SESSION ESTABLISHMENT METHOD, APPARATUS, CONTROL PLAN FUNCTION ENTITY, COMPUTER-READABLE STORAGE MED

专利摘要:
The modalities of this application provide a method of establishing a session and a device, so that an established PDN connection is transferred to a network slice on a 5G network during automatic switching between systems at a terminal. The method includes: receiving, through a terminal from a control plan function entity, corresponding network slice information used to transfer an established PDN connection to a 5G network, where the corresponding network slice information used for transferring the established PDN connection to the 5G network includes corresponding S-NSSAI unique network slice selection assistance information used to transfer the established PDN connection to the 5G network; and send a PDU session request, where the PDU session request includes corresponding network slice S-NSSAI used to transfer a first PDN connection to the 5G network and a corresponding DNN data network name used for transfer the first PDN connection to the 5G network, and the first PDN connection is any one of the established PDN connection.
公开号:BR112020009803A2
申请号:R112020009803-5
申请日:2018-11-17
公开日:2020-11-10
发明作者:Zaifeng Zong；Fenqin Zhu
申请人:Huawei Technologies Co., Ltd.；
IPC主号:

专利说明:

[0001] [0001] This order refers to the field of communications technologies, and in particular, a session establishment method, a device, a control plan function entity, a computer-readable storage medium, and a product computer program. FUNDAMENTALS
[0002] [0002] With the rapid development of wireless communications technologies, fifth generation mobile communications technology (fifth generation, 5G) appears. At an early stage of network deployment, as 5G network coverage is insufficient, when a user equipment location (User Equipment, UE) changes, the UE can be switched automatically between a 5G network and a fourth generation network ( fourth generation, 4G).
[0003] [0003] A network slice is a logically isolated network used to support a specific network capacity and network characteristic, and can include an entire network in an end-to-end (E2E) manner , or some network functions can be shared by a plurality of network slices. Network slicing is a key technology to meet differentiated network requirements in 5G mobile communications technology.
[0004] [0004] A network slice can be represented specifically by network slice selection assistance information (NSSAI). When a terminal accesses a 5G core network (5G core network, 5GC), the terminal provides requested NSSAI and the network selects a corresponding network slice for the terminal based on the NSSAI. In addition, the network determines, based on the NSSAI requested from the terminal, the NSSAI of a network slice that the terminal is allowed to access, namely NSSAI allowed.
[0005] [0005] However, there is no concept of network slice in a 4G network.
[0006] [0006] Modalities of this order provide a session establishment method, a device, a control plan function entity, a computer-readable storage medium, and a computer program product, so that an established PDN connection can be transferred to a network slice on a 5G network during mobility between systems at a terminal.
[0007] [0007] To achieve the above objective, the modalities of this request provide the following technical solutions:
[0008] [0008] According to a first aspect, a session establishment method is provided, where the method includes: receiving, by a terminal from a control plan function entity, corresponding network slice information used to transfer a PDN packet data network connection established to a 5G network, where the corresponding network slice information used to transfer the established PDN connection to the 5G network includes unique S-NSSAI slice network slice assist information corresponding network connections used to transfer the established PDN connection to the 5G network; and sending a PDU packet data unit session establishment request, where the PDU session establishment request includes corresponding network slice S-NSSAI used to transfer the first PDN connection to the 5G network, and a network name corresponding DNN data used to transfer the first PDN connection to the 5G network, and the first PDN connection is any of the established PDN connections. The terminal establishes one or more PDN connections on a 4G network using one or more control plan function entities.
[0009] [0009] When the terminal is in a non-roaming scenario or in a temporary transfer roaming scenario from the subscriber to a local provider (Local breakout, LBO), the corresponding network slice S-NSSAI used to transfer the first connection PDNs for the 5G network are the network slice S-NSSAIs received by the terminal from the control plan function entity.
[0010] [0010] When the terminal is in a Home routed scenario, the corresponding network slice S-NSSAIs used to transfer the first PDN connection to the 5G network are visited PLMN network slice S-NSSAI. Specifically, before sending a PDU session establishment request, the method additionally includes: mapping, for the PLMN network slice S-NSSAI visited by the terminal based on a mapping relationship between the network slice S-NSSAI Home PLMN and the visited PLMN network slice S-NSSAI, corresponding network slice information that is received from the control plan role entity and that is used to transfer the first PDN connection to the 5G network.
[0011] [0011] The control plan function entity sends the corresponding network slice information used to transfer the established PDN connection to the 5G network to the terminal, so that when transferring the established PDN connection to the 5G network, the terminal can establish a PDU session on a 5G network slice based on the corresponding network slice information.
[0012] [0012] In a possible implementation, the corresponding network slice information used to transfer the established PDN packet data network connection to the 5G network is ported in a PCO protocol configuration option message. The control plan function entity sends the corresponding network slice information to the terminal using the PCO message used to transfer the established PDN connection to the 5G network. Specifically, the PCO message can be sent to the terminal through a mobility management entity (Mobility Management Entity, MME) and a base station on the 4G network. The corresponding network slice information used to transfer the PDN packet data network connection established to the 5G network is sent using the PCO message, so that the MME can transmit the message only transparently, but not need to store the message.
[0013] [0013] In a possible implementation, the terminal additionally receives indication information from the control plan function entity, where indication information is used to indicate that the network slice information received from the control function entity control plan is home PLMN network slice information. Before sending the PDU session establishment request to a network, the terminal first maps, based on the match between home PLMN network slice S-NSSAI and visited PLMN network slice S-NSSAI, network slice S-NSSAI corresponding home PLMN network used to transfer, to 5G, a PDN connection that the terminal wants to transfer, to the corresponding visited PLMN network slice S-NSSAI used to transfer, to 5G, the PDN connection that the terminal wants to transfer; and then adds, to the PDU session establishment request, the corresponding visited PLMN network slice S-NSSAI used to transfer the PDN connection that the terminal wants to transfer to 5G in order to trigger the network to establish a PDU session .
[0014] [0014] In a possible implementation, the corresponding network slice information used to transfer the established PDN connection to the 5G network additionally includes a corresponding NSI-ID network slice instance identifier used to transfer the established PDN connection to the network 5G. When more than one network slice instance is deployed to a piece of S-NSSAI on the network, the corresponding network slice information sent by the control plan function entity to the terminal and which is used to transfer the PDN connection to the 5G network additionally includes a corresponding network slice instance identifier, thus ensuring session continuity after the PDN connection is transferred.
[0015] [0015] In a possible implementation, prior to receipt, by a terminal from a control plan function entity, of corresponding network slice information used to transfer an established PDN packet data network connection to a network 5G, the method additionally includes: sending, through the terminal, a capacity indication to the control plan function entity, where the capacity indication is used to indicate that the terminal can be transferred to the 5G network. In a specific implementation, after PDN connections are established on the 4G network, not all terminals need to receive the corresponding network slice information used to transfer the established PDN connections to the 5G network. For example, a terminal that does not support a 5G network communications capability cannot be transferred to the 5G network using the information even if the terminal receives the information.
[0016] [0016] Optionally, sometimes, not all PDN connections can be transferred to the 5G network. For PDN connections that cannot be transferred to the 5G network, the session establishment finally fails even if the terminal sends a PDU session establishment request. To avoid an unnecessary waste of signaling, before sending a PDU packet data unit session request, the method additionally includes: determining, through the terminal, a PDN connection that is in the established PDN connections and that can be transferred for the 5G network, where the first PDN connection is any of the PDN connections that can be transferred to the 5G network. The determination, by the terminal, of a PDN connection that is in the established PDN connection and that can be transferred to the 5G network specifically includes: sending, through the terminal, a registration request, where the registration request includes corresponding network slice information used to transfer, to the 5G network, a PDN connection that the terminal wants to transfer, and the PDN connection that the terminal wants to transfer are some or all of the established PDN connections; receiving a registration response, where the registration response includes S-NSSAI from a network slice that the terminal is allowed to access; and determine the PDN connection that can be transferred to the 5G network, based on the corresponding S-NSSAI used to transfer, to the 5G network, the PDN connection that the terminal wants to transfer and the network slice S-NSSAI that the terminal access is allowed.
[0017] [0017] It should be noted that when the terminal is in a non-roaming scenario or in a temporary transfer roaming scenario from the subscriber to a local provider (Local breakout, LBO), the corresponding network slice information used to transfer , for the 5G network, the PDN connection that the terminal wants to transfer is the network slice information received by the terminal from the control plan function entity.
[0018] [0018] When the terminal is in a Home routed scenario, the corresponding network slice information used to transfer, to the 5G network, the PDN connection that the terminal wants to transfer is visited PLMN network slice information. Specifically, prior to sending the PDU session establishment request, the method additionally includes: mapping, through the terminal based on the mapping relationship between the domestic PLMN network slice S-NSSAI and the visited PLMN network slice S-NSSAI, network slice information sent by the control plan role entity to the visited PLMN network slice information.
[0019] [0019] According to a second aspect, a session establishment method is provided, where the method includes: sending, by an entity of control plan function to a terminal using an MME, corresponding network slice information used to transfer an established PDN packet data network connection to a 5G network, where the corresponding network slice information used to transfer the established PDN connection to the 5G network includes S- unique network slice selection assistance information Network slice NSSAI corresponding to the established PDN connection; and receiving a PDU packet data unit session request that is sent using an AMF through the terminal, where the PDU session request includes network slice S-NSSAI corresponding to a first PDN connection and a corresponding DNN data network name used to transfer the first PDN connection to the 5G network, and the first PDN connection is any of the established PDN connections. The control plan function entity sends the corresponding network slice information used to transfer the established PDN connection to the 5G network to the terminal, so that when the terminal is automatically switched to the 5G network, the terminal can establish a connection. PDU session on a 5G network slice based on the corresponding network slice information.
