on a computer, the computer performs the methods in the above aspects.
[098] According to yet another aspect, a computer program product including an instruction is provided. When the instruction runs on a computer, the computer performs the methods in the aforementioned aspects.
BRIEF DESCRIPTION OF THE DRAWINGS [099] To describe the technical solutions in the modalities of the present invention or of the fundamentals more clearly, the following is briefly described the attached drawings required to describe the modalities of the present invention or the fundamentals.
[0100] Figure 1 is a schematic diagram of an example of a communications system according to an embodiment of the present invention;
[0101] Figure 2 is a schematic architectural diagram of an example of a next generation communications system according to one embodiment of the present invention;
[0102] Figure 3 is a schematic diagram of an example of
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18/64 CU-Dll architecture according to an embodiment of the present invention;
[0103] Figure 4a is a schematic diagram of an interaction procedure for a communication method according to an embodiment of the present invention;
[0104] Figure 4b is a schematic diagram of an interaction procedure for another communication method according to an embodiment of the present invention;
[0105] Figure 5 is a schematic diagram of an interaction procedure for a communication method in a specific example;
[0106] Figure 6 is a schematic diagram for updating specific network slice information in an example;
[0107] Figure 7 is a schematic diagram of an interaction procedure for another communication method in a specific example;
[0108] Figure 8 is another schematic diagram for updating specific network slice information in an example;
[0109] Figure 9 is a schematic diagram of an interaction procedure for yet another method of communication according to one embodiment of the present invention;
[0110] Figure 10 is a schematic diagram of a PDU session installation procedure in an example;
[0111] Figure 11 is a schematic diagram of another PDU session installation procedure in an example;
[0112] Figure 12 is a schematic diagram of duplication transmission in one example;
[0113] Figure 13 is a schematic diagram of an interaction procedure for yet another communication method in accordance with an embodiment of the present invention;
[0114] Figure 14 is a schematic flowchart of yet another method of communication according to one embodiment of the present invention;
[0115] Figure 15 is a schematic diagram of modules of a communications device according to an embodiment of the present invention;
[0116] Figure 16 is a schematic diagram of modules of another communication device according to one modality of the present
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19/64 invention;
[0117] Figure 17 is a schematic diagram of modules of yet another communications device according to an embodiment of the present invention;
[0118] Figure 18 is a schematic diagram of modules of yet another communications device according to an embodiment of the present invention;
[0119] Figure 19 is a schematic diagram of a hardware architecture of a communications device according to an embodiment of the present invention; and [0120] Figure 20 is a schematic structural diagram of a simplified terminal device.
DESCRIPTION OF MODALITIES [0121] The following describes the modalities of the present invention with reference to the accompanying drawings in the modalities of the present invention.
[0122] Figure 1 is a schematic diagram of an example of a communications system according to an embodiment of the present invention. The communications system can include at least one network device 100 (only one is shown) and one or more terminal devices 200 connected to network device 100.
[0123] Network device 100 can be a device that can communicate with terminal device 200. Network device 100 can be any type of device that has a wireless receive / send function. Network device 100 includes, without limitation, a base station (for example, a NodeB, an evolved NodeB eNodeB, a base station in a fifth generation communications system (the fifth generation, 5G), a station network device in a future communications system, an access node in a Wi-Fi system, a radio relay node, or a wireless return transport channel node) and the like. Network device 100 may alternatively be a radio controller in a cloud radio access network (CRAN) scenario. The network device 100 can alternatively be a network device on a 5G network or a network device on a future evolved network, or it can be a wearable device, a device installed on
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20/64 vehicle or similar. The network device 100 may alternatively be a small cell, a transmission reference point (TRP), or the like. Certainly, in this application, network device 100 is not limited to them.
[0124] Terminal device 200 is a device that has a wireless receive / send function. Terminal device 200 can be implanted on land and includes a closed or open device, a hand-held device, a wearable device, or a vehicle-mounted device, which can be implanted on a surface over water (for example , a ship), or it can be deployed in the air (for example, an airplane, a balloon, or a satellite). The terminal device can be a mobile phone, a tablet computer (Pad), a computer having a wireless transceiver function, a virtual reality terminal device (Virtual Reality, VR), an augmented reality terminal device (Augmented Reality, AR), a wireless terminal in industrial control, a wireless terminal in self driving mode, a wireless terminal in remote medical support, a wireless terminal in a smart grid, a wireless terminal in transportation security, a wireless terminal in a smart city, a wireless terminal in a smart home, or similar. An application scenario is not limited to this type of request. The terminal device can sometimes be referred to as user equipment, an access terminal device, an UE unit, an UE station, a mobile station, a mobile console, a remote station, a terminal device remote, a mobile device, an EU terminal device, a terminal device, a wireless communications device, an EU agent, an EU device, or the like.
[0125] A next generation communications system is used as an example. Figure 2 is a schematic architectural diagram of an example of a next generation communications system according to an embodiment of the present invention. In Figure 2, in the third generation partnership project (3GPP) access mode, an access network device in Figure 1 is referred to as a radio access network element (radio access network, RAN) e. In a way
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21/64 non-3GPP access (non-3GPP, N3G), an access network device is referred to as an access network network element (access network, AN) or a non-3GPP interoperability function network element (non-3gpp interworking function, N3IWF). The network device in Figure 1 can be the access network device in this document. The communications system additionally includes a main network device. The core network device includes a mobility management and access management function, which is referred to as an access and mobility management function (AMF) network element in that order. The terminal device accesses a network through the use of the access network device, and the AMF is primarily responsible for access management and mobility management on the terminal device.
[0126] In Figure 2, another functional entity can be additionally included, and only a few functional entities in that application are described in this document for emphasis. The entities are connected using interfaces (for example, interfaces N1 and N2 in the figure). It can be understood that the main network device may additionally include a session management function, such as a session management function entity (SMF) or another function, and there is no limitation on this at present document.
[0127] An architecture of the RAN device can be further divided. Figure 3 is a schematic diagram of an example of CU-DU architecture according to an embodiment of the present invention. A network device (for example, a base station) includes a CU, and a CU is connected to one or more DUs. CU and DU are a full base station protocol stack function. For example, CU includes a radio resource control protocol stack function (RRC), a packet data convergence protocol (PDCP) protocol stack function, and an SDAP protocol stack function, and DU includes a Radio Link Control protocol stack function (radio link control, RLC), a Media Access Control protocol stack function (media access control, MAC) , and a physical layer protocol stack function (physical layer, PHY). Certainly,
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22/64 the CU-Dll architecture can alternatively be another way of distributing the protocol stack, and this is not specifically limited in this order. There is an interface between Cll and Dll. In that order, the interface is referred to as an F1 interface. However, a specific name is not limited. A DU can include one or more cells.
[0128] In this order, network slice indication information can be represented by using at least one of the following parameters:
[0129] 1. Network slice identifier. The network slice identifier can be specifically information listed in one or more of the following 1.1 to 1.7.
[0130] 1.1. Network slice type information. Network slice type information can be used to indicate a type of network slice such as enhanced mobile broadband (eMBB), ultra reliable and low latency communications (ultrareliable low latency communications, URLLC), or massive machine type communications, mMTC. Optionally, the network slice type information can additionally indicate an end-to-end network slice type, including a RAN to CN network slice type, or it can indicate an (R) side network slice type ) AN or a type of CN side network slice.
[0131] 1.2. Service type information related to a specific service. Service type information can indicate a service feature such as a video service, a vehicle Internet service, or a voice service, or information about a specific service.
[0132] 1.3. Tenant information used to indicate customer information used to create or lease the network slice. For example, a customer is Tencent or the State Grid Corporation of China.
[0133] 1.4. User group information used to indicate group information used to group users according to a specific characteristic, for example, according to a user level.
[0134] 1.5. Slice group information used to indicate that, for example, all network slices that can be accessed by UE can be used as a slice group according to a specific characteristic, or
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23/64 a group can be obtained by grouping slices of net according to another criterion.
[0135] 1.6. Network slice situation information used to indicate an identifier and characteristic information for a situation created for the network slice. For example, an identifier can be allocated to a network slice situation, to indicate the network slice situation; or a new identifier can be mapped based on a network slice situation identifier, to be associated with the network slice situation, so that a receiving party can identify, based on the identifier, a network slice situation specified by the identifier.
[0136] 1.7. Dedicated core network (DCN) identifier. The identifier is used to indicate only a main dedicated network in an LTE system or an eLTE system, for example, a dedicated main network of the Internet of Things. Optionally, mapping can be performed between the DCN identifier and a network slice identifier, and the DCN identifier can be mapped to the network slice identifier, or the network slice identifier can be mapped to the DCN identifier .
[0137] It should be understood that if a network allows, in a registration area (registration area) or a tracking area (tracking area) to which a source cell belongs, the UE can access a plurality of network slices, or for one specific public land mobile network (PLMN), a network allows, in a registration area or a tracking area to which a source cell belongs, to the UE to access a plurality of network slices, an indication of allowed network slice includes a plurality of allowed network slice identifiers (allowed).
[0138] 2. Single-network slice selection assistance information, S-NSSAI assistance information. S-NSSAIs include at least slice / service type information (slice / service type, SST), and optionally can additionally include slice differentiator, SD information. SST information is used to indicate behavior of a network slice, such as, a characteristic and type of service that are of the network slice. SD information is complementary OSH information. If the SST corresponds to the implementation of a plurality
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24/64 network slices, SD can correspond to a single network slice situation.