[0020] [0020] In a possible implementation, the corresponding network slice information used to transfer the established PDN packet data network connection to the 5G network is ported in a PCO protocol configuration option message. The control plan function entity sends the corresponding network slice information to the terminal using the PCO message used to transfer the established PDN connection to the 5G network. Specifically, the PCO message can be sent to the terminal by a mobility management entity (Mobility Management Entity, MME) and a base station on a 4G network. The corresponding network slice information used to transfer the PDN packet data network connection established to the 5G network is sent using the PCO message, so that the MME can transmit the message only transparently, but not need to store it.
[0021] [0021] In a possible implementation, the control plan role entity can specifically determine, based on an APN access point name corresponding to the established PDN connection, the corresponding network slice information used to transfer the established PDN connection for the 5G network.
[0022] [0022] In a possible implementation, in a Domestic routed scenario, the control plan function entity additionally sends referral information to the terminal, where referral information is used to indicate that the network slice information sent by the entity control plan function information is home PLMN network slice information, so that after receiving the referral information, the terminal maps the home PLMN network slice information received from the control plan function entity to the information PLMN network slice visited.
[0023] [0023] In a possible implementation, if the established PDN connection is established in a Domestic routed scenario, the control plan role entity can determine corresponding home PLMN network slice information used to transfer the established PDN connection to the 5G network ; then map the corresponding home PLMN network slice information used to transfer the established PDN connection to the 5G network to visited PLMN network slice information; and sending, to the terminal, the corresponding network slice information used to transfer the established PDN connection to the 5G network, corresponding visited PLMN network slice information used to transfer the established PDN connection to the 5G network. In this way, all network slice information received by the terminal can be used directly, and the terminal does not need to set up a related location mapping table, and no longer needs to determine whether or not a current situation is the Domestic routed scenario when establishing a PDU session.
[0024] [0024] In a possible implementation, the corresponding network slice information used to transfer the established PDN connection to the 5G network additionally includes a corresponding NSI-ID network slice instance identifier used to transfer the established PDN connection to the network 5G. When more than one network slice instance is deployed to a piece of S-NSSAI on the network, the corresponding network slice information that is sent by the control plan function entity to the terminal and is used to transfer the connection PDNs for the 5G network additionally include a corresponding network slice instance identifier, thus ensuring session continuity after the PDN connection is transferred.
[0025] [0025] In a possible implementation, before a control plan function entity sends to a terminal, the corresponding network slice information used to transfer an established PDN packet data network connection to a 5G network, the method includes: receiving, through the control plan function entity, a capacity indication from the terminal, where the capacity indication is used to indicate that the terminal can be automatically switched to the 5G network. The control plan function entity can simultaneously establish PDN connections to different terminals. However, for PDN connections corresponding to terminals that do not have a 5G network communication capability or do not need to be transferred to the 5G network, the control plan function entity does not need to send network slice information to the terminals. correspondents used to transfer PDN connections to the 5G network.
[0026] [0026] According to a third aspect, a terminal is provided, where the terminal has a function of implementing the method in the first aspect. The function can be implemented by hardware, or it can be implemented by hardware that runs corresponding software. The hardware or software includes one or more modules corresponding to the aforementioned function.
[0027] [0027] According to a fourth aspect, a device is provided, including a processor and a memory, where the memory is configured to store a computer executable instruction, and when the device runs, the processor executes the stored computer executable instruction in memory, so that the device performs the method of establishing session according to any of the first aspect or the implementations of the first aspect. The apparatus may be specifically a terminal in the session establishment method according to any one of the first aspect or implementations of the first aspect, or a chip in the terminal.
[0028] [0028] According to a fifth aspect, a computer-readable storage medium is provided, where the computer-readable storage medium stores an instruction, and when the instruction runs on a computer, the computer can perform the method of establishing session according to any one of the first aspect or implementations of the first aspect.
[0029] [0029] According to a sixth aspect, a computer program product including an instruction is provided, where when the computer program product runs on a computer, the computer can perform the session establishment method according to anyone among the first aspect or with implementations of the first aspect.
[0030] [0030] For a technical effect brought by any design way in the third aspect up to the sixth aspect, make reference to the technical effects brought by different design ways in the first aspect. Details are not described in this document again.
[0031] [0031] According to a seventh aspect, a control plan function entity is provided, where the control plan function entity has a function of implementing the method in the second aspect. The function can be implemented by hardware, or it can be implemented by hardware that runs corresponding software. The hardware or software includes one or more modules corresponding to the aforementioned function.
[0032] [0032] According to an eighth aspect, an apparatus is provided,
[0033] [0033] According to a ninth aspect, a computer-readable storage medium is provided, where the computer-readable storage medium stores an instruction, and when the instruction runs on a computer, the computer can perform the method of establishing session according to any of the second aspect or implementations of the second aspect.
[0034] [0034] According to a tenth aspect, a computer program product including an instruction is provided, where when the computer program product runs on a computer, the computer can perform the session establishment method according to anyone among the second aspect or implementations of the second aspect.
[0035] [0035] These aspects or other aspects of this request are clearer and easier to understand in descriptions of the modalities to follow. BRIEF DESCRIPTION OF THE DRAWINGS
[0036] [0036] Figure 1 is a schematic diagram of an architecture for interworking between a 4G network and a 5G network;
[0037] [0037] Figure 2 is a schematic diagram of a hardware structure of a communications device according to one embodiment of this application;
[0038] [0038] Figure 3 is a schematic flowchart 1 of a method of establishing a session according to one embodiment of this request;
[0039] [0039] Figure 4 is a schematic flowchart 2 of a method of establishing a session according to an embodiment of this request;
[0040] [0040] Figure 5 is a schematic structural diagram of an appliance according to one embodiment of this application; and
[0041] [0041] Figure 6 is a schematic structural diagram of a control plan function entity according to one modality of this order. DESCRIPTION OF THE MODALITIES
[0042] [0042] In order to facilitate the understanding of technical solutions in the modalities of this request, the following is a brief description of the technologies related to this request.
[0043] [0043] NSSAI:
[0044] [0044] NSSAIs include a plurality of pieces of S-NSSAI. S-NSSAIs include a slice / service type (SST) and a slice differentiator (SD). SST and SD can be set to a standard or customized by an operator. The SD is optional information that complements the SST to differentiate between multiple Network Slices of the same type of Slice / Service; for example, SD can be used to represent a property of a network slice. NSSAI types and functions defined in the 3GPP TS 23.501 standard are shown in Table 1. Table 1 Type Description of NSSAI function configured NSSAI preconfigured in a terminal (configured NSSAI) S-NSSAI Used to identify a specific NSSAI allowed network slice NSSAI provided to a current registration area by (allowed NSSAI) a service network, from a network slice that a terminal is allowed to access
[0045] [0045] A network architecture and service scenario that are described in the modalities of the present disclosure are intended to describe the technical solutions in the modalities of this disclosure more clearly, and do not constitute limitation in the technical solutions provided in the modalities of this revelation. A person of ordinary skill in the art may know that, with the evolution of the network architecture and the emergence of new service scenarios, the technical solutions provided in the modalities of this disclosure are also applicable to similar technical problems.
[0046] [0046] One embodiment of the present disclosure provides a mobility management method, which can be applied to an architecture 100 for interworking between a 4G network and a 5G network, as shown in Figure
[0047] [0047] In addition, as shown in Figure 1, the architecture for interworking between the 4G network and the 5G network may additionally include an MME, a service gateway (Serving Gateway, SGW), and an access and mobility management function (Access and Mobility Management Function, AMF) on the 5G network.
[0048] [0048] A terminal accesses the 4G network using an evolved universal terrestrial radio access network (E-UTRAN) access device, and the terminal accesses the 5G network using a network device next generation radio access network (NG-RAN). The E-UTRAN device communicates with the MME through an S1-MME interface. The E-UTRAN device communicates with the SGW through an S1-U interface. MME communicates with SGW through an S11 interface. MME communicates with the user data management entity through an S6a interface. The MME communicates with the AMF entity through an N26 interface. SGW communicates with the PGW-U + UPF entity via an S5-U interface. SGW communicates with the PGW-C + SMF entity via an S5-C interface. The PGW-U + UPF entity communicates with the NG-RAN device through an N3 interface. The PGW-U + UPF entity communicates with the PGW-C + SMF entity through an N4 interface. The PGW-C entity + SMF entity communicates with the PCRF entity + PCF entity through an N7 interface. The HSS + UDM entity communicates with the PGW-C + SMF entity through an N10 interface. The HSS + UDM entity communicates with the AMF entity through an N8 interface. The PCRF entity + PCF entity communicates with the AMF entity through an N15 interface. The PGW-C entity + SMF entity communicates with the AMF entity through an N11 interface. The AMF entity communicates with the NG-RAN device through an N2 interface. The AMF entity communicates with the terminal through an N1 interface.
[0049] [0049] It should be noted that the names of the interfaces between the network elements in Figure 1 are merely examples, and the interface names can be other names in a specific implementation. This modality of this request does not impose any specific limitation in this regard.
[0050] [0050] It should be noted that the NG-RAN device on the 5G network can also be referred to as an access device. The access device is a device that accesses a main network, for example, it can be a base station, a broadband network gateway (BNG), an aggregation switch, or a non-3GPP access device . The base station can be a base station in a number of ways, for example, a base macrostation, a base microstation (also referred to as a small cell), a relay station, or an access point. This modality of this request does not impose any specific limitation in this regard.
[0051] [0051] Certainly, there may be additional network elements in the 4G and 5G networks. For example, the 4G network may additionally include a general packet radio system support node (GPRS) (service GPRS support node, SGSN) and the like; and the 5G network may additionally include an authentication server function entity (AUSF), a network slice selection function (NSSF) entity, and the like. This modality of this request does not impose any specific limitation in this regard.
[0052] [0052] As a PDN connection on the 4G network is served by the combined PGW-C / SMF (namely, a control plan function entity) and the combined PGW-U / UPF, when the terminal is transferred from the 4G network to on the 5G network, a PDU session is still served by PGW-C / SMF and PGW-U / UPF. In other words, a session service anchor remains unchanged before and after the transfer, so that a session's IP address remains unchanged. In this modality of this request, when the UE accesses the 4G network and establishes a PDN connection, the control plan function entity sends corresponding network slice information to the terminal used to transfer the PDN connection established by the terminal to the network. 5G. When the terminal subsequently moves to a 5G coverage area, the terminal adds, to a registration request to be sent to the 5G network, the corresponding network slice information used to transfer the established PDN connection to the 5G network. The 5G network determines, based on the network slice information corresponding to the established PDN connection, an AMF that serves the permitted UE and NSSAI, and sends the permitted NSSAI to the terminal. The terminal can determine, based on the permitted NSSAI and the corresponding network slice information used to transfer the PDN connection established by the terminal on the 4G network to the 5G network, those established PDN connections that can be transferred to the 5G network. For a PDN connection that can be transferred to the 5G network, the terminal initiates the establishment of a PDU session in order to complete the session transfer between networks.
[0053] [0053] The terminal in this modality of this order can be several devices having a wireless communication function, for example, a hand-held device, a vehicle device, a wearable device, a computing device, or another computing device. processing connected to a wireless modem; or it can be a subscriber unit, a cellular phone, a smart phone, a wireless data card, a computer with a personal digital assistant (PDA), a tablet computer, a wireless modem (modem), a handheld device, a laptop computer, a cordless phone, or a local wireless loop station , WLL), a machine type communication terminal (machine type communication, MTC), user equipment (user equipment, UE), a mobile station (mobile station, MS), a terminal device (terminal device) or the like. To facilitate description, in this application, the devices mentioned above are collectively referred to as terminals.
[0054] [0054] The following describes the technical solutions in the modalities of this application with reference to the attached drawings in the modalities of this application. In the descriptions of this application, "plurality" means at least two, unless otherwise specified. In addition, in order to clearly describe the technical solutions in the modalities of this application, terms such as "first" and "second" are used in the modalities of this application to distinguish between the same or similar items that have basically the same function and purpose. A person skilled in the art can understand that terms, such as "first" and "second", are not intended to limit an amount and sequence of execution; and terms, such as "first" and "second", do not indicate a definite difference.
[0055] [0055] As shown in Figure 2, the nodes shown in Figure 1, such as the terminal, MME, AMF, SMF entity + PGW-C entity, E-UTRAN device, or NG-RAN device, can be implemented by a communications device (or system) in Figure 2.
[0056] [0056] Figure 2 is a schematic diagram of a hardware structure of a communications device according to one embodiment of this application. Communications device 200 includes at least one processor 201, a communications line 202, a memory 203, and at least one communications interface 204.
[0057] [0057] Processor 201 may be a general-purpose central processing unit (CPU), a microprocessor, an application-specific integrated circuit (ASIC), or one or more integrated circuits configured to control program execution of the solutions in this order.
[0058] [0058] Communications line 202 may include a channel used to transmit information between the previous components.
[0059] [0059] The communications interface 204 is configured to communicate, using any device as a transceiver, with another device or a communications network, such as Ethernet, a radio access network (RAN) or a wireless local area network (WLAN).
[0060] [0060] Memory 203 can be read-only memory (read-only memory, ROM), another type of static storage device that can store static information and instructions, a random access memory (RAM) or another type of dynamic storage device that can store information and instructions; or it can be an electrically erasable programmable read-only memory (EEPROM), a compact disc read-only memory, CD-ROM, or other optical magnetic disk storage, an optical disc storage (including a compact optical disc, a laser disc, an optical disc, a digital versatile disc, a Blu-ray disc or the like), a magnetic disc storage media or other magnetic storage device, or any other media that can be configured to carry or store expected program code in the form of an instruction or data structure and that is accessible to a computer. However, this is not a limitation. The memory can exist independently and is connected to the processor using communications line 202. Alternatively, the memory can be integrated into the processor.
[0061] [0061] Memory 203 is configured to store an executable computer instruction to execute the solutions of this order, and processor 201 controls execution of the executable computer instruction. Processor 201 is configured to execute the computer executable instruction stored in memory 203 in order to implement a session establishment method provided in the form of this application below.
[0062] [0062] Optionally, the executable computer instruction in this modality of this order can also be referred to as application program code. This modality of this request does not impose any specific limitation in this regard.
[0063] [0063] In a specific implementation, in a modality, processor 201 may include one or more CPUs, such as a CPU 0 and a CPU 1 in Figure 2.
[0064] [0064] In the specific implementation, in one embodiment, the communications device 200 may include a plurality of processors, such as a processor 201 and a processor 208 in Figure 2. Each of the processors may be a single core processor (single CPU ), or it can be a multi-core processor (multiple CPU). The processor in this document can be one or more devices, a circuit and / or a processing core configured to process data (for example, a computer program instruction).
[0065] [0065] In a specific implementation, in one embodiment, the communications device 200 can additionally include an output device 205 and an input device 206. The output device 205 communicates with processor 201, and can display information on a plurality of ways. For example, the 205 output device may be a liquid crystal display (LCD), a light emitting diode (LED) display device, a cathode ray tube display device ( cathode ray tube, CRT) or a projector (projector). Input device 206 communicates with processor 201, and can receive user input in a plurality of ways. For example, input device 206 can be a mouse, keyboard, touchscreen device, or sensor device.
[0066] [0066] Communications device 200 may be a general purpose device or a dedicated device. In a specific implementation, the communications device 200 can be a desktop computer, a portable computer, a network server, a personal digital assistant (PDA), a mobile phone, a tablet computer, a terminal device wireless, an embedded device, or a device having a structure similar to that of Figure 2. A type of communications device 200 is not limited in this embodiment of this application.
[0067] [0067] The following describes in detail a method of establishing a session provided in an embodiment of this request with reference to Figure 1 and Figure 2.
[0068] [0068] Figure 3 shows a method of establishing a session provided in an embodiment of this request. In this mode, a terminal first accesses a 4G network using an E-UTRAN device, and establishes a PDN connection on the 4G network. Subsequently, as the terminal moves to a 5G service range, the terminal accesses a 5G network using an NG-RAN device. This modality of this request is applicable to a non-roaming scenario or to an LBO roaming scenario. The method includes the following steps.
[0069] [0069] Step 301: A terminal establishes a PDN connection on a 4G network.
[0070] [0070] The PDN connection can be established in an attachment process, or the establishment of the PDN connection can be initiated by the terminal after attachment. For a PDN connection establishment process, refer to an existing protocol. Details are not described in this document again.
[0071] [0071] Optionally, when the terminal establishes a PDN connection, the terminal determines that the terminal can later be transferred to a 5G network, for example, determines that the terminal can support the 5G network, the terminal sends a capacity indication to a control plan role entity. The capacity indication is used to indicate that the terminal can later be transferred to the 5G network. The capacity indication can be capacity information indicating that the terminal supports 5G (for example, indicating that the terminal supports a 5G NAS). The sending, by the terminal, of a capacity indication to a control plan function entity specifically includes: sending, by the terminal, the capacity indication to an MME when the terminal is attached to the 4G network, so that in the process of establishment of PDN connection, MME sends the capacity indication to the control plan function entity using an SGW; or send, through the terminal, a protocol configuration option (PCO) message to the control plan function entity, where the PCO message carries the capacity indication.
[0072] [0072] It should be noted that the terminal can establish one or more PDN connections on the 4G network, and one or more PDN connections can be served by one or more control plan function entities. This modality of this request does not impose any limitations in this regard. To facilitate the description, an example in which the terminal establishes one or more PDN connections using only one control plan function entity is used in this modality of this order.
[0073] [0073] Step 302: A control plan function entity obtains corresponding network slice information used to transfer the established PDN connection to the 5G network, and sends the network slice information to the terminal, so that the terminal receives the corresponding network slice information used to transfer the established PDN connection to the 5G network.
[0074] [0074] The established PDN connection includes one or more PDN connections. In actual deployment, all PDU sessions on the 5G network are associated with network slice instances. A network slice instance identifier can be indicated by a network slice instance ID (NSI-ID). A network slice identified by the S-NSSAI can have a plurality of network slice instances (for example, different network slice instances can be used to implement load balancing). In addition, a network slice instance can support one or more data networks. A data network can be identified by a data network name (Data Network Name, DNN).
[0075] [0075] Therefore, based on a network deployment status, to transfer the PDN connection established by the terminal on the 4G network to a PDU session on a network slice instance on the 5G network, the corresponding network slice information that is used to transfer the PDN connection to the 5G network and which are sent by the control plan function entity to the terminal may include different content. Since the control plane role entity is located in a network slice instance, when the control plan role entity supports a plurality of network slices, the control plan role entity can obtain corresponding S-NSSAI to different instances of the network slice supported by the control plan role entity, NSI-IDs network slice instance identifiers, and a name or names of one or more data networks supported by the network slice instances. The corresponding network slice information used to transfer the established PDN connection to the 5G network includes corresponding network slice S-NSSAI used to transfer the established PDN connection to the 5G network, and optionally additionally includes a network slice instance identifier. Corresponding NSI-ID used to transfer the established PDN connection to the 5G network. When a DNN used to automatically switch the terminal to the 5G network is different from an APN on the 4G network, optionally, the control plan function entity must additionally obtain the DNN used to transfer the terminal to the 5G network, and send the DNN for the terminal. The details are described below.
[0076] [0076] In a possible implementation, based on the status of the network deployment, a correspondence between a PDN and S-NSSAI connection is pre-configured in the control plan function entity. Obtaining, by a control plan function entity, corresponding network slice information used to transfer the established PDN connection to the 5G network includes: obtaining, by the control plan function entity based on connection information Established PDN and the pre-configured correspondence between a PDN and S-NSSAI connection, the network slice S-NSSAI corresponding to the established PDN connection. For this network deployment, the DNN used to transfer the PDN connection to the 5G network is the same as the APN on the 4G network, and only one instance of the network slice is deployed for each piece of the S-NSSAI.