[0139] It should be understood that if a network allows, in a registration area (registration area) or a tracking area (tracking area) to which a source cell belongs, the UE can access a plurality of network slices, or for specific public land mobile network (PLMN), a network allows, in a registration area or a tracking area to which a source cell belongs, to the UE to access a plurality of network slices, the slice of allowed indication network includes a plurality of allowed S-NSSAIs.
[0140] 3. S-NSSAI group information used to indicate grouping performed according to a specific characteristic. For example, all network slices from a common MFA that are accessible to a UE can be used as an S-NSSAI group. NSSAI include a plurality of S-NSSAI.
[0141] 4. Temporary identifier (Temporary ID): temporary identifier information is allocated by an AMF for UE that has been registered with a CN side, and the temporary ID can only correspond to a specific AMF.
[0142] 5. Assistance information for access network slice selection (radio) ((R) AN-NSSAI, R-NSSAI): indicates a set of specific SNSSAI, namely a set of S- Specific NSSAI. It should be understood that if the network allows, in a registration area (registration area) or a tracking area (tracking area) to which the source cell belongs, the UE can access a plurality of network slices, or the public land mobile network Specific PLMN (public land mobile network, PLMN), the network allows, in a registration area or a tracking area to which the source cell belongs, to the UE to access a plurality of network slices, the indication of allowed network slice can include an identifier for a set of a plurality of allowed RNSSAI (allowed).
[0143] 6. NSSAI allowed (allowed). Permitted NSSAIs indicate NSSAIs that a network allows a terminal device to access in a current registration area.
[0144] It should be understood that a specific form of encoding of allowed indication of network slice information is not limited.
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Certainly, in addition to the aforementioned identifiers, the network slice information can be another identifier, and there is no limitation to this in this document. If the network allows the UE to access a plurality of network slices, the allowed network slice indication can be a form of list of allowed network slice indications, for example, a list of network slice selection assistance information allowed Network Slice Selection Assistance Information list, allowed NSSAI list, or a list of permitted single network slice selection assistance information, allowed S-NSSAI list.
[0145] In this modality of this request, the network slice may use at least one of the aforementioned parameters to represent the indication of network slice indication. For example, network slice indication information can be represented by the type of network slice, or it can be represented by the type of network slice and the type of service, or it can be represented by the type of service and the tenant information . There is no limitation regarding this in this type of request. How to represent network slice indication information for a network slice is not described again below. It should be understood that, if the terminal device, the access network device, or the main network device supports a plurality of network slices, indication information of the network slices supported by the terminal device, the access network device, or by the main network device, at least one identifier can be incorporated into a list form of the aforementioned.
[0146] As there are a plurality of types of services in the terminal device, such as enhanced mobile broadband (eMBB), ultra-reliable low latency communications (URLLC), and massive machine type communications, mMTC, and different types of service sessions can correspond to different network slices, even the same type of service can correspond to different network slices due to different operators or service providers that provide the same type of service. Different access network devices can support different network slices. Thus, when the terminal device needs to access the network and install a plurality of sessions, a
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26/64 connected access network needs to support network slices that correspond to all sessions or some sessions on the terminal device.
[0147] The modalities of the present invention can be applied to another communications system that supports a network slice. The terms system and network can be interchanged with each other. The system architecture described in the embodiments of the present invention is intended to describe the technical solutions in the embodiments of the present invention more clearly, but is not a limitation on the technical solutions provided in the embodiments of the present invention. A person of ordinary skill in the art can understand that the technical solutions provided in the modalities of the present invention are also applicable to a similar technical problem as a network architecture evolves.
[0148] It should be noted that the terms system and network in the modalities of the present invention can be used interchangeably. A plurality of means two (two) or more, and in view of that, a plurality of can also be understood as at least two (two) in the embodiments of the present invention. The term and / or describes an association relationship to describe associated objects and represents that three relationships can exist. For example, A and / or B can represent the following three cases: only A exists, both A and B exist, and only B exists. In addition, the character / usually indicates a relationship or between associated objects.
[0149] The embodiments of the present invention provide a method of communication and a communications device. Network slice information supported by a distributed unit is exchanged between the distributed unit and a central unit by using a connection installation process, to implement a network slice-based service in a distributed unit and central unit architecture.
[0150] How a CU obtains network slice information supported by a DU is specifically described below using modalities.
[0151] Figure 4a is a schematic diagram of an interaction procedure for a communication method according to an embodiment of the present invention. The method can include the following steps:
[0152] S401: A distributed unit sends a connection installation request message to a central unit, and the unit
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27/64 central receives the connection installation request message from the distributed unit.
[0153] S402: The central unit sends a connection installation response message to the distributed unit, and the distributed unit receives the connection installation response message from the central unit.
[0154] In this mode, the connection installation request message includes network slice information supported by the distributed unit. The connection installation request message can be an interface installation request message, and it can certainly be another message to install connection. There is no limitation to this in this document.
[0155] In addition, the interface can be an F1 interface between Cll and Dll. Specifically, the Dll sends an F1 interface request request message (F1 setup request) to Cll. There is certainly no limitation on an interface name.
[0156] Network slice information supported by the distributed unit includes at least a combination of the following: network slice indication information supported by at least one cell in the distributed unit; a cell identifier of the at least one cell of the distributed unit and network slice indication information supported by each of the at least one cell; or a tracking area identifier or registration area that corresponds to at least one cell of the distributed unit and network slice indication information supported by each tracking area or each registration area in the tracking area or the record that corresponds to at least one cell.
[0157] Optionally, the connection installation response message additionally includes network slice information supported by the central unit.
[0158] Specifically, it is assumed that network slice information supported by a Dll cell is already configured for the Dll, for example, an operation, administration and maintenance (0AM) system configures the information of network slice supported by the DU cell.
[0159] Figure 5 is a schematic diagram of slice information
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28/64 specific transmission network in one example. In Figure 5, a Dll and a Cll can install an interface for connection, for example, an F1 interface, and there is no limitation regarding this in this document. Network slice information supported by the Dll is exchanged when the interface is installed between DUeaCU.
[0160] As shown in Figure 5, the method includes the following steps.
[0161] S501: A DU sends an interface installation request message to a CU, and the CU receives the interface installation request message.
[0162] The request message includes network slice indication information (which is S-NSSAI in Figure 5) supported by the DU. In addition, the request message can additionally include a DU cell, or a tracking area identity / identifier, TAI or a registration area identity (identifier, RAI) to which the cell belongs. The tracking area code can also be referred to as a tracking area code (TAC), the registration area identifier can also be referred to as a registration area code (RAC), and tracking area identifier and registration area identifier names are not limited. Alternatively, a public land mobile network (PLMN) identifier can be used when the TAC or RAC is given.
[0163] Specifically, the network slice information supported by DU can be in the following three ways, but are not limited to the following three ways:
[0164] (a) The request message includes network slice information supported by the DU.
LE / Group name Explanation Network slice indication information supported by a DU The network slice indication information supported by a DU is, for example, an S-NSSAI list (S-NSSAI list) or a single piece of the S-NSSAI.
[0165] (b) The request message includes network slice information supported by the plurality of DU cells.
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LE / Group name Explanation Cell identifier The cell identifier can be a global cell identity (global cell ID, CGI), or it can be a physical cell identifier (physical cell ID, PCI) or another identifier. Network slice indication information supported by each cell The network slice indication information supported by each cell is, for example, an S-NSSAI list (S-NSSAI list) or a single piece of the S-NSSAI.
[0166] In this implementation, the request message can include an identifier of at least one cell in the Dll and at least a piece of network slice indication information that corresponds to each cell identifier. A DU can include one or more cells, and each cell is identified using a cell identifier. The cell identifier can uniquely identify a cell within a specific range. Each cell can support one or more network slices. Each cell supports a different network slice, and a cell identifier can thus correspond to at least one piece of network slice indication information.
[0167] (c) The request message includes a network slice supported by a TA / RA that corresponds to a plurality of DU cells.
IE / Group name Explanation Tracking area identifier or record area identifier The tracking area identifier or registration area identifier is a tracking area identity (identifier, identifier, TAI), a registration area identifier (registration area identity / identifier, RAI), a tracking area code. tracking area code, TAC, registration area code, RAC, or PLMN identifier. Supported network slice indication information The network slice indication information supported by each TAI / RAI is, for example,
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LE / Group name Explanation for each TAI / RAI a list of S-NSSAI (S-NSSAI list) or a single piece of S-NSSAI.
[0168] In an implementation, information about the network slice supported by the Dll may include at least a piece of network slice indication information that corresponds to a tracking area (TA) or a registration area (registration area, RA) to which a Dll cell belongs. Each TA / RA can support one or more network slices, and a piece of TA / RA information can thus correspond to at least one piece of network slice indication information. The tracking area identifier or the tracking area code can uniquely identify a tracking area within a specific range, the registration area identifier or the registration area code can uniquely identify the registration area within a specific range. For example, if a piece of network slice indication information is indicated by an S-NSSAI list, a TAI / RAI / TAC / RAC may correspond to an S-NSSAI list.
[0169] S502: Cll sends a response message to the interface installation to the Dll, and the Dll receives the response message to the interface installation. If a supported network slice is also configured for Cll, optionally, Cll additionally resumes, in that message, network slice information supported by Cll, to notify the Dll of the network slice information supported by Cll.
[0170] By using the aforementioned interaction process, the Dll notifies Cll of the supported network slice information, so that Cll verifies whether Cll also supports the network slice supported by Dll.