[0077] [0077] For example, it is assumed that the pre-configured correspondence between a PDN and S-NSSAI connection is shown in Table 2. Table 2
[0078] [0078] In another possible implementation, based on the network deployment status, a correspondence between a PDN and S-NSSAI connection / a DNN is pre-configured in the control plan function entity. Obtaining, by a control plan function entity, corresponding network slice information used to transfer the established PDN connection to the 5G network includes: obtaining, by the control plan function entity based on connection information Established PDN and preconfigured correspondence between a PDN connection and S-NSSAI / a DNN, the corresponding network slice S-NSSAI used to transfer the established PDN connection to the 5G network and the DNN used to transfer the established PDN connection for 5G network. For this network deployment, the DNN used to transfer the PDN connection to the 5G network may be different from the APN on the 4G network, and only one instance of the network slice is deployed for each piece of the S-NSSAI.
[0079] [0079] For example, it is assumed that the pre-configured correspondence between a PDN and S-NSSAI connection / a DNN is shown in Table 3. Table 3 S-NSSAI DNN information PDN connection PDN connection 1 S-NSSAI 1 DNN 1 PDN connection 2 S-NSSAI 2 DNN 2………
[0080] [0080] In another possible implementation, based on the network deployment status, a correspondence between a PDN connection and an S-NSSAI / a DNN / an NSI-ID is pre-configured in the control plan function entity. Obtaining, by a control plan function entity, corresponding network slice information used to transfer the established PDN connection to the 5G network includes: obtaining, by the control plan function entity based on information about the PDN connection established and the pre-configured correspondence between a PDN and S-NSSAI connection / a DNN / an NSI-ID, the corresponding network slice S-NSSAI used to transfer the established PDN connection to the 5G network, the DNN used to transfer the PDN connection established for 5G network, and the corresponding NSI-ID network slice instance identifier used to transfer the established PDN connection to 5G network. For this network deployment, the DNN used to transfer the PDN connection to 5G may differ from the APN on the 4G network, and more than one instance of the network slice may be deployed for each piece of the S-NSSAI.
[0081] [0081] For example, it is assumed that the pre-configured correspondence between a PDN and S-NSSAI / a DNN / an NSI-ID connection is shown in Table 4. Table 4 S-NSSAI information NSI-ID DNN PDN connection PDN connection 1 S-NSSAI 1 NSI-ID 1 DNN 1 PDN connection 2 S-NSSAI 2 NSI-ID 2 DNN 2 ... ... ... ...
[0082] [0082] A PDN connection can be represented by an APN corresponding to the PDN connection. In other words, information about the established PDN connection can specifically include an APN corresponding to the established PDN connection. Optionally, a PDN connection can be represented by an APN corresponding to the PDN connection and related subscription information. A specific form of PDN connection information is not limited in this modality of this order.
[0083] [0083] In a specific implementation, in a PDN connection establishment response or in an attachment response to the terminal, the control plan function entity can send the information using a PCO message to the terminal corresponding network slice numbers used to transfer the established PDN connection to the 5G network. Optionally, the PCO message sent by the control plan function entity to the terminal additionally includes the DNN used to transfer the established PDN connection to the 5G network.
[0084] [0084] Step 303: When the terminal moves to a 5G network coverage area, the terminal initiates a registration request, where the registration request includes corresponding network slice information used to transfer a connection to the 5G network PDN that the terminal needs to transfer, the registration request is sent to an AMF using an access device (for example, a base station), so that the AMF receives the registration request, and the PDN connection that the terminal needs to transfer are some or all of the established PDN connections.
[0085] [0085] Specifically, after receiving, from the control plan function entity, the corresponding network slice information used to transfer the PDN connection established to 5G in step 302, the terminal determines, according to a policy requirement from the terminal, the PDN connection that the terminal needs to transfer and the corresponding network slice information used to transfer, to the 5G network, the PDN connection that the terminal needs to transfer. For example, a user triggers the establishment of a PDN 1 connection and a PDN 2 connection, respectively, using an APP 1 and an APP 2 installed on the terminal. The control plan function entity returns the corresponding network slice information used to transfer the PDN 1 connection to the 5G network and the corresponding network slice information used to transfer the PDN 2 connection to the 5G network to the terminal. In this case, if the terminal detects that a transfer policy (which may be chosen by the user, or may be inherent to APPs) has been chosen for APP 1 and APP 2, for example, APP 1 is prohibited from being transferred to 5G network, and APP 2 is preferably transferred to 5G network when there is 5G coverage, the terminal determines that the PDN 2 connection is the PDN connection that the terminal needs to transfer, and corresponding network slice information used to transfer the PDN 2 connection for 5G network is the corresponding network slice information used to transfer, to the 5G network, the PDN connection that the terminal needs to transfer.
[0086] [0086] Specifically, when the terminal initiates the registration request on the 5G network, if the registration request is port S-NSSAI, the access device selects the AMF based on the S-NSSAI that are carried in the registration request. In this modality of this request, the terminal adds, to the registration request, the corresponding network slice S-NSSAIs used to transfer,
[0087] [0087] Specifically, the terminal can add, to the "requested NSSAI", both the corresponding network slice S-NSSAIs used to transfer, to the 5G network, the PDN connection that the terminal needs to transfer, and the other requested S-NSSAIs. through the terminal; and send the "requested NSSAI" to the AMF. In addition, the terminal notifies the AMF of S-NSSAI, in the "requested NSSAI", corresponding to the established PDN connection. Alternatively, the terminal places the other requested S-NSSAIs in "Requested NSSAIs", and places, in other independent NSSAIs, the corresponding network slice S-NSSAIs used to transfer, to the 5G network, the PDN connection that the terminal needs to transfer ; and sends the other independent NSSAIs to the AMF. A method for sending the corresponding network slice S-NSSAIs through the terminal using the registration request to the AMF used to transfer the PDN connection that the terminal needs to transfer to 5G is not limited in this mode of this request.
[0088] [0088] Optionally, the registration request additionally includes a terminal identifier. After receiving the registration request from the terminal, AMF can perform a process, such as authentication, at the terminal, and finally obtain a permanent identifier (SUPI, Subscription Permanent Identifier) from the terminal. For details, refer to a related standard protocol. The details are not described again in this order.
[0089] [0089] Step 304: AMF obtains signature data from the terminal, where the signature data from the terminal includes signature data from the terminal's network slice and a correspondence between a corresponding APN and a PDN connection that the terminal needs to transfer and a identifier of a control plan role entity.
[0090] [0090] Specifically, the AMF obtains the signature data of the terminal based on the terminal identifier (or SUPI) in the registration request. AMF preferably obtains the subscription data from the terminal locally. If there is no local subscription data for the terminal, AMF obtains the subscription data for the terminal from a user data management entity. Optionally, AMF additionally stores the subscription data of the terminal in a corresponding context for the terminal.
[0091] [0091] The network slice signature data of the terminal includes S-NSSAI corresponding to a signed network slice, and optionally, additionally include information, such as a DNN, corresponding to the signed network slice.
[0092] [0092] Step 305: The MFA obtains S-NSSAI (namely, NSSAI allowed) corresponding to a network slice that the terminal is allowed to access.
[0093] [0093] Specifically, the MFA can obtain permitted NSSAIs based on information, such as the corresponding network slice information used to transfer, to the 5G network, the PDN connection that the terminal needs to transfer and the terminal's subscription data.
[0094] [0094] In a possible implementation, the AMF determines the permitted NSSAIs based on information, such as the corresponding network slice information used to transfer, to the 5G network, the PDN connection that the terminal needs to transfer and the subscription data of the terminal. Optionally, the AMF can alternatively determine the permitted NSSAIs based on the other S-NSSAIs requested by the terminal.
[0095] [0095] For example, when the corresponding network slice information used to transfer to the 5G network, the PDN connection that the terminal needs to transfer includes the corresponding network slice S-NSSAI used to transfer the PDN connection to the 5G network. that the terminal needs to transfer, the AMF obtains a union of the network slice S-NSSAIs corresponding to the PDN connection that the terminal needs to transfer and the other S-NSSAIs requested by the terminal; and then obtains an intersection of the union, the S-NSSAI corresponding to the network slice to which the terminal has signed, and S-NSSAI corresponding to a network slice supported by the AMF, to determine the permitted NSSAIs. When the corresponding network slice information used to transfer to the 5G network, the PDN connection that the terminal needs to transfer includes the network slice S-NSSAI corresponding to the PDN connection that the terminal needs to transfer and a slice slice identifier. corresponding NSI-ID network used to transfer, to 5G, the PDN connection that the terminal needs to transfer, in addition to the aforementioned determination, AMF additionally eliminates, based on the NSI-ID network slice instance identifier used to transfer, to the network 5G, the PDN connection that the terminal needs to transfer, a PDN connection corresponding to a network slice instance that the MFA cannot serve.
[0096] [0096] For example, the network slice S-NSSAIs corresponding to the PDN connection that the terminal needs to transfer include S-NSSAI 1 and S-NSSAI 2; the other S-NSSAI requested by the terminal include S-NSSAI 3 and S-NSSAI 4; the S-NSSAI corresponding to the network slice to which the terminal has signed include S-NSSAI 1, S-NSSAI 3 and S-NSSAI 5; and the S-NSSAI corresponding to the network slice supported by the AMF include the S-NSSAI 1, S-NSSAI 12, S-NSSAI 13, S-NSSAI 14, and S-NSSAI 15. So the AMF obtains a union of the S- Network slice NSSAI corresponding to the PDN connection that the terminal needs to transfer and the other S-NSSAI requested by the terminal: the S-NSSAI 1, the S-NSSAI 2, the S-NSSAI 3 and the S-NSSAI 4; and then it obtains an intersection of the union, the S-NSSAI corresponding to the network slice to which the terminal has signed, and the S-NSSAI corresponding to the network slice supported by the AMF: the S-NSSAI 1 and the S-NSSAI 3, determining so the permitted NSSAIs include S-NSSAI 1 and S-NSSAI 3.