[0171] It should be noted that if Cll does not support a network slice configured for Dll, this CU-Dll architecture can only support the slice supported by Cll. In this case, if a Dll needs to broadcast the network slice supported by the Dll, each cell in the Dll cannot broadcast the network slice configured for the Dll, but only broadcast a network slice configured by OAM for the Dll and also supported by the Cll .
[0172] In this mode, the network slice information supported by the distributed unit is independently configured with flexibility for the distributed unit.
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31/64 [0173] In addition, Figure 6 is a schematic diagram for updating specific network slice information in an example. As shown in Figure 6, when a network slice supported by a Dll is updated, S601 is performed: the Dll uses a configuration update message to send updated Dll network slice information to a Cll, and CU receives the configuration update message from the Dll. S602: CU sends a response configuration update message to the DU. If a network slice supported by CU is updated, CU can also use the response configuration update message to send updated network slice information from CU to DU.
[0174] In an alternative embodiment of Figure 4a, Figure 4b is a schematic diagram of a procedure for interacting with another method of communication according to one embodiment of the present invention. The method can include the following steps:
[0175] S401: A distributed unit sends a connection installation request message to a central unit, and the central unit receives the connection installation request message from the distributed unit.
[0176] S402: The central unit sends a connection installation response message to the distributed unit, and the distributed unit receives the connection installation response message from the central unit.
[0177] Unlike the mode shown in Figure 4a, in the mode shown in Figure 4b, the connection installation response message includes network slice information supported by the distributed unit. In this way, the network slice information supported by DU can be controlled by CU in a centralized way, thereby reducing overload signaling and simplifying operations.
[0178] Specifically, it is assumed that a network slice supported by each DU is configured for the CU, or network slice information supported by all cells in the CU or TAs that corresponds to all cells is configured for the CU.
[0179] Figure 7 is a schematic diagram of an interaction procedure for another communication method in a specific example. The method can include the following steps.
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32/64 [0180] S701: A DU sends an interface installation request message to a CU, and the CU receives the interface installation request message.
[0181] If DU cell information is configured for the DU, the request message can include a DU cell identifier (list). The cell identifier can be a CGI, or it can be a PCI.
[0182] S702: ACU sends a response message to the interface installation to the DU, and the DU receives the response message to the interface installation.
[0183] The reply message includes at least one of the following: network slice information supported by DU, network slice information supported by all DU cells, or network slices supported by TAs / RAs that correspond to all cells DU. A specific format is shown in the aforementioned three ways.
[0184] Optionally, the connection installation response message or a configuration update message can additionally include configuration information for each network slice. The configuration information includes at least one of the following: layer 1 protocol stack configuration information (camadal, L1),) layer 2 protocol stack configuration information (layer2, L2), available physical resource information ( such as a frequency band, a frequency, or a numbering), frequency band information (namely, a frequency band used by the network slice) that corresponds to the network slice, frequency information (namely, a frequency center of a frequency band used by the network slice) that corresponds to the network slice, bearable status information (including an idle state, a connected state, and an inactive state), or a parameter (such as a maximum bit rate , a latency requirement, a reliability requirement, or an amount of MTC supported) of KPI (key performance indicator).
[0185] In addition, Figure 8 is another schematic diagram for updating specific network slice information in an example. As shown in Figure 8, when network slice information supported by any cell in a CU is updated, S801 is performed: the CU uses a
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33/64 configuration update message to send network slice information, updated in Cll, to a Dll, and the Dll receives the configuration update message from the Cll. The configuration update message includes updated network slice information supported by the central unit or the distributed unit. S802: The Dll sends a configuration information reply message to Cll.
[0186] It can be learned from the description so far that, in this order, after the network slice information supported by the Dll is exchanged between the Dll and the Cll by using a connection installation request message or a message connection installation response, Cll and Dll can provide a network slice-based service to a terminal device based on the network slice information supported by the Dll. Therefore, for example, Cll can notify a main network of a Cll cell and the network slice information supported by Cll, so that an MFA can allocate a corresponding TA or RAque range to the terminal device. As another example, Cll can notify a neighboring base station of the network slice information supported by Cll, to help the neighboring base station make an automatic switching decision, for example, the neighboring base station can determine, based on whether or not Cll supports a network slice to which a Cll terminal device belongs at that time, whether or not to initiate an automatic change request to Cll. As another example, Cll may become aware of a network slice supported by the Dll, so that Cll determines whether or not to initiate a corresponding session request message for the Dll. For example, when dual connectivity needs to be configured for the terminal device, the terminal device reports a plurality of Dlls accessible to Cll using a measurement report, and Cll can determine, based on whether the Dll supports or not a current network slice of the terminal device, whether or not to add the Dll as a secondary RAN device (Secondary gNB) of the terminal device. Specifically, a Dll 1 supports network slices 1 and 2, and a Dll 2 supports network slices 2 and 3. During dual connectivity configuration, the measurement report reported by the terminal device to Cll shows which signal strength of Dll 1 is greater than the signal strength of DU 2, but a current session of the terminal device belongs to the slice
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34/64 of network 3. Since DU 1 does not support network slice 3, although a signal from DU 1 is strong, CU still selects DU 2 as the secondary RAN device of the terminal. Of course, the exchange of network slice information supported by DU between DU and CU can also be used in another scenario.
[0187] According to the communication method provided in this embodiment of the present invention, the network slice information supported by the distributed unit is exchanged between the distributed unit and the central unit by using a connection installation process, so that a service based on network slice in a distributed unit and central unit architecture can be implemented.
[0188] In the aforementioned modality, the network slice information supported by the distributed unit is exchanged between the distributed unit and the central unit by using a connection installation process, so that DU and CU can subsequently provide a service based on network slice for the terminal device. The network slice-based service is incorporated into processes such as automatic cell change, terminal device state transition, and session setup.
[0189] Figure 9 is a schematic diagram of an interaction procedure for yet another method of communication according to one embodiment of the present invention. The method can include the following steps.
[0190] S901: A central unit sends a first message to a distributed unit. The distributed unit receives the first message from the central unit. The first message includes network slice indication information that corresponds to a session, carrier, or flow.
[0191] The first message is used to request the distributed unit to establish or modify a session, establish or modify a carrier, or establish or modify a flow to a terminal device. The first message can be an installation session request message, a modify session request message, a bearer installation request message, a modify bearer request message, a flow installation request message, or a modify flow request message, or it can be a UE context installation request message. It can be understood that a message name is not limited in that request.
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35/64 [0192] S902: The distributed unit sends a reply message to the central unit, and the central unit receives the reply message from the distributed unit.
[0193] This modality may be based on the fact that the distributed unit obtains supported network slice information.
[0194] A process of installing the session, carrier, or flow can be a process of installing a session, a carrier, or a flow when the terminal device accesses a network device for the first time, or a process of reinstalling the session, a carrier, or a stream after the terminal device performs automatic switching, or it can be a process of installing a session, a carrier, or a stream from a new DU connected by the terminal device after a terminal device situation changes (for example , from an inactive state (inactive) to an active state (active)). A process of installing the session, carrier, or flow can be a process of modifying a session, carrier, or flow after the terminal device accesses a network device.
[0195] Optionally, the first message additionally includes an identifier of a session to be established or modified, an identifier of a bearer to be established or modified, or an identifier of a flow to be established or modified.
[0196] A session includes at least one carrier, and a carrier corresponds to at least one flow. Specifically, if the session request message is to establish or modify a session, the session request message includes an identifier of the session that needs to be established or modified, and a network slice that corresponds to each session; if the session request message is to establish or modify a carrier, the session request message includes a carrier identifier that needs to be established or modified, and a network slice that corresponds to a session to which each carrier or group of bearers belongs, and can additionally include a session identifier which corresponds to the session to which each bearer or each group of bearers belongs and a network slice which corresponds to the session identifier; and if the session request message is to establish or modify a flow, the session request message includes an identifier for each flow and a
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36/64 network slice that corresponds to a session to which each flow or each group of flows belongs, and can additionally include a session identifier that corresponds to the session to which each flow or each group of flows belongs and a network slice that matches the session identifier.
[0197] Based on the description so far, the distributed unit obtains, from the installation session request message, indication of network slice indication corresponding to a session, carrier, or flow to be established or modified, from so that the distributed unit establishes or modifies the session, the carrier, or the flow on an indicated network slice, to conduct a session on a corresponding network slice, for example, sets a protocol stack parameter that corresponds to the session or the bearer based on a network slice indicated by the network slice indication information, and selects a physical transmission resource specific to the session or the bearer, for example, a number.
[0198] In addition, after step S901 and before step S902, the method may additionally include the following steps:
[0199] The distributed unit determines whether or not to support the network slice that corresponds to the network slice indication information.
[0200] Specifically, for the network slice indication information received, the Dll needs to determine, based on the network slice supported by the Dll and obtained in the aforementioned modality, if the Dll supports the network slice that corresponds to the indication information network slice. Specifically, the Dll determines whether the network slice that corresponds to the network slice indication information is within a network slice range supported by the DU. If the DU does not support all the network slices to which the session, the bearer, or the flow of the first message belongs, the DU may refuse to establish or modify the session, a bearer, or a flow whose network slice is not supported by the DU, and notify, through the use of a reply message, the CU of the session, the bearer, or the flow that the DU rejects to establish or modify. Optionally, the reply message can additionally carry information of indication of cause of rejection, to indicate that establishment or modification of the session, the carrier, or the flow is rejected because the DU does not support a network slice to which the session, the carrier , or the flow belongs.
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37/64 [0201] A session, a carrier, or a flow can be established or modified between a CU and a DU. A process of installing or modifying a session, a carrier, or a flow between the CU and the DU can also be a part of a PDU session installation process. The PDU session installation process is described in detail below.
[0202] Figure 10 is a schematic diagram of a PDU session installation process. The session installation process can include the following steps.
[0203] Step S101: An AMF sends a PDU installation session request message to a CU.
[0204] The message includes information identifying a session that needs to be established / modified, information identifying a flow that needs to be established or modified in the session, and a QoS profile that corresponds to each flow, such as a priority.
[0205] Step S102: ACU sends the PDU installation session request message to a DU, and the DU receives the PDU installation session request message.
[0206] In Figure 10, the first message described above is specifically the PDU installation session request message in this document. For details, refer to the description of S901 in the modality shown in Figure 9.
[0207] Step S103: The DU sends a response message to the PDU session installation to the CU, and the CU receives the response message to the PDU session installation.
[0208] In Figure 10, the response message described above is specifically the response message to the PDU session installation in this document. For details, refer to the description of S902 in the modality shown in Figure 9.
[0209] Step S104: CU sends an RRC message to the DU. ADU transparently transmits the RRC message to UE, and the UE receives the RRC message.
[0210] In this document, the RRC message can be an RRC connection reconfiguration message, an RRC connection installation message (RRC connection setup), a resume connection message
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RRC (RRC connection resume), a RRC connection suspension message, or similar.
[0211] Step S105: The UE sends an RRC response message to the CU. The RRC response message can be forwarded by using the DU. CU receives the RRC response message.
[0212] Step S106: CU sends a response message to the session installation to the AMF.
[0213] An order of this step can be adjusted as long as that step is after step 103.
[0214] Optionally, the RRC message can include an identifier for a session that is successfully established. In another example, if S101 is to request to establish a carrier, the RRC message can include an identifier of a carrier that is successfully established; or if S101 is to request to install a flow, the RRC message can include an identifier for a flow that is successfully established.
[0215] In the example in Figure 10, a session installation process is described. In this example, after the DU sends the message replying to the session installation to the CU, the CU sends the RRC message to a terminal device by using the DU. If this modality is used, an existing standard is slightly changed and a DU function does not need to be added.
[0216] Figure 11 is a schematic diagram of another PDU session installation process. The session installation process can include the following steps.
[0217] Step S111: An AMF sends a PDU session request message to a CU.
[0218] The message includes information identifying a session that needs to be established / modified, information identifying a flow that needs to be established or modified in the session, and a QoS profile that corresponds to each flow, such as a priority.
[0219] Step S112: ACU sends the PDU installation session request message to a DU. The DU receives the PDU installation session request message.
[0220] In Figure 11, the first message described above is
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39/64 specifically the PDU installation session request message in this document. For details, refer to the description of S901 in the modality shown in Figure 9.
[0221] Step S113: The Dll sends a radio resource control (RRC) message to a terminal device, and the terminal device receives the RRC message.
[0222] A difference from the aforementioned example is that the DU can directly generate or modify the RRC message, and then send the RRC message directly to the EU.
[0223] Step S114: The DU sends a reply message to the PDU session installation to CU, and the CU receives the reply message to the PDU session installation.
[0224] In Figure 11, the response message described above is specifically the response message to the PDU session installation in this document. For details, refer to the description of S902 in the modality shown in Figure 9.
[0225] Step S115: UE sends a RRC reply message to the CU, where the RRC reply message can be forwarded by using the DU.
[0226] Step S116: CU sends a response message to the session installation to the AMF. This step can be any step after step S114.
[0227] Optionally, the RRC message can include an identifier for a session that is successfully established. In another example, if S111 is to request to establish a carrier, the RRC message can include an identifier of a carrier that is successfully established; or if S111 is to request to install a flow, the RRC message can include an identifier for a flow that is successfully established.
[0228] In the example in Figure 11, a complete session installation process is described. In this mode, the DU can directly generate the RRC message, so that the DU can send the RRC message to the terminal device more quickly without a need to send the RRC message back to the CU, thereby reducing latency .
[0229] In an implementation, the first message or the
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40/64 response message additionally includes carrier duplication indication information. Bearer duplication indication information is used to indicate what duplication transmission configuration is performed in the session or on the bearer.
[0230] As shown in Figure 12, the replicated transmission configuration means that the UE can simultaneously perform data transmission with two DUs or two cells from a DU. For example, the UE can perform data transmission with a DU 1 and a DU 2 at the same time. A specific process is as follows: for downlink data transmission, data from a main network is duplicated to obtain two equal copies in a CU PDCP layer, one copy is transmitted to DU 1 and is then transmitted to the UE by DU 1, and the other copy is transmitted to DU 2 and is then transmitted to the UE by DU 2. For uplink data, the UE duplicates the data to obtain two equal copies in a PDCP layer of the UE, transmits a copy to DU 1, and transmits the other copy to DU 2. In this implementation, the terminal device can transmit the same data in two paths, thereby increasing reliability in data transmission. Data transmission is successful as long as the transmission on either link is successful. Whether or not bearer duplication information is included in the first message or reply message depends on whether the duplication transmission configuration is performed by CU or DU. For example, if the duplication transmission configuration is performed by CU, the carrier duplication indication information is included in the first message. If the duplication transmission configuration is performed by the DU, the carrier duplication indication information is included in the response message.
[0231] In another implementation, the first message additionally includes indication of maximum bit rate indication of distributed unit UE aggregation (DU UE-AMBR). DU UE-AMBR indication information is used to indicate a maximum aggregation bit rate that can be provided by the distributed unit to the terminal device.
[0232] Specifically, if a network performs configuration of
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41/64 dual connectivity (dual connectivity, DC) or multiconectivity (multiconnectivity, MC) to a carrier or a UE session, ie the UE can perform data transmission with at least two DUs at the same time, a UE capacity in the session installation request you can optionally include an UE-AMBR DU (UE-AMBR DU). CU obtains DU UE-AMBR based on UE-AMBR (UE-AMBR can be obtained by CU based on UEAMBR received from the main network, or can be obtained in another way), the measurement report, a DU resource usage situation, and / or the like.
[0233] For example, if the UE can be served by two DUs (one DU 1 and one DU 2) at the same time, it is assumed that the UE-AMBR is 90 (bps), and according to the report of measurement, the current spectral efficiency of DU 1 is twice the current spectral efficiency of DU 2, CU learns that a DU 1 UE-AMBR and a DU 2 UE-AMBR are in a 2: 1 ratio; specifically, an EU-AMBR DU 1 is 60 (bps) and an EU-AMBR DU 2 is 30 (bps). As another example, CU can also obtain, based on a current resource usage situation, that an AMBR that can be provided by DU 1 for the UE is 20 (bps), and CU determines that a DU 1 UE-AMBR is 20 (bps) and a DU 2 UE-AMBR is 70 (bps). CU coordination prevents a case where the UE-AMBR is exceeded due to independent scheduling of a target base station and a source base station (for example, UEAMBR is 50 bits, and if the DU does not know that the UE-AMBR is 50 bits, DU 1 allocates 40 bits to the UE, that is, DU 1 UE-AMBR is 40 bits, and DU 2 allocates 20 bits to the UE, that is, the DU AMBR of UDU 2 is 20 bits, and, finally, a sum of the two is greater than 50 bits), thus ensuring successful transmission of data based on DC. It can be understood that the DU UE-AMBR can also be represented by another name, for example, a divided UE-AMBR (Split UE-AMBR) or a partial UE-AMBR (Partial UE-AMBR), and there is no limitation as to to that in that order.
[0234] It can be learned from the description so far that in this embodiment of the present invention, during installation or session modification, a central unit notifies a distributed unit of the network slice indication information corresponding to the session, carrier, or flow to be established or modified, so that a distributed unit establishes
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42/64 or modify a session, carrier, or flow on the indicated network slice, a distributed unit can accurately select a network slice and can configure, based on the network slice information corresponding to the session, an L1 / L2 that corresponds to the network slice for the terminal device, and sessions that correspond to different network slices meet a specific requirement for QoS. Therefore, different layer 1 or layer 2 configurations can be used for different network slices on one side of RAN. For example, a carrier for a massive machine type communications network slice (mMTC) and a carrier for an ultra-reliable and low latency communications network slice (URLLC) can have different MAC layer configurations or RLC layer configurations (for example, number of RLC relay times are different) on the RAN side, or may have different PHY layer configurations (for example, different frequencies or numbers are used, or different durations of TTI are used). During modification or installation of a session, a carrier, or a flow, a network slice to which a session, a carrier, or a flow that needs to be established or modified belongs to is specified in this modality of the present invention. In this way, a UE side can pertinently configure RLC / MAC / PHY for a network slice to which the session, the carrier, or the stream belongs. If the network slice information is not ported, a DU cannot properly perform a configuration, and therefore the network performance is degraded. For example, a QoS requirement of the terminal device cannot be met, or a frequent radio link failure (for example, caused by improper configuration of RLC retransmission times) can be caused, thereby increasing signaling overloads.
[0235] According to the communication method provided in this embodiment of the present invention, the central unit notifies the distributed unit of the network slice indication information that corresponds to the session, carrier, or flow to be established or modified, so that the distributed unit establishes or modifies the session, carrier, or flow on the indicated network slice, and the distributed unit can accurately select a network slice, and perform corresponding configuration on the network slice to
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43/64 provide, for the terminal device, a service based on network slice that meets a requirement.
[0236] Figure 13 is a schematic diagram of an interaction procedure for yet another method of communication according to an embodiment of the present invention. The method includes the following steps.
[0237] S131: A source network device sends an automatic change request to a CU 1. CU 1 receives the automatic change request.