[0097] [0097] In another possible implementation, the AMF requests a network slice selection function (NSSF) entity to determine the NSSAI allowed for the terminal. Specifically, the AMF sends a slice selection request to the NSSF. The slice selection request includes the corresponding network slice information used to transfer, to the 5G network, the PDN connection that the terminal needs to transfer and the subscription data of the terminal, and optionally, additionally include the other S-NSSAI requested by the terminal. The NSSF determines the permitted NSSAIs and a chosen target AMF corresponding to the permitted NSSAIs based on the corresponding network slice information used to transfer, to the 5G network, the PDN connection that the terminal needs to transfer and the terminal's subscription data and, optionally , additionally based on the other S-NSSAI requested by the terminal. Specifically, when the corresponding network slice information used to transfer, to the 5G network, the PDN connection that the terminal needs to transfer includes the corresponding network slice S-NSSAI used to transfer, to the 5G network, the PDN connection that the terminal need to transfer, the NSSF obtains a union of the corresponding network slice S-NSSAIs used to transfer, to the 5G network, the PDN connection that the terminal needs to transfer and the other S-NSSAI requested by the terminal; then it obtains an intersection of the union with the S-NSSAI corresponding to the network slice to which the terminal has signed; and then determines, based on information such as a terminal location and an AMF deployment status on a network, the permitted NSSAIs and the chosen target AMF corresponding to the permitted NSSAIs. The permitted NSSAIs are some or all of the first NSSAIs. Any MFA in the chosen target MFA can serve any network slice corresponding to the permitted NSSAIs. Optionally, the NSSF can select a target AMF in the chosen target AMF.
[0098] [0098] The NSSF sends the permitted NSSAIs and the chosen target AMF (or the selected target AMF from the chosen target AMF) to the AMF. In this modality of this application, the AMF and the NSSF can alternatively determine the NSSAIs allowed using another method. A method for determining the NSSAI permitted by the AMF and the NSSF is not limited in this modality of this application.
[0099] [0099] The AMF determines, based on the chosen AMF target or the target AMF returned by the NSSF, if the terminal needs to be redirected to another AMF for processing. If the terminal needs to be redirected to another AMF, the AMF will redirect the terminal to another AMF. A redirect method is well known to the public. The details are not described again in this order. In this modality of this request, it is considered by default that the AMF is included in the chosen target AMF, that is, the AMF does not need to redirect the terminal to another AMF for processing.
[0100] [0100] Step 306: The AMF sends a registration response to the terminal, so that the terminal receives the registration response, where the registration response includes the S-NSSAI corresponding to the network slice that the terminal is allowed to access, namely, permitted NSSAIs.
[0101] [0101] Step 307: The terminal determines a PDN connection that can be transferred to the 5G network.
[0102] [0102] Specifically, the terminal determines the PDN connection that can be transferred to the 5G network, based on the S-NSSAI corresponding to the network slice that the terminal is allowed to access and the corresponding network slice information used to transfer, to 5G, the PDN connection that the terminal needs to transfer. For example, the S-NSSAI corresponding to the network slice that the terminal is allowed to access include S-NSSAI 1 and S-NSSAI 3, and the S-NSSAI network slice corresponding to the PDN connection that the terminal needs to transfer includes the S -NSSAI 1 and S-NSSAI 2. The terminal then determines that a PDN connection corresponding to a network slice whose S-NSSAI is the S-NSSAI 1 can be transferred to the 5G network.
[0103] [0103] The following steps are performed for each PDN connection that can be transferred to the 5G network, to transfer the PDN connection to a PDU session on the 5G network.
[0104] [0104] Step 308: The terminal sends a PDU session establishment request to the AMF, so that the AMF receives the PDU session establishment request sent by the terminal, where the PDU session establishment request includes S-NSSAI of network slice corresponding to a first PDN connection, and a DNN used to transfer the first PDN connection to 5G, and the first PDN connection is any of the PDN connections that can be transferred.
[0105] [0105] Specifically, if the control plan function entity does not send the DNN used to transfer the PDN connection established to 5G in step 302 to the terminal, the terminal considers by default that the DNN used to transfer the PDN connection established for 5G is the same as the APN in 4G. Therefore, the DNN used to transfer the first PDN connection to 5G is the same as an APN corresponding to the first PDN connection.
[0106] [0106] If the control plan function entity sends the DNN used to transfer the PDN connection established to 5G in step 302 to the terminal, the terminal considers by default that the DNN used to transfer the established PDN connection to 5G is different from the APN in 4G. Therefore, the request to establish a PDU session additionally includes the APN corresponding to the first PDN connection.
[0107] [0107] It should be noted that, after a PDN connection is established, the terminal stores an APN corresponding to the established PDN connection.
[0108] [0108] Step 309: The AMF determines the control plan function entity, and forwards the request to establish a PDU session to the determined control plan function entity, so that the control plan function entity receives the request to establish a PDU session.
[0109] [0109] The AMF determines the control plan function entity based on the APN corresponding to the first PDN connection and a correspondence between an APN and an control plan function entity identifier.
[0110] [0110] Specifically, when the PDU session establishment request received by the AMF includes the network slice S-NSSAIs corresponding to the first PDN connection and the DNN used to transfer the first PDN connection to 5G, the AMF determines that the corresponding APN the first PDN connection is the same as the DNN used to transfer the first PDN connection to 5G, and determines the control plan role entity based on the APN corresponding to the first PDN connection and the correspondence between an APN and an entity identifier of control plan function. When the request for establishing a PDU session received by the AMF includes the network slice S-NSSAIs corresponding to the first PDN connection, the DNN used to transfer the first PDN connection to 5G, and the APN corresponding to the first PDN connection, the AMF determines the control plan role entity based on the APN corresponding to the first PDN connection and the correspondence between an APN and an control plan role entity identifier.
[0111] [0111] Step 310: Establish a PDU session on a network slice instance corresponding to the PDN connection.
[0112] [0112] A subsequent PDU session establishment process is the same as that in an existing protocol. The details are not described in this document.
[0113] [0113] In this modality of this request, when the UE has established a PDN connection on the 4G network, the control plan function entity determines corresponding network slice information used to transfer the established PDN connection to 5G, and sends the information of network slice for the UE through PCO. When the UE is subsequently registered with a 5GC, the UE adds network slice information to a request. This helps the 5GC to select a corresponding 5G network slice that supports the established PDN connection, and ensures that a session's IP address remains unchanged.
[0114] [0114] Figure 4 shows another method of establishing a session provided in an embodiment of this request. In this mode, a terminal first accesses a 4G network using an E-UTRAN device, and establishes a PDN connection on the 4G network. Subsequently, as the terminal moves to a 5G service range, the terminal accesses a 5G network using an NG-RAN device. This modality of this request is applicable to a roaming scenario (domestic routed) of HPLMN (home public land mobile operator network). In this modality of this request, a domestic control plan function entity is located at HPLMN. The method includes the following steps.
[0115] [0115] Step 401: A terminal establishes a PDN connection on a 4G network.
[0116] [0116] Step 402: A home control plan function entity obtains corresponding network slice information used to transfer the established PDN connection to the 5G network, and sends the network slice information to the terminal, so that the terminal receive the corresponding network slice information used to transfer the established PDN connection to the 5G network.
[0117] [0117] Step 401 is the same as step 301, and step 402 is the same as step
[0118] [0118] In another implementation, the corresponding network slice information that is sent by the home control plan function entity to the terminal and that is used to transfer the PDN connection to 5G is visited PLMN S-NSSAI. In this case, the home control plan role entity maps corresponding home PLMN network slice information used to transfer the PDN connection to 5G to visited PLMN network slice information. Specifically, the home control plan role entity first determines, according to the method in step 302, the corresponding home PLMN network slice information used to transfer the PDN connection to 5G; and then maps the corresponding home PLMN network slice information used to transfer the PDN connection to 5G to the visited PLMN network slice information. The domestic control plan function entity obtains, from an MME, a PLMN ID of the visited PLMN that is currently accessed by the terminal; and then maps the home PLMN network slice information to the visited PLMN network slice information based on a mapping relationship that is configured by the home control plan role entity and that is among the S-NSSAIs of Visited PLMN and domestic PLMN S-NSSAI, as shown in the following table. PLMN ID S-NSSAI PLMN ID S-NSSAI of domestic PLMN visited domestic PLMN visited PLMN ID 1 S-NSSAI 1 PLMN ID 2 S-NSSAI 12 PLMN ID 1 S-NSSAI 2 PLMN ID 2 S- NSSAI 22
[0119] [0119] Optionally, the domestic control plan function entity may alternatively request an NSSF to map the domestic PLMN S-NSSAIs to the visited PLMN S-NSSAIs. Specifically, the control plan role entity sends the home PLMN ID, the home PLMN S-NSSAI and the visited PLMN ID to the NSSF. The NSSF returns the visited PLMN S-NSSAI to the control plan role entity.
[0120] [0120] Step 403: When the terminal moves to a 5G network coverage area, the terminal initiates a registration request, where the registration request includes corresponding network slice information used to transfer a PDN connection to 5G that the terminal wants to transfer, and the registration request is sent to an AMF using an access device (for example, a base station), so that the AMF receives the registration request. If the terminal receives the routed home referral information in step 402, the terminal maps the received home PLMN network slice information to the visited PLMN network slice information. The terminal maps the home PLMN network slice information to the visited PLMN network slice information based on the home PLMN network slice information, a home PLMN ID, and a mapping relationship that is configured by the UE and that is between home PLMN network slice information and visited PLMN network slice information. The PDN connection that the terminal wants to transfer are some or all of the established PDN connections.