[0238] The source network device can be a source gNB, a CU 2, or an AMF.
[0239] Optionally, the automatic change request includes configuration information from the source network device for at least one protocol stack that corresponds to a carrier. The at least one protocol stack includes: an RLC protocol stack, a MAC protocol stack, or a PHY protocol stack.
[0240] S132: CU 1 sends a first message to a DU 1. DU 1 receives the first message from the central unit.
[0241] The first message includes network slice indication information that corresponds to a session, carrier, or flow. The first message additionally includes the configuration information of the source network device for at least one protocol stack that corresponds to the carrier.
[0242] S133: DU 1 sends a reply message to CU 1. CU 1 receives the reply message from DU 1.
[0243] In Figure 13, the response message is a response message to the PDU session installation.
[0244] The first message is used to request a distributed unit to establish or modify a session, establish or modify a carrier, or establish or modify a flow to a terminal device. The first message can be an installation session request message, a modify session request message, a bearer installation request message, a modify bearer request message, a flow installation request message, or a modify flow request message, or it can be a
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44/64 UE context installation request. It can be understood that a message name is not limited in that request. In Figure 13, an installation session request message is used as an example of the first message for description.
[0245] For a session installation process, refer to the description in the aforementioned modality.
[0246] S134: CU 1 sends a radio resource control message to UE using DU 1, where the RRC message is forwarded by a distributed unit. The UE receives the RRC message.
[0247] The RRC message includes an identifier for a session, carrier, or flow that is successfully established. The RRC message additionally includes configuration information for at least one protocol stack obtained after the distributed unit performs differentiated configuration based on the configuration information from the source network device for at least one protocol stack that corresponds to the carrier, and the at least one protocol stack includes at least one of the following protocol stacks: an RLC protocol stack, a MAC protocol stack, or a PHY protocol stack.
[0248] S135: The UE sends a RRC reply message to CU 1 by using DU 1. CU 1 receives the RRC reply message from the UE.
[0249] S136: CU 1 sends an automatic change response message to the source network device. The source network device receives the automatic change response message from CU 1.
[0250] In an automatic switching scenario, CU 1 and DU 1 belong to a target base station, and CU 1 receives the automatic switch request message from the source network device (e.g., an AMF, a gNB, or a CU 2). If the automatic change request message includes configuration information (may include configuration information for an RRC protocol stack, a PDCP protocol stack, or an SDAP protocol stack on the source network device) from the source network device to a RLC protocol stack, MAC protocol stack, or PHY protocol stack from a terminal device carrier, the session request message from CU 1 to DU 1 also
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45/64 port the configuration information from the source network device to the RLC protocol stack, the MAC protocol stack, or the PHY protocol stack of the terminal device carrier. The protocol stack configuration information is used by the DU 1 for configuration reference, so that the DU 1 can perform different configuration based on the configuration information.
[0251] For each carrier, there can be different parameter settings RLC, MAC, or PHY For example, for RLC, different carriers can use different transmission modes, including a transparent transmission mode or a confirmed mode or an unconfirmed mode, or different maximum number of RLC retransmission times can be configured for different carriers. For MAC, different carriers can use different scheduling priorities. For PHY, different carriers can use different numbers.
[0252] For example, in a scenario of automatic change, the PHY configuration and the RLC configuration of a carrier 1 that needs to be transferred can be found in a PHY layer by using a numbering 1 and a numbering 2. In the network device source, the source network device configures the bearer at numbering 1 to serve the bearer and sets the maximum number of RLC layer retransmission times to five, and after receiving a configuration message from the source network device to bearer 1, DU 2 also sets maximum number of RLC retransmission times to five based on QoS requirement information and the like and with reference to configuration information from the source network device. However, for PHY layer configuration, DU 1 is overloaded at number 1, and therefore DU 1 configures the bearer at number 2 to serve the bearer. Therefore, DU 1 performs a different configuration. Specifically, DU 1 only needs to instruct the terminal device (or instruct the terminal device using CU) to modify the PHY numbering configuration, and not to change the number of RLC retransmission times. In this way, a stack of protocol configuration operation that corresponds to the DU 1 carrier is simplified, and overhead resource overheads between the DU 1 and the terminal device are reduced.
[0253] Furthermore, in a scenario of state transition from
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46/64 terminal device, if the terminal device is currently in an inactive state, and the terminal device wants to resume a connected state or invoke an RNA update procedure for Cll 1, the following scenarios exist.
[0254] In one scenario, the terminal device moves from a network coverage area of Cll 2 or another gNB to a network coverage area of CU 1, and Cll 1 first sends a message requesting context for gNB or CU 2. The context request message includes identifying information for the terminal device. After receiving the context request message, gNB or CU 2 returns a context response message based on the identifying information. The message includes configuration information for at least one of the RLC, MAC, or PHY protocol stack, configured by the gNB or CU 2, of the carrier of the terminal device.
[0255] In another scenario, the terminal device performs state transition in a network coverage area of CU 1, and CU 1 stores configuration information for the device carrier's RLC, MAC, and PHY protocol stack terminal. In these two scenarios, a second CU 1 message for a DU 1 port configuration information from the source network device to at least one or a combination of the RLC, MAC, and PHY protocol stack from the end device carrier. The protocol stack configuration information is used by the DU for configuration reference, so that the DU can perform different configuration based on the configuration information. It can be understood that configuration information that is for the carrier's RLC, MAC, and PHY protocol stack and that is carried in the second message from CU 1 to DU can also be configuration information stored by CU 1 for the protocol stack RLC, MAC, PHY which corresponds to the inactive terminal.
[0256] According to the communication method provided in this embodiment of the present invention, the central unit adds, on the first message to be sent to the distributed unit, configuration information from the source network device to a protocol stack that corresponds to the carrier of the terminal device, so that the distributed unit can perform different configuration in protocol stacks, thereby simplifying operations of the distributed unit.
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47/64 [0257] Figure 14 is a schematic flowchart of yet another method of communication according to one embodiment of the present invention. Specifically, a schematic diagram of an automatic switching session installation procedure performed based on an interface (for example, an Xn interface) between network devices is provided. The method includes the following steps.
[0258] S141: A source network device sends an automatic change request message to a central unit, and the central unit receives the automatic change request message.
[0259] The source network device can be a source gNB, a CU 2, or an AMF.
[0260] S142: The central unit sends a first message to a distributed unit, and the distributed unit receives the first message from the central unit.
[0261] In Figure 14, a PDU installation session request message is used as an example of the first message for description.
[0262] S143: The distributed unit sends a reply message to the central unit, and the central unit receives the reply message from the distributed unit.
[0263] In Figure 14, the response message is a response message to the PDU session installation.
[0264] S144: The central unit sends a radio resource control message to UE through the use of the distributed unit, where the RRC message is forwarded by the distributed unit; and the UE receives the RRC message.
[0265] The RRC message includes an identifier for a session, carrier, or flow that is successfully established. The RRC message additionally includes configuration information for at least one protocol stack obtained after the distributed unit performs differentiated configuration based on configuration information from the source network device for at least one protocol stack that corresponds to a carrier, and at least one protocol stack includes at least one of the following protocol stacks: an RLC protocol stack,
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48/64 a MAC protocol stack, or a PHY protocol stack.
[0266] S145: The UE sends a RRC reply message to the central unit using the distributed unit, and the central unit receives the RRC reply message from the UE.
[0267] S146: The central unit sends an automatic change response message to the source network device, and the source network device receives the automatic change response message from the central unit.
[0268] For S141 to S146, refer to the corresponding description in the form of Figure 13. Details are not described in this document again.
[0269] S147: The central unit sends a path switch request message to a main network device, and the central unit receives the path switch request message.
[0270] S148: The main network device sends a path switching response message to the central unit, and the source network device receives the path switching response message.
[0271] Due to the mobility of the terminal device, the terminal device moves from an original server unit or distributed unit to a new central unit or distributed unit. In this scenario, the central unit notifies the primary network device of a session or flow that requires path switching, so that the primary network device can send downlink data and receive uplink data based on a switched path.
[0272] Specifically, when the central unit or the distributed unit performs access control, due to reasons such as resource limitation, the central unit or the distributed unit can accept only a few sessions in an automatic change request, and support only a few flows for an accepted session.
[0273] For example, the automatic change request message includes a distributed unit P 1 session, a distributed unit P session 2, and a distribution unit P 3 session. Specifically, the source network device requests to transfer the distribution unit session P 1, the session 2 of the distributed unit P, and the session of
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49/64 distribution unit P 3 from the terminal device to a central unit and a unit distributed from the target network device. Session 1 of distributed unit P includes flow 1, flow 2, and flow 3. Session 2 of distributed unit P includes flow 4, flow 5, and flow 6. The session of distribution unit P 3 includes a stream 7, a stream 8, and a stream 9. However, due to reasons such as resource constraints, the central unit or the distributed unit allows only automatic switching of session 1 from distributed unit P and session 2 from unit distributed P, and accepts only automatic change from flow 1 and flow 2 to session 1 of the distributed unit P. In this case, the central unit needs to add, to the path switching request to be sent to the main network device, information identification of a distributed unit session P whose automatic change is accepted, and identification information of a corresponding accepted flow. In other words, when requesting path switching from the central unit to the main network device, the main network device needs to be notified that the central unit accepts automatic change from session 1 of distributed unit P and unit session distributed P 2, and as for session 1 of distributed unit P, only flow 1 and flow 2 can be transferred to the central unit or the distributed unit.