[0121] [0121] Step 404: AMF obtains signature data from the terminal, where the signature data from the terminal includes signature data from the terminal's network slice and a correspondence between an APN corresponding to a PDN connection that the terminal wants to transfer and a identifier of a control plan role entity.
[0122] [0122] Step 404 is the same as step 304. For related descriptions, refer to the related step in the aforementioned modality. Details are not described in this document again.
[0123] [0123] Step 405: AMF obtains S-NSSAI (namely NSSAI allowed) corresponding to a network slice that the terminal is allowed to access.
[0124] [0124] In a possible implementation, a specific implementation of step 403 is the same as that of step 303, except that the AMF in step 403 is a visited AMF, but the AMF in step 303 is a domestic AMF. In this case, in step 405, based on a match between the home PLMN network slice S-NSSAI and the visited PLMN network slice S-NSSAI, AMF maps the corresponding network slice S-NSSAI used to transfer the PDN connection established for 5G for visited PLMN network slice S-NSSAI, and maps S-NSSAI of a network slice that a user has subscribed to the visited PLMN network slice S-NSSAI; and determines the S-NSSAI corresponding to a slice of the visited PLMN network that the terminal is allowed to access. A specific determination method is the same as that of step 305. Details are not described in this document again.
[0125] [0125] In another possible implementation, the corresponding network slice information used to transfer, to 5G, the PDN connection that the terminal wants to transfer in step 403 is obtained by the terminal by mapping, based on the correspondence between S-NSSAI of home PLMN network slice and visited PLMN network slice S-NSSAI, the corresponding network slice S-NSSAI used to transfer, to 5G, the PDN connection that the terminal wants to transfer, to the network slice S-NSSAI PLMN visited correspondents used to transfer, to 5G, the PDN connection that the terminal wants to transfer. To be specific, compared to step 302, after determining the PDN connection that the terminal wants to transfer, the terminal needs to map additionally, based on the correspondence between home PLMN network slice S-NSSAI and PLMN network slice S-NSSAI visited, the corresponding network slice S-NSSAIs used to transfer, to 5G, the PDN connection that the terminal wants to transfer, to the corresponding visited PLMN network slice S-NSSAI used to transfer, to 5G, the PDN connection that the terminal wants to transfer. Therefore, in step 405, based on the correspondence between the home PLMN network slice S-NSSAI and the visited PLMN network slice S-NSSAI, AMF also maps the network slice S-NSSAI to which the user signed for. the PLMN network slice S-NSSAIs visited; and then determines the S-NSSAI corresponding to the visited PLMN network slice that the terminal is allowed to access, based on the visited PLMN network slice S-NSSAI corresponding to the S-NSSAI of the network slice to which the user has signed, and with based on the corresponding visited PLMN network slice S-NSSAI used to transfer the PDN connection that the terminal wants to transfer to 5G. A specific determination method is the same as that of step 305. Details are not described in this document again.
[0126] [0126] Step 406: The AMF sends a registration response to the terminal, so that the terminal receives the registration response, where the registration response includes S-NSSAI corresponding to a slice of the visited PLMN network that the terminal is allowed access, namely, NSSAI allowed.
[0127] [0127] Step 407: The terminal determines a PDN connection that can be transferred to the 5G network.
[0128] [0128] Referring to step 307, a difference from step 307 is that: if the corresponding network slice information that is received by the terminal and that is used to transfer the PDN connection to 5G is the PLMN S-NSSAI the terminal maps, based on the correspondence between the domestic PLMN network slice S-NSSAI and the visited PLMN network slice S-NSSAI, the network slice S-NSSAI corresponding to the PDN connection that the terminal wants to transfer, to the visited PLMN network corresponding to the network slice S-NSSAI used to transfer, to 5G, the PDN connection that the terminal wants to transfer; and then determines the PDN connection that can be transferred to the 5G network with reference to the S-NSSAIs that are received in step 406 and that correspond to the visited PLMN network slice that the terminal is allowed to access.
[0129] [0129] The following steps are performed for each PDN connection that can be transferred to the 5G network, to transfer the PDN connection to a PDU session on the 5G network.
[0130] [0130] Step 408: The terminal sends a PDU session establishment request to the AMF, so that the AMF receives the PDU session establishment request sent by the terminal, where the PDU session establishment request includes S-NSSAI of corresponding visited PLMN network slice used to transfer a first PDN connection to the 5G network, and a DNN used to transfer the first PDN connection to 5G, and the first PDN connection is any of the PDN connections that can be transferred.
[0131] [0131] Specifically, in step 402, if the domestic control plan function entity does not send the DNN used to transfer the established PDN connection to 5G to the terminal, the terminal considers by default that the DNN used to transfer the PDN connection established with 5G is the same as a 4G APN. Therefore, the DNN used to transfer the first PDN connection to 5G is the same as an APN corresponding to the first PDN connection.
[0132] [0132] If the home control plan function entity sends the DNN used to transfer the PDN connection established to 5G in step 402 to the terminal, the terminal considers by default that the DNN used to transfer the established PDN connection to 5G is different from APN in 4G. Therefore, the request to establish a PDU session additionally includes the APN corresponding to the first PDN connection.
[0133] [0133] It should be noted that, after a PDN connection is established, the terminal stores an APN corresponding to the established PDN connection.
[0134] [0134] Optionally, if the UE receives an identifier for a domestic PLMN network slice instance in step 402, the UE sends information about the identifier of the domestic PLMN network slice instance to the AMF.
[0135] [0135] Step 409: The AMF determines a visited control plan function entity and the domestic control plan function entity, and forwards the request to establish a PDU session to the determined visited control plan function entity, so that the control plan role entity visited receives the request to establish a PDU session.
[0136] [0136] Specifically, AMF's determination of the domestic control plan function entity includes: obtaining, through AMF, terminal PDN connection context information from a user data management entity, where the information PDN connection context definitions include the correspondence between an APN corresponding to a PDN connection and an identifier of a domestic control plan function entity. When the request for establishing a PDU session received by the AMF includes S-NSSAI of the visited PLMN network slice corresponding to the first PDN connection and the DNN used to transfer the first PDN connection to 5G, the AMF determines that the APN corresponding to the first PDN connection is the same as the DNN used to transfer the first PDN connection to 5G, and determines the home control plan role entity based on the APN corresponding to the first PDN connection and the correspondence between an APN and a role entity identifier of domestic control plan. When the request for establishing a PDU session received by the AMF includes the visited PLMN network slice S-NSSAIs corresponding to the first PDN connection, the DNN used to transfer the first PDN connection to 5G, and the APN corresponding to the first PDN connection, the AMF determines the domestic control plan function entity based on the APN corresponding to the first PDN connection and the correspondence between an APN and an identifier of a domestic control plan function entity.
[0137] [0137] AMF's determination of a visited control plan function entity specifically includes: determining, by AMF, the visited control plan function entity based on the visited PLMN network slice S-NSSAI corresponding to first PDN connection and the DNN used to transfer the first PDN connection to 5G. Specifically, the AMF can determine the control plan function entity visited based on a local configuration or by consulting a network function repository function entity (NRF). For a specific determination process, refer to an existing protocol. Details are not described in this document again. If the AMF receives an identifier for a home PLMN network slice instance from the UE in step 408, the AMF selects a control plan role entity visited additionally based on the home PLMN network slice instance identifier. The selected visited control plan role entity can be operable with the home PLMN network slice instance.
[0138] [0138] Step 410: The AMF forwards the request to establish a PDU session and an identifier of the domestic control plan function entity to the visited control plan function entity.
[0139] [0139] Step 411: The visited control plan function entity sends a PDU session establishment request to the home control plan function entity based on the identifier of the home control plan function entity.
[0140] [0140] Step 412: Establish a PDU session in a network slice instance corresponding to the PDN connection.
[0141] [0141] A subsequent PDU session establishment process is the same as that in an existing protocol. The details are not described in this document.
[0142] [0142] In this modality of this request, when the UE has established a PDN connection on the 4G network, the domestic control plan function entity determines the corresponding network slice information used to transfer the established PDN connection to 5G, and sends the network slice information for the UE through PCO. When the UE is subsequently registered in a 5GC, the UE adds, to a request, visited PLMN network slice information to which the aforementioned network slice information is mapped. This helps the 5GC to select a corresponding 5G network slice that supports the established PDN connection, and ensures that a session's IP address remains unchanged.
[0143] [0143] Actions of the network elements (for example, the terminal and the control plan function entity) in the modalities of Figure 3 and Figure 4 can be performed by the processor 201 of the communications device 200 shown in Figure 2 by invoking itself the application program code stored in memory 203. This modality of this order does not impose any limitations in this regard.
[0144] [0144] So far, the solutions provided in the modalities of this application have been described mainly from a perspective of interaction between network elements. It can be understood that, to implement the aforementioned functions, devices such as the terminal, the AMF, and the control plan function entity include corresponding hardware structures and / or software modules to perform the functions. A person skilled in the art will easily be aware that, with reference to the examples described in the modalities disclosed in this specification, algorithm units and steps can be implemented by hardware or a combination of computer hardware and software in this application. Whether or not a function is performed by hardware or hardware driven by computer software depends on specific applications and design constraints of technical solutions. A person skilled in the art may use different methods to implement the functions described for each specific application, but implementation should not be considered to be beyond the scope of that request.
[0145] [0145] In the modalities of this request, device function modules, such as the terminal and the control plan function entity, can be divided according to the above mentioned method examples. For example, function modules can be divided based on functions, or two or more functions can be integrated into a processing module. The integrated module can be implemented in the form of a hardware, or it can be implemented in the form of a software function module. It should be noted that dividing the module into the modalities of this application is an example, and is merely dividing a logical function, and there may be other ways of dividing the effective implementation.