[0274] Optionally, the central unit can additionally add, to the request for path switching to be sent to the main network device, identification information of a session of distributed unit P whose automatic change is rejected. Optionally, the central unit can additionally add, for the path switching request to be sent to the main network device, identification information for a distribution unit session P whose automatic change is accepted, and identification information for a flow corresponding rejected, for example, a session identifier 1 of the distributed unit P and an identifier of the corresponding stream 3.
[0275] For example, the information carried in the path switching request message can be represented as:
Session list requiring path switching
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50/64> PDU session identifier (PDU
Session ID) »Flow ID (list ID) [0276] It can be understood that the PDU session identifier and the flow identifier in the above table can be transmitted by the central unit to the network device main message as an application layer message (for example, an NGAP message), or can be transmitted to the main network device with a container, or can be transmitted to the main network device in another way. There is no limitation to that in this order.
[0277] After receiving the path switching request, the main network device performs a path switching operation, and sends a path switching response message to the central unit. The response message carries an identifier for a PDU session that requires uplink path switching. Optionally, the response message may additionally include an identifier, which corresponds to the PDU session identifier that requires uplink path switching, of a flow that requires uplink path switching. This is because it is possible for only a few streams to be successfully switched to a specific session.
[0278] It can be understood that the flow in this specification can be a QoS flow, or it can be a data flow, or it can be a service flow, or it can be a data package, and there is no limitation on that. in that order.
[0279] According to the communication method provided in the modalities of the present invention, the central unit notifies the main network device of a session or a flow that requires path switching, so that the main network device can send data from downlink and receive uplink data based on a switched path.
[0280] The method in the embodiments of the present invention is described in detail above, and an apparatus in an embodiment of the present invention is provided below.
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51/64 [0281] Figure 15 is a schematic diagram of modules of a communications device according to an embodiment of the present invention. The communications apparatus 1500 may include a transmission unit 151 and a receiving unit 152.
[0282] Transmission unit 151 is configured to send a connection installation request message to a central unit.
[0283] Receiving unit 152 is configured to receive a connection installation response message from the central unit.
[0284] The connection installation request message or the connection installation response message includes network slice information supported by the distributed unit.
[0285] In an implementation, the connection installation response message additionally includes network slice information supported by the central unit.
[0286] In another implementation, the transmission unit is additionally configured to send a configuration update message to the central unit, where the configuration update message includes updated network slice information supported by the distributed unit.
[0287] In yet another implementation, the network slice information supported by the distributed unit includes at least one or a combination of the following: network slice indication information supported by at least one cell in the distributed unit; a cell identifier of the at least one cell of the distributed unit and network slice indication information supported by each of the at least one cell; or a tracking area identifier or registration area that corresponds to at least one cell of the distributed unit and network slice indication information supported by each tracking area or each registration area in the tracking area or the record that corresponds to at least one cell.
[0288] According to the communications device provided in this embodiment of the present invention, the network slice information supported by the distributed unit is exchanged between the distributed unit and the central unit by using a connection installation process, so that one
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52/64 service based on network slice in a distributed unit and central unit architecture can be implemented.
[0289] Figure 16 is a schematic diagram of modules of another communication device according to one embodiment of the present invention. The communications device 1600 may include a receiving unit 161 and a transmitting unit 162.
[0290] Receiving unit 161 is configured to receive a connection installation request message from a distributed unit.
[0291] The transmission unit 162 is configured to send a connection installation response message to the distributed unit.
[0292] The connection installation request message or the connection installation response message includes network slice information supported by the distributed unit.
[0293] In an implementation, the connection installation response message additionally includes network slice information supported by the central unit.
[0294] In another implementation, the transmission unit is additionally configured to send a configuration update message to the distributed unit, where the configuration update message includes updated network slice information supported by the central unit.
[0295] In yet another implementation, the configuration update message or the connection installation response message additionally includes network slice configuration information. The network slice configuration information includes at least one of the following configuration information: layer 1 protocol stack configuration information, layer 2 protocol stack configuration information, physical resource information, bandwidth information frequency that corresponds to a network slice, frequency information that corresponds to a network slice, or status information supported by a network slice.
[0296] According to the communications device provided in this embodiment of the present invention, the supported network slice information
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53/64 by the distributed unit are exchanged between the central unit and the distributed unit by using a connection installation process, so that a service based on network slice in a distributed unit and central unit architecture can be implemented.
[0297] Figure 17 is a schematic diagram of modules of yet another communications device according to an embodiment of the present invention. The communications apparatus 1700 may include a transmitting unit 171 and a receiving unit 172.
[0298] Transmission unit 171 is configured to send a first message to a distributed unit, where the first message includes network slice indication information that corresponds to a session, a carrier, or a stream.
[0299] Receiving unit 172 is configured to receive a reply message from the distributed unit.
[0300] In an implementation, transmission unit 171 is additionally configured to send a radio resource control message to a terminal device by using the distributed unit, where the radio resource control message includes a session identifier , carrier, or flow that is successfully established.
[0301] In another implementation, transmission unit 171 is additionally configured to send a path switch request message to a primary network device, where the path switch request message includes an identifier of a session established with success by the central unit or by the distributed unit, and / or a stream identifier that corresponds to the session identifier and which is successfully established by the central unit or the distributed unit.
[0302] In yet another implementation, the first message or the reply message additionally includes carrier duplication indication information.
[0303] In yet another implementation, the first message additionally includes UE-AMBR Dll indication information, and UE-AMBR Dll indication information is used to indicate a maximum aggregation bit rate applied by the unit distributed to the terminal device.
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54/64 [0304] In yet another implementation, the first message additionally includes configuration information from a source network device for at least one protocol stack that corresponds to a carrier, and at least one protocol stack includes a stack RLC protocol stack, MAC protocol stack, and PHY protocol stack.
[0305] In yet another implementation, the source network device includes any one of the following: the central unit, a source base station, a source central unit, and the main network device.
[0306] According to the communications device provided in this embodiment of the present invention, as different network slices have different layer 1 or layer 2 configurations on one side of the RAN, different sessions can correspond to different network slices. During installation or session modification, the central unit notifies the distributed unit of network slice indication information that corresponds to a session, carrier, or flow to be established or modified, and the distributed unit establishes or modifies the session, carrier, or flow in an indicated network slice, so that the distributed unit can accurately select a network slice, and can configure, based on the network slice information that corresponds to the session, an L1 / L2 parameter that corresponds to the slice connection to the terminal device. Therefore, sessions that belong to different network slices meet a specific requirement for QoS.
[0307] Figure 18 is a schematic diagram of modules of yet another communications device according to an embodiment of the present invention. The communications apparatus 1800 may include a receiving unit 181 and a transmitting unit 182, and may additionally include a processing unit 183.
[0308] Receiving unit 181 is configured to receive a first message from a central unit, where the first message includes network slice indication information that corresponds to a session, a carrier, or a stream.
[0309] Transmission unit 182 is configured to send a response message to the central unit.
[0310] In an implementation, transmission unit 182 is additionally configured to send a resource control message
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55/64 radio from the central unit to a terminal device, where the radio resource control message includes an identifier of a session, carrier, or stream that is successfully established (established).
[0311] In another implementation, the communications apparatus 1800 additionally includes a processing unit 183, configured to determine whether or not the communications apparatus supports a network slice that corresponds to the network slice indication information.
[0312] In yet another implementation, the first message or reply message additionally includes carrier duplication indication information.
[0313] In yet another implementation, the first message additionally includes DU UE-AMBR indication information, and DU UE-AMBR indication information is used to indicate a maximum aggregation bit rate applied by the distributed unit for the terminal device.
[0314] In yet another implementation, the first message additionally includes configuration information from a source network device for at least one protocol stack that corresponds to a carrier, and at least one protocol stack includes an RLC protocol stack , a MAC protocol stack, and a PHY protocol stack.
[0315] In yet another implementation, the source network device includes any of the following: the central unit, a source base station, a source central unit, and the main network device.
[0316] According to the communications device provided in this embodiment of the present invention, as different network slices have different layer 1 or layer 2 configurations on one side of RAN, different sessions can correspond to different network slices. During installation or session modification, the central unit notifies the distributed unit of network slice indication information that corresponds to a session, carrier, or flow to be established or modified, and the distributed unit establishes or modifies the session, carrier, or flow in an indicated network slice, so that the distributed unit can accurately select a network slice, and can configure, based on the network slice information that corresponds to the session, an L1 / L2 parameter that corresponds to the slice network to
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56/64 the terminal device. Therefore, sessions that belong to different network slices meet a specific requirement for QoS.
[0317] One embodiment of the present invention additionally provides a communications device. The communications device can be a unit distributed in the aforementioned communications system, and the communications device can use a hardware architecture shown in Figure 19. The communications device can include a receiver, a transmitter, a memory, and a processor, and the receiver, transmitter, memory, and processor are connected to each other using a bus. Related functions implemented by the receiving unit 152 in Figure 15 can be implemented by the receiver, and related functions implemented by the transmission unit 151 can be implemented by the transmitter. Related functions implemented by the receiving unit 181 in Figure 18 can be implemented by the receiver, related functions implemented by the transmission unit 182 can be implemented by the transmitter, and related functions implemented by the processing unit 183 can be implemented by using one or more processors .
[0318] The memory includes, without limitation, a random access memory (Random Access Memory, RAM), read-only memory (Read-Only Memory, ROM), an erasable programmable read-only memory (Erasable Programmable Read Only Memory , EPROM), or a compact disc read-only memory (CD-ROM), and the memory is configured to store instructions and related data.
[0319] The receiver is configured to receive data and / or a signal, and the transmitter is configured to send data and / or a signal. The transmitter and receiver can be independent components, or they can be an integrated component.
[0320] The processor may include one or more processors, for example, include one or more central processing units (Central Processing Unit, CPU). When the processor is a CPU, the CPU is a single-core CPU, or it can be a multiple-core CPU.
[0321] Memory is configured to store program code
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57/64 and data from a network device.
[0322] In an implementation, the transmitter is configured to send a connection installation request message to a central unit, for example, perform step S401 in the mode shown in Figure 4, and the receiver is configured to receive a message from response of installing the connection from the central unit, for example, perform step S402 in the mode shown in Figure 4.
[0323] In another implementation, the receiver is configured to receive a first message from a central unit, for example, perform step S901 in the mode shown in Figure 9, and the transmitter is configured to send a response message to the central unit, for example, performs step S902 in the mode shown in Figure 9.
[0324] For details, refer to the description in the aforementioned method modalities. Details are not described in this document again.
[0325] It can be understood that Figure 19 shows only a simplified design of the communications device. In the effective application, the communications apparatus may additionally include other necessary elements, including, without limitation, any quantities of transceivers, processors, controllers, memories, and the like, and all communications apparatus that may implement the modalities of the present invention are covered by the scope of protection of the present invention.
[0326] One embodiment of the present invention additionally provides a communications device. The communications device can be a central unit in the aforementioned communications system, and the communications device can use a hardware architecture shown in Figure 19. The communications device can include a receiver, a transmitter, a memory, and a processor, and the receiver, transmitter, memory, and processor are connected to each other using a bus. Related functions implemented by the receiving unit 161 in Figure 16 can be implemented by the receiver, and related functions implemented by the transmitting unit 162 can be implemented by the transmitter. Related functions implemented by receiving unit 172 in
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58/64
Figure 17 can be implemented by the receiver, and related functions implemented by the transmission unit 171 can be implemented by the transmitter.
[0327] The memory includes, without limitation, a random access memory (Random Access Memory, RAM), a read-only memory (Read-Only Memory, ROM), an erasable programmable read-only memory (Erasable Programmable Read Only Memory , EPROM), or a compact disc read-only memory (CD-ROM), and the memory is configured to store instructions and related data.
[0328] The receiver is configured to receive data and / or a signal, and the transmitter is configured to send data and / or a signal. The transmitter and receiver can be independent components, or they can be an integrated component.
[0329] The processor may include one or more processors, for example, include one or more central processing units (Central Processing Unit, CPU). When the processor is a CPU, the CPU is a single-core CPU, or it can be a multiple-core CPU.
[0330] The memory is configured to store program code and data from a network device.
[0331] In an implementation, the receiver is configured to receive a connection installation request message from a distributed unit, for example, perform step S401 in the mode shown in Figure 4, and the transmitter is configured to send a connection installation response message for the distributed unit, for example, perform step S402 in the mode shown in Figure 4.
[0332] In another implementation, the transmitter is configured to send a first message to the distributed unit, for example, performing step S901 in the mode shown in Figure 9, and the receiver is configured to receive a response message from the distributed unit, for example, perform step S902 in the mode shown in Figure 9.
[0333] For details, refer to the description in the aforementioned method modalities. Details are not described in this document
Petition 870190084753, of 29/08/2019, p. 132/173
59/64 again.
[0334] It can be understood that Figure 19 shows only a simplified design of the communications device. In the effective application, the communications apparatus may additionally include other necessary elements, including, without limitation, any quantities of transceivers, processors, controllers, memories, and the like, and all communications apparatus that may implement the modalities of the present invention are covered by the scope of protection of the present invention.
[0335] One embodiment of the present invention additionally provides a communications system, including the aforementioned communications devices.
[0336] Figure 20 is a schematic structural diagram of a simplified terminal device. To facilitate understanding and illustrate more conveniently, in Figure 20, a mobile phone is used as an example of the terminal device. As shown in Figure 20, the terminal device includes a processor, a memory, a radio frequency circuit, an antenna, and an input / output device. The processor is primarily configured to: process a communications protocol and communication data, and control the terminal device, to run a software program, process data from the software program, and the like. The memory is configured to store a software program and data. The radio frequency circuit is mainly used for converting between a baseband signal and a radio frequency signal and processing the radio frequency signal. The antenna is mainly configured to receive and transmit a radio frequency signal in an electromagnetic waveform. The input / output device such as a touchscreen, a display, or a keyboard is primarily configured to receive data fed by a user and output data to the user. It should be noted that some types of terminal devices may not have an input / output device.
[0337] When data needs to be sent, the processor performs baseband processing on the data to be sent, and outputs a baseband signal to the radio frequency circuit. After performing
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60/64 radio frequency processing in the baseband signal, the radio frequency circuit sends the radio frequency signal using the antenna in the form of an electromagnetic wave. When data is sent to the terminal device, the radio frequency circuit receives the radio frequency signal using the antenna, converts the radio frequency signal into a baseband signal, and outputs the baseband signal to the processor , and the processor converts the baseband signal to data and processes the data. To facilitate the description, Figure 20 shows only a memory and a processor. In an actual terminal device product, there may be one or more processors and one or more memories. The memory can also be referred to as a storage medium, a storage device, or the like. The memory can be arranged independently of the processor, or it can be integrated with the processor. There is no limitation regarding this in this type of request.
[0338] In this modality of this request, the antenna and the radio frequency circuit that have a receive / send function can be considered as a receiving unit and a transmission unit (or can be referred to collectively as a transceiver) of the device terminal, and the processor having a processing function can be considered as a processing unit of the terminal device. As shown in Figure 20, the terminal device includes a receiving unit 2001, a processing unit 2002, and a transmitting unit 2003. Receiving unit 2001 can also be referred to as a receiving device, a receiver, a receiving circuit , or the like, and the transmission unit 2003 may also be referred to as a transmitting device, a transmitter, a transmitting circuit, or the like. The processing unit can also be referred to as a processor, a processing board, a processing module, a processing apparatus, or the like.
[0339] For example, in one mode, the receiving unit 2001 is configured to receive a radio resource control message, for example, to perform S104 in the mode shown in Figure 10, S113 in the mode shown in Figure 11, or S135 in the modality shown in Figure 13. The transmission unit 2003 sends a response message from
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61/64 radio resource for a central unit, for example, performs S105 in the mode shown in Figure 10, S115 in the mode shown in Figure 11, or S136 in the mode shown in Figure 13.
[0340] According to the terminal device provided in that embodiment of the present invention, the terminal device obtains a session identifier, carrier, or flow that is successfully established (established), to conduct a session with a network device.
[0341] One embodiment of the present invention additionally provides a computer-readable storage medium. The computer-readable storage media stores an instruction, and when the instruction runs on a computer, the computer performs the methods in the above aspects.
[0342] One embodiment of the present invention additionally provides a computer program product including an instruction. When the instruction runs on a computer, the computer performs the methods in the aforementioned aspects.
[0343] A person of ordinary skill in the art may be aware that, in combination with the examples described in the modalities disclosed in this specification, algorithm units and steps can be implemented by electronic hardware or a combination of computer software and electronic hardware . Whether the functions are performed by hardware or software depends on particular applications and conditions of design restriction of technical solutions. A person skilled in the art can use different methods to implement the functions described for each particular application, but implementation should not be considered to be beyond the scope of that request.
[0344] It can be clearly understood by a person skilled in the art that, for the purpose of a convenient and brief description, for a detailed process of operation of the aforementioned system, apparatus, and unit, reference can be made to a corresponding process in the above method modalities, and details are not described in this document again.
[0345] In the specification, claims and drawings attached to that application, the terms first (a), second (a), third (a), fourth (a), and
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62/64 and so on are intended to distinguish between different objects, but do not indicate a particular order. In addition, the terms including and having and any other variants thereof are intended to cover non-exclusive inclusion. For example, a process, method, system, product or device that includes a series of steps or units is not limited to the listed steps or units, but optionally additionally includes an unlisted step or unit, or optionally additionally includes a another step or unit inherent in the process, method, product, or device.
[0346] A person of ordinary skill in the art can understand that numbers in sequence of the aforementioned processes do not mean sequences of execution in various modalities of that request. The sequences of execution of the processes must be determined according to the functions and internal logic of the processes, and must not be interpreted as any limitation to the processes of implementation of the modalities of this request.
[0347] In the various modalities provided in this application, it should be understood that the revealed system, apparatus, and method can be implemented in other ways. For example, the type of apparatus described is merely an example. For example, the unit division is merely a logical function division and can be another division in the effective implementation. For example, a plurality of units or components can be combined or integrated into another system, or some characteristics can be ignored or not realized. In addition, mutual couplings or direct couplings or communication connections shown or discussed can be implemented using some interfaces. Indirect couplings or communication connections between devices or units can be implemented in electronic, mechanical, or other ways.
[0348] The units described the separate parts may or may not be physically separate, and parts shown as units may or may not be physical units, may be located in one position, or may be distributed in a plurality of network units. Some or all of the units can be selected based on effective requirements to achieve the objectives of the modalities solutions.
[0349] In addition, functional units in the modalities of this
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63/64 orders can be integrated into a processing unit, or each of the units can exist physically alone, or two or more units are integrated into one unit.