[0146] [0146] For example, Figure 5 is a schematic structural diagram of an apparatus 500 when the function modules are divided in an integration manner. The device 500 can be the terminal in the above mentioned modes, or it can be a chip in the terminal. This modality of this request does not impose any specific limitation in this regard. As shown in Figure 5, the device includes a 501 receiving module and a sending module
[0147] [0147] Optionally, the corresponding network slice information used to transfer the established PDN packet data network connection to the 5G network is ported in a PCO protocol configuration option message.
[0148] [0148] Optionally, receiving module 501 is additionally configured to receive referral information from the control plan function entity, where referral information is used to indicate that the network slice information received from the entity control plan function is home PLMN network slice information.
[0149] [0149] The terminal additionally includes a mapping module. The mapping module is configured to map, based on a match between home PLMN network slice S-NSSAI and visited PLMN network slice S-NSSAI, corresponding home PLMN network slice S-NSSAI used to transfer, to 5G, a PDN connection that the terminal wants to transfer, to the corresponding visited PLMN network slice S-NSSAI used to transfer, to 5G, the PDN connection that the terminal wants to transfer.
[0150] [0150] Optionally, the corresponding network slice information used to transfer the established PDN connection to the 5G network additionally includes a corresponding NSI-ID network slice instance identifier used to transfer the established PDN connection to the 5G network.
[0151] [0151] In a possible implementation, the shipping module 502 is additionally configured to send a capacity indication to the control plan function entity, where the capacity indication is used to indicate that the terminal can be automatically switched to 5G network.
[0152] [0152] The device additionally includes a determination module
[0153] [0153] Optionally, the PCO message additionally includes the corresponding DNN used to transfer the first PDN connection to the 5G network, and the PDU session establishment request additionally includes an APN access point name corresponding to the first PDN connection.
[0154] [0154] For function descriptions of the corresponding function modules, refer to all the related content of the steps included in the aforementioned method modalities. Details are not described in this document again.
[0155] [0155] In this modality, the device 500 is presented by dividing the function modules in an integration way. Here, the "module" can be an application-specific integrated circuit (ASIC), a circuit, a processor that runs one or more software or firmware programs and a memory, an integrated logic circuit, and / or another device that can provide the above functions. In a simple modality, a person skilled in the art may discover that the apparatus 500 may be in the form shown in Figure 2.
[0156] [0156] For example, processor 201 in Figure 2 can invoke the executable computer instruction stored in memory 203, so that apparatus 500 performs the session establishment methods in the aforementioned method modalities.
[0157] [0157] Specifically, functions and implementation processes for receiving module 501, sending module 502, and determination module 503 in Figure 5 can be implemented by processor 201 in Figure 2 by invoking the computer executable instruction stored in memory 203.
[0158] [0158] Optionally, when the device 500 is a chip, the functions and implementation processes of the receiving module 501, the sending module 502 and the determination module 503 can be implemented by a pin, a circuit or the like. Optionally, when device 500 is a chip, memory 203 may be a storage unit on the chip, for example, a record or a cache. Certainly, when apparatus 500 is a terminal, memory 203 may be a storage unit that is in the terminal and that is outside of a chip. This modality of this request does not impose any specific limitation in this regard.
[0159] [0159] The device provided in this modality of this request can be configured to perform the aforementioned session establishment methods. Therefore, for a technical effect that can be achieved by the device, refer to the above method modalities. Details are not described in this document again.
[0160] [0160] Figure 6 is a schematic structural diagram of a control plan function entity 600. The control plan function entity 600 includes a sending module 601 and a receiving module 602. The sending module 601 is configured to send corresponding network slice information used to transfer an established PDN packet data network connection to a 5G network, where the corresponding network slice information used to transfer the established PDN connection to the 5G network includes service information network slice selection options corresponding to the established PDN connection. Receiving module 602 is configured to receive a PDU packet data unit session establishment request, where the PDU session establishment request includes a network slice S-NSSAI corresponding to a first PDN connection and a network name. corresponding DNN data network used to transfer the first PDN connection to the 5G network, and the first PDN connection is any of the established PDN connections.
[0161] [0161] Optionally, the corresponding network slice information used to transfer the established PDN packet data network connection to the 5G network is ported in a PCO protocol configuration option message, and the PCO message additionally includes a Corresponding DNN used to transfer the established PDN connection to the 5G network.
[0162] [0162] Optionally, the control plan function entity additionally includes a determination module. The determination module is configured to determine, based on an APN access point name corresponding to the established PDN connection, the corresponding network slice information used to transfer the established PDN connection to the 5G network.
[0163] [0163] In a possible implementation, sending module 502 is additionally configured to send referral information, where referral information is used to indicate that the network slice information sent by the control plan function entity is referral information. domestic PLMN network slice.
[0164] [0164] If the established PDN is established in a routed Domestic scenario, sending module 502 is specifically configured to: determine corresponding home PLMN network slice information used to transfer the established PDN connection to 5G; map the corresponding home PLMN network slice information used to transfer the established PDN connection to 5G to visited PLMN network slice information; and sending, to the terminal as the corresponding network slice information used to transfer the established PDN connection to 5G, corresponding visited PLMN network slice information used to transfer the established PDN connection to 5G.
[0165] [0165] Optionally, the corresponding network slice information used to transfer the established PDN connection to the 5G network additionally includes a corresponding NSI-ID network slice instance identifier used to transfer the established PDN connection to the 5G network.
[0166] [0166] In a possible implementation, the receiving module 602 is additionally configured to receive a capacity indication from the terminal, where the capacity indication is used to indicate that the terminal can be automatically switched to the 5G network.
[0167] [0167] For function descriptions of the corresponding function modules, refer to all the related content of the steps included in the aforementioned method modalities. Details are not described in this document again.
[0168] [0168] The control plane function entity 600 can be implemented in an integrated circuit, a radio frequency integrated circuit, a printed circuit board or the like. In addition, the control plane function entity 600 can be a stand-alone device, or it can be a part of a relatively large device. In this modality, the control plane function entity 600 is presented by dividing the function modules in an integration way. Here, the "module" can be a specific ASIC, a circuit, a processor that runs one or more software or firmware programs and a memory, an integrated logic circuit, and / or another device that can provide the above functions.
[0169] [0169] In a simple modality, a person skilled in the art can realize that the control plane function entity 600 can be in the form shown in Figure 2. For example, processor 201 in Figure 2 can invoke the executable computer instruction stored in memory 203, so that the control plane function entity 600 performs the session establishment methods in the aforementioned method modalities.
[0170] [0170] All or some of the aforementioned modalities can be implemented by software, hardware, firmware, or any combination thereof. When a software program is used to implement the modalities, the modalities can be implemented completely or partially in the form of a computer program product. The computer program product includes one or more computer instructions. When the instructions of the computer program are carried and executed on a computer, all or some of the procedures or functions according to the modalities of this order are generated. The computer can be a general purpose computer, a dedicated computer, a computer network, or another programmable device. Computer instructions can be stored on a computer-readable storage medium or they can be transmitted from a computer-readable storage medium to another computer-readable storage medium. For example, computer instructions can be transmitted from one website, computer, server or data center to another website, computer, server or data center using wire (for example, a coaxial cable, a optical fiber, or a digital subscriber line (digital subscriber line, DSL)) or without using a wire (for example, infrared, radio or microwave). Computer-readable storage media can be any usable media accessible to a computer, or a data storage device, such as a server or data center, integrating one or more usable media. Usable media can be a magnetic media (for example, a floppy disk, a hard drive, or a magnetic tape), an optical media (for example, a DVD), a semiconductor media (for example, a solid state disk (solid state disk, SSD)) or the like.
[0171] [0171] Although this request is described with reference to the modalities, in a process of implementing this request that claims protection, a person skilled in the art can understand and implement another variation of the modalities revealed by observing the attached drawings, the revealed content, and of the attached claims. In the claims, the term "comprising" does not exclude another component or another step and "one / one (article)" or "one / one (numeral)" does not exclude a case of plurality. A single processor or another unit can implement several functions listed in the claims. Some measures are recorded in dependent claims different from each other, but that does not mean that these measures cannot be combined to produce a better effect.
[0172] [0172] Although this request is described with reference to specific characteristics and their modalities, obviously, several modifications and combinations can be made in this request without departing from the scope of this request. Correspondingly, the specification and the accompanying drawings are merely exemplary descriptions of this application defined by the attached claims, and are considered to be any or all of the modifications, variations, combinations or equivalents that cover the scope of this application. Obviously, a person skilled in the art can make various modifications and variations to this order without departing from the scope of this order. This application is intended to cover these modifications and variations of this order, as long as they are within the scope of protection defined by the following claims and their equivalent technologies.

权利要求:
Claims (39)
[1]
1. Session establishment method, CHARACTERIZED by the fact that it comprises: receiving (302), by a terminal from a control plan function entity during establishment of a packet data network connection, PDN, information of single network slice selection assistance, S-NSSAI, corresponding to the PDN connection; and send (308), through the terminal, a request to establish a session of packet data unit, PDU, when transferring the PDN connection to a fifth generation network, 5G, in which the request to establish a PDU session comprises the S -NSSAI corresponding to the PDN connection.
[2]
2. Method, according to claim 1, CHARACTERIZED by the fact that the S-NSSAI corresponding to the PDN connection are included in a protocol configuration option, PCO.
[3]
3. Method, according to claim 1 or 2, CHARACTERIZED by the fact that in a domestic roaming scenario, the S-NSSAI corresponding to the PDN connection received from the control plan function entity are S-NSSAI of public terrestrial mobile network, PLMN, domestic.
[4]
4. Method, according to claim 3, CHARACTERIZED by the fact that it additionally comprises: receiving, by the terminal from the control plan function entity, an identifier, ID, of domestic PLMN, in which the ID of domestic PLMN indicates that the S-NSSAI corresponding to the PDN connection received from the control plan function entity are the domestic PLMN S-NSSAI.