[0350] All or some of the aforementioned modalities can be implemented using software, hardware, firmware, or any combination thereof. When software is used to implement the modalities, the modalities can be implemented completely or partially in a form of a computer program product. The computer program product includes one or more computer instructions. When computer program instructions are loaded and executed on the computer, the procedure or functions according to the modalities of the present invention are all generated or partially generated. The computer can be a general purpose computer, a dedicated computer, a computer network, or other programmable devices. Computer instruction can be stored on computer-readable storage media, or it can be transmitted using computer-readable storage media. Computer instruction can be transmitted from a website at a web location, computer, server or data center to another network, computer, server or data center site in a wired manner (for example, a cable coaxial, an optical fiber, or a digital subscriber line (digital subscriber line, DSL)) or a wireless (for example, infrared, radio, or microwave). Computer-readable storage media can be any media that can be used accessible by a computer, or a data storage device, such as a server or a data center, integrating one or more media that can be used. The media that can be used can be a magnetic media (for example, a floppy disk, a hard disk, or a magnetic tape), an optical media (for example, a digital versatile disc (digital versatile disc, DVD), a semiconductor media (for example, a solid state disk, SSD), or the like.
[0351] A person of ordinary skill in the art can understand that all or some of the methods of the methods in the modalities can be implemented by a computer program that instructs relevant hardware. The program can be stored on a readable storage medium by
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64/64 computer. When the program runs, the method processes in the modalities are performed. The aforementioned storage media includes: any media that can store program code, such as read-only memory (ROM), random access memory (RAM), a magnetic disk, or a optical disc.

权利要求:
Claims (27)
[1]
1. Communication method, CHARACTERIZED by the fact that the method comprises:
sending, by a central unit, a first message to a distributed unit, where the first message is used to request the distributed unit to establish a carrier for a terminal device, and the first message comprises network slice indication information that corresponds to the carrier; and receiving, by the central unit, a reply message from the distributed unit.
[2]
2. Method, according to claim 1, CHARACTERIZED by the fact that the first message additionally comprises a bearer identifier.
[3]
3. Method according to claim 1 or 2, CHARACTERIZED by the fact that the central unit and the distributed unit belong to a target base station, and the first message comprises configuration information from a source network device for at least a protocol stack that corresponds to the carrier.
[4]
4. Method, according to claim 3, CHARACTERIZED by the fact that at least one protocol stack comprises at least one of: an RLC Radio Link Control protocol stack, an Access Control protocol stack MAC media, or a PHY physical layer protocol stack.
[5]
5. Method according to claim 3, CHARACTERIZED by the fact that the source network device comprises any one of the following: the central unit, a source base station, a source access and mobility management network element, or a central source unit.
[6]
6. Method according to any one of claims 1 to 5, CHARACTERIZED by the fact that the first message is a UE context installation request message.
[7]
7. Method according to any one of claims 1 to 6, CHARACTERIZED by the fact that the network slice indication information comprises S-NSSAI single network slice selection assistance information.
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2/6
[8]
8. Method according to any one of claims 1 to 7, CHARACTERIZED by the fact that the first message additionally comprises indication of maximum bit rate indication of UE aggregation of UE UE-AMBR distributed unit, and indication information DU UE-AMBR are used to indicate a maximum aggregation bit rate applied by the distributed unit to the terminal device.
[9]
9. Method according to any one of claims 1 to 8, CHARACTERIZED by the fact that the method additionally comprises:
sending, by the central unit, a radio resource control message to the terminal device using the distributed unit, wherein the radio resource control message comprises a carrier identifier which is successfully established.
[10]
10. Method according to any one of claims 1 to 9, CHARACTERIZED by the fact that the method additionally comprises:
sending a trajectory switching request message to a main network device, where the trajectory switching request message comprises an identifier of a session successfully established by the central unit or the distributed unit, and / or a stream identifier that corresponds to the session identifier and which is successfully established by the central unit or the distributed unit.
[11]
11. Communication method, CHARACTERIZED by the fact that the method comprises:
receiving, by a distributed unit, a first message from a central unit, where the first message is used to request the distributed unit to establish a carrier for a terminal device, and the first message comprises network slice indication information that corresponds to the carrier; and sending, by the distributed unit, a reply message to the central unit.
[12]
12. Communications device, CHARACTERIZED by the fact that it comprises:
a transmission unit, configured to send a first message to a distributed unit, where the first message is used
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3/6 to request the distributed unit to establish a carrier for a terminal device, and the first message comprises network slice indication information that corresponds to the carrier; and a receiving unit, configured to receive a reply message from the distributed unit.
[13]
13. Communications device, CHARACTERIZED by the fact that it comprises:
a receiving unit, configured to receive a first message from a central unit, where the first message is used to request a distributed unit to establish a carrier for a terminal device, and the first message comprises slice indication information network that correspond to the bearer; and a transmission unit, configured to send a response message to the central unit.
[14]
14. Communication method, CHARACTERIZED by the fact that it comprises:
send, through a distributed unit, a connection installation request message to a central unit, in which the connection installation request message comprises network slice information supported by the distributed unit; and receiving, by the distributed unit, a connection installation response message from the central unit.
[15]
15. Method, according to claim 14, CHARACTERIZED by the fact that the network slice information supported by the distributed unit comprises: an identifier of a tracking area that corresponds to at least one cell of the distributed unit and information of indication of network slice supported by each tracking area in the tracking area that corresponds to at least one cell.
[16]
16. Communication method, CHARACTERIZED by the fact that it comprises:
receive, by a central unit, a connection installation request message from a distributed unit; and send, through the central unit, a connection installation response message to the distributed unit,
Petition 870190084753, of 29/08/2019, p. 160/173
4/6 where the connection installation request message comprises network slice information supported by the distributed unit.
[17]
17. Communications device, CHARACTERIZED by the fact that it comprises:
a receiving unit, configured to receive a connection installation request message from a distributed unit; and a transmission unit, configured to send a connection installation response message to the distributed unit, wherein the connection installation request message comprises network slice information supported by the distributed unit.
[18]
18. Communications apparatus, in which the communications apparatus is a distributed unit, CHARACTERIZED by the fact that the communications apparatus comprises:
a transmission unit, configured to send a connection installation request message from a central unit; and a receiving unit, configured to receive a connection installation response message from the central unit, where the connection installation request message comprises network slice information supported by the distributed unit.
[19]
19. Computer-readable storage media, CHARACTERIZED by the fact that the computer-readable storage media stores an instruction, and when the instruction runs on a computer, the method as defined in any of claims 1 to 12 and claims 14 to 16 is performed.
[20]
20. Communications device, CHARACTERIZED by the fact that it comprises a receiver, a transmitter, a memory, and a processor, in which the memory stores program code, and the processor is configured to invoke the program code to perform the following operations :
controlling the transmitter to send a first message to a distributed unit, where the first message is used to request the distributed unit to establish a carrier for a terminal device, and the first message comprises network slice indication information
Petition 870190084753, of 29/08/2019, p. 161/173
5/6 that correspond to the carrier; and controlling the receiver to receive a response message from the distributed unit.
[21]
21. Communications device, CHARACTERIZED by the fact that it comprises a receiver, a transmitter, a memory, and a processor, in which the memory stores program code, and the processor is configured to invoke the program code to perform the following operations :
controlling the receiver to receive a first message from a central unit, where the first message is used to request a distributed unit to establish a carrier for a terminal device, and the first message comprises network slice indication information that corresponds to the carrier; and controlling the transmitter to send a response message to the central unit.
[22]
22. Communications device, CHARACTERIZED by the fact that it comprises a receiver, a transmitter, a memory, and a processor, in which the memory stores program code, and the processor is configured to invoke the program code to perform the following operations :
controlling the transmitter to send a connection installation request message, wherein the connection installation request message comprises network slice information supported by a distributed unit; and controlling the receiver to receive a connection installation response message from the central unit.
[23]
23. Communications device, CHARACTERIZED by the fact that it comprises a receiver, a transmitter, a memory, and a processor, in which the memory stores program code, and the processor is configured to invoke the program code to perform the following operations :
controlling the receiver to receive a connection installation request message from a distributed unit; and controlling the transmitter to send a connection installation response message to the distributed unit, wherein the connection installation request message comprises network slice information supported by the distributed unit.
Petition 870190084753, of 29/08/2019, p. 162/173
6/6
[24]
24. Communication method, CHARACTERIZED by the fact that it comprises:
send, by a central unit, a first message to a distributed unit, where the first message is used to request the distributed unit to install a carrier for a terminal device, and the first message comprises network slice indication information that corresponds to the carrier; and send, through the distributed unit, a feedback message to the central unit.
[25]
25. Communication method, CHARACTERIZED by the fact that it comprises:
send, through a distributed unit, a connection installation request message to a central unit, in which the connection installation request message comprises network slice information supported by the distributed unit; and sending, through the central unit, a connection installation feedback message to the distributed unit.
[26]
26. Communications system, CHARACTERIZED by the fact that it comprises a central unit and a distributed unit, where the central unit is configured to send a first message to the distributed unit, where the first message is used to request the distributed unit for installing a carrier for a terminal device, and the first message comprises network slice indication information that corresponds to the carrier; and the distributed unit sends a feedback message to the central unit.
[27]
27. Communications system, CHARACTERIZED by the fact that it comprises a central unit and a distributed unit, in which the distributed unit sends a connection installation request message to the central unit, in which the connection installation request message comprises network slice information supported by the distributed unit; and the central unit sends a connection installation feedback message to the distributed unit.

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法律状态:
2021-10-19| B350| Update of information on the portal [chapter 15.35 patent gazette]|

优先权:

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申请号 | 申请日 | 专利标题

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CN201710869441.9A|CN109842955A|2017-09-23|2017-09-23|Communication means and device|

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PCT/CN2018/105171|WO2019056970A1|2017-09-23|2018-09-12|Communications method and device|

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