[5]
5. Method, according to claim 3 or 4, CHARACTERIZED by the fact that it additionally comprises: mapping, through the terminal, the domestic PLMN S-NSSAI corresponding to the PDN connection to the visited PLMN S-NSSAI corresponding to the PDN connection, in that the S-NSSAI corresponding to the PDN connection included in the request to establish a PDU session are the visited PLMN S-NSSAI.
[6]
6. Method, according to claim 5, CHARACTERIZED by the fact that the mapping of the domestic PLMN S-NSSAI corresponding to the PDN connection to the visited PLMN S-NSSAI corresponding to the PDN connection comprises: mapping, through the terminal based on a matching between home PLMN network slice information and visited PLMN network slice information, the home PLMN S-NSSAI corresponding to the visited PLMN S-NSSAI corresponding to the PDN connection.
[7]
7. Method according to any one of claims 1 to 6, CHARACTERIZED by the fact that it further comprises sending, through the terminal, a capacity indication to the control plan function entity, in which the capacity indication is used for indicate that the terminal can be automatically switched to the 5G network.
[8]
8. Method, according to claim 7, CHARACTERIZED by the fact that the sending of the capacity indication to the control plan function entity comprises: sending, through the terminal through a protocol configuration option, PCO, the capacity indication for the control plan function entity.
[9]
9. Method according to any one of claims 1 to 8, CHARACTERIZED by the fact that it additionally comprises sending (303), through the terminal, a registration request to a base station, in which the registration request comprises the S- NSSAI corresponding to the PDN connection; receiving (306), by the terminal, a registration response, in which the registration response comprises NSSAI allowed from a terminal.
[10]
10. Method, according to claim 9, CHARACTERIZED by the fact that the S-NSSAI corresponding to the PDN connection are carried in a "Requested NSSAI" field of the registration request.
[11]
11. Method, according to claim 9 or 10, CHARACTERIZED by the fact that it additionally comprises selecting, by the base station, an access and mobility management function according to the S-NSSAI corresponding to the PDN connection.
[12]
12. Method according to any one of claims 1 to 11, CHARACTERIZED by the fact that the request to establish a session
PDU additionally comprises a corresponding data network name, DNN.
[13]
13. Apparatus, comprising a receiving module (501) and a sending module (502), CHARACTERIZED by the fact that: the receiving module (501) is configured to receive, from a control plan function entity during the establishment of a packet data network connection, PDN, unique network slice selection assistance information, S-NSSAI, corresponding to the PDN connection; and the sending module (502) is configured to send a packet data unit, PDU session establishment request, when transferring the PDN connection to a fifth generation network, 5G, where the PDU session establishment request comprises the S-NSSAI corresponding to the PDN connection.
[14]
14. Apparatus according to claim 13, CHARACTERIZED by the fact that the S-NSSAIs corresponding to the PDN connection are included in a protocol configuration option, PCO.
[15]
15. Device, according to claim 13 or 14, CHARACTERIZED by the fact that in a domestic roaming scenario, the S-NSSAI corresponding to the PDN connection received from the control plan function entity are S-NSSAI of public terrestrial mobile network, PLMN, domestic.
[16]
16. Apparatus, according to claim 15, CHARACTERIZED by the fact that the receiving module (501) is configured to receive, from the control plan function entity, an identifier, ID, of domestic PLMN, in which the home PLMN ID indicates that the S-NSSAI corresponding to the PDN connection received from the control plan role entity is the home PLMN S-NSSAI.
[17]
17. Apparatus, according to claim 15 or 16, CHARACTERIZED by the fact that the apparatus additionally comprises a mapping module; where: the mapping module is configured to map the domestic PLMN S-NSSAI corresponding to the PDN connection to the visited PLMN S-NSSAI corresponding to the PDN connection, where the S-NSSAI corresponding to the PDN connection comprised in the request to establish session
PDUs are the PLMN S-NSSAI visited.
[18]
18. Apparatus, according to claim 17, CHARACTERIZED by the fact that the mapping module is configured to map the domestic PLMN S-NSSAI corresponding to the PDN connection to the visited PLMN S-NSSAI corresponding to the PDN connection is specifically: mapping , based on a match between home PLMN network slice information and visited PLMN network slice information, the home PLMN S-NSSAI corresponding to the visited PLMN S-NSSAI corresponding to the PDN connection.
[19]
19. Apparatus according to any of claims 13 to 18, CHARACTERIZED by the fact that the sending module (502) is additionally configured to send a capacity indication to the control plan function entity, in which the indication Capacity is used to indicate that the device can be automatically switched to the 5G network.
[20]
20. Apparatus according to claim 19, CHARACTERIZED by the fact that the sending module (502) is additionally configured to send the capacity indication to the control plan function entity is specifically: sending, via a protocol configuration option, PCO, capacity indication for the control plan function entity.
[21]
21. Apparatus according to any one of claims 13 to 20, CHARACTERIZED by the fact that the sending module (502) is additionally configured to send a registration request to a base station, where the registration request comprises the S-NSSAI corresponding to the PDN connection; and the receiving module (501) is further configured to receive a registration response, wherein the registration response comprises NSSAI allowed from the apparatus.
[22]
22. Apparatus, according to claim 21, CHARACTERIZED by the fact that the S-NSSAI corresponding to the PDN connection are carried in a "Requested NSSAI" field of the registration request.
[23]
23. Apparatus according to any one of claims 13 to 22, CHARACTERIZED by the fact that the request to establish a PDU session additionally comprises a corresponding data network name, DNN.
[24]
24. Session establishment method, CHARACTERIZED by the fact that it comprises: sending (302), by a control plan function entity to a terminal during the establishment of a packet data network connection, PDN, service assistance information selection of single network slice, S-NSSAI, corresponding to the PDN connection; and receiving (308), by the control plan function entity, a request to establish a packet data unit session, PDU, when transferring the PDN connection to a fifth generation network, 5G, in which the request to establish PDU session comprises the S-NSSAI corresponding to the PDN connection.
[25]
25. Method, according to claim 24, CHARACTERIZED by the fact that the S-NSSAIs corresponding to the PDN connection are included in a protocol configuration option, PCO.
[26]
26. Method, according to claim 24 or 25, CHARACTERIZED by the fact that in a domestic routed roaming scenario, the S-NSSAI corresponding to the PDN connection sent to the terminal are public land mobile network S-NSSAI, PLMN, domestic.
[27]
27. Method, according to claim 26, CHARACTERIZED by the fact that it additionally comprises sending, by the control plan function entity, an identifier, ID, of domestic PLMN to the terminal, where the ID of domestic PLMN indicates that the S-NSSAI corresponding to the PDN connection sent to the terminal are the domestic PLMN S-NSSAI.
[28]
28. Method, according to any one of claims 24 to 27, CHARACTERIZED by the fact that it additionally comprises receiving, by the control plan function entity, an indication of capacity from the terminal; where the capacity indication is used to indicate that the terminal can be automatically switched to the 5G network.
[29]
29. Method, according to claim 28, CHARACTERIZED by the fact that the receipt of the capacity indication from the terminal comprises: receiving, by the control plan function entity through a protocol configuration option, PCO, capacity indication from the terminal.
[30]
30. Control plan function entity, comprising a sending module (601) and a receiving module (602), CHARACTERIZED by the fact that: the sending module (601) is configured to send to a terminal during establishment a packet data network connection, PDN, unique network slice selection assistance information, S-NSSAI, corresponding to the PDN connection; and the receiving module (602) is configured to receive a packet data unit, PDU session establishment request, when transferring the PDN connection to a fifth generation network, 5G, where the PDU session establishment request comprises the S-NSSAI corresponding to the PDN connection.
[31]
31. Control plan function entity, according to claim 30, CHARACTERIZED by the fact that the S-NSSAI corresponding to the PDN connection are included in a protocol configuration option, PCO.
[32]
32. Control plan function entity, according to claim 30 or 31, CHARACTERIZED by the fact that in a domestic routed roaming scenario, the S-NSSAI corresponding to the PDN connection sent to the terminal are network S-NSSAI public land mobile, PLMN, domestic.
[33]
33. Control plan function entity, according to claim 32, CHARACTERIZED by the fact that the sending module (601) is configured to send a domestic PLMN identifier, ID, to the terminal, where the ID Domestic PLMN S-NSSAI indicates that the PDN connection sent to the terminal is the domestic PLMN S-NSSAI.
[34]
34. Control plan function entity according to any one of claims 30 to 33, CHARACTERIZED by the fact that the receiving module (602) is additionally configured to receive a capacity indication from the terminal, in which the capacity indication is used to indicate that the terminal can be automatically switched to the 5G network.
[35]
35. Control plan function entity, according to claim 34, CHARACTERIZED by the fact that the receiving module (602) is additionally configured to receive the capacity indication from the terminal is specifically: receiving, through a protocol configuration option, PCO, the indication of capacity from the terminal.
[36]
36. Device, CHARACTERIZED by the fact that the device comprises at least one processor and a memory coupled to at least one processor; and the memory is configured to store an executable computer instruction, and when the device runs, at least one processor executes the executable computer instruction stored in memory, so that the device performs the session establishment method as defined in any one of claims 1 to 12 or claims 24 to 29.
[37]
37. Apparatus according to claim 36, CHARACTERIZED by the fact that the apparatus comprises at least one of: a terminal, a chip in the terminal or a control plan function entity.
[38]
38. Computer-readable storage media, CHARACTERIZED by the fact that it comprises an instruction, in which when the instruction is run on a computer, the computer is led to perform the method as defined in any of claims 1 to 12 or claims 24 to 29.
[39]
39. Computer program product, CHARACTERIZED by the fact that when the computer program product runs on a computer, the computer performs the session processing method as defined in any of claims 1 to 12 or claims 24 to 29.

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法律状态:
2021-12-07| B350| Update of information on the portal [chapter 15.35 patent gazette]|

优先权:

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CN201711148057.6|2017-11-17|

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CN201711148057|2017-11-17|

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PCT/CN2018/116064|WO2019096286A1|2017-11-17|2018-11-17|Session establishing method and device|

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