TW201021487A - Wireless communication system and method of implementing an evolved system attachment procedure - Google Patents

Abstract

A wireless communication system and method of implementing an evolved system attachment procedure are disclosed. The system includes a first core network and a second core network which is evolved from the first core network. A wireless transmit/receive unit (WTRU) sends an attach request message to the second core network. The second core network activates a packet data protocol (PDP) context and sends an attach accept message to the WTRU. The attach accept message includes information regarding the PDP context. The second core network constructs a session and mobility management (SMM) context for session management (SM) and mobility management (MM) for the WTRU.

Description

201021487 VI. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates generally to an evolutionary wireless communication system (e.g., Evolution. Global System for Mobile Communications (UMTS) Terrestrial Radio Access Network (E-UTRAN). More particularly, the present invention relates to a wireless communication system and method for implementing an evolved system accessory program. [Prior Art] The evolution of the third generation (3G) system provides a high data transfer rate, low potential, and support for multiple wireless access technologies. The main features of this evolutionary third-generation (3G) system include an enhanced null intermediation for more efficient higher data rate processing and optimization of traditional processing procedures to reduce the number of times the signalling program is sent and Reduce the delay of the design and optimize the network design at the same time to allow any such as Global System for Mobile Communications (GSM), Integrated Packet Radio Service (GPRS), Broadband Division Multiple Access System (WCDMA), Division of Labor Interconnect and interoperate within any open mediation of System 2000 (CDMA2000), IEEE 802.xx, and so on. Figure 1 shows the traditional Integrated Packet Radio Service (GPRS) access interface and reference point. A mobile station (MS) 102 includes a terminal equipment (TE) 104 and a mobile terminal (MT) 106, which is attached to a plurality of integrated packet radio service (GPRS) packet domain networks 108a, 108b. And further connected to a package data network. The integrated packet radio service (GPRS) packet domain network 108a, l8b implements network access control function, packet routing and transmission function, action management function, 4 201021487 network management function or logical link management function, wireless Resource management other similar features. The network access control function includes login, authentication and authentication, message filtering, packet format modification, charging data collection, operation prohibition or the like. The packet routing and transport function relay, routing, address compilation and mapping, encapsulation, tunneling, compression, encryption, ❹

The domain name of the network is served by H or other classes (four). The logic management function includes a meeting of establishing, maintaining and releasing. Figures 2A and 2B show a conventional state machine for action management (MM) for a mobile station (MS) and a service integrated packet radio service (GpRs) support node (SGSN) in Iu mode. The mobile station (MS) and service integration packet radio service support node (sgsn) may be one of a packet action management (PMM) separation state, a packet action management (PMM) connection state, and a packet action management (pMM) idle state. In the Packet Action Management (PMM) split state, there is no communication between the mobile station (MS) and the Service Integration Packet Radio Service Support Node (SGSN). In order to establish a Mobile Management (MM) context in the Mobile Station (MS) and the Service Integration Packet Radio Service Support Node (SGSN), the Mobile Station (MS) performs an Integrated Packet Radio Service (GpRS) Attachment procedure. Once the Integrated Packet Radio Service (GPRS) is added, its status changes to the Packet Action Management (PMM) connection status' and a packet is established between the mobile station (MS) and the service integration packet radio service support node (sgsn). Switch (PS) to send a connection. The Packet Switching (PS) signaling connection also releases and changes its state to Packet Action Management (pMM) idle 5 201021487 state. Integrated Packet Radio Service (GPRS) separation, packet switching (ps) attachment rejection or Routing Area Update (RAU) rejection will cause its state to change to the Packet Action Management (PMM) separation state. In the packet action management (PMM) idle state and the packet action management (pMM) connection state, the talk management (SM) state may be a start or fail state. 3A, 3B, and 3C are combined to be an attachment program 3 in a conventional integrated packet radio service (GPRS) system. As shown in FIG. 3A, a mobile station (MS) 302 transmits an attachment ◎ request message to a new service integration packet radio service support node (SGSN) 306' for initialization of the accessory program 300 (step 322). The attachment request message contains an International Mobile Subscriber Identity (IMSI) (or may be replaced by a packet Temporary Mobile Subscriber Identity (p_TMSI) and an old Route Range Identifier (RAI)), an attachment form or the like. . If the mobile station (MS) 302 identifies itself as a packet temporary mobile subscriber identity (P-TMSI), the new service integrated packet radio service support node (SGSN) 306 is from the routing range identifier (RAI). The old Service Integration Packet Radio Service Support Node (SGSN) address is derived to request the International Mobile Subscriber Identity (IMSI) of the mobile station (MS) 302 (step 324). The new Service Integration Packet Radio Service Support Node (SGSN) 306 transmits an identification request message to the old Service Integration Packet Radio Service Support Node (SGSN) 308 (step 326). The identification request message includes a packet temporary action user identification code (P-TMSI), an old route range identifier (RAI), an old packet temporary action user 6 201021487 identifier (Ρ-TMSI) signature or other analog. The old Service Integration Packet Radio Service Support Node (SGSN) 308 checks the packet for the Temporary Mobile Subscriber Identity (TM-TMSI) and transmits the Mobile Station (MS) 302 International Mobile Subscriber Identity (IMSI). The identification response message to the new service integration packet radio service support node (SGSN) 306 (steps 328 and 330). If the old service integration packet radio service support node (SGSN) 308 or the old packet temporary action ❹ user identification code (Ρ-TMSI) is not known to the mobile station (ms) 302 'the old one The Service Integration Packet Radio Service Support Node (SGSN) 308 responds with an identification response message that contains the International Mobile Subscriber Identity (IMSI), Authorization Triad, or Authorization Five-Byte. If the old service integration packet radio service support node (SGSN) 308 is not aware of the mobile station (MS) 302, or the old packet temporary mobile subscriber identity (Ρ-TMSI) does not match the store in the The old service integrates the value in the Packet Radio Service Support Node (SGSN) 308, which then causes an appropriate error in the identification response message at step 330. Respond. If the mobile station (MS) 302 is not known among the old Service Integration Packet Radio Service Support Node (SGSN) 308, the new Service Integration Packet Radio Service Support Node (SGSN) 306 transmits an identification code (ID). The request (identification code (ID) form is an International Mobile Subscriber Identity (IMSI)) to the mobile station (MS) 302 (step 334). The mobile station (MS) 302 responds with an identification code (ID) response containing the International Mobile Subscriber Identity (IMSI) of the line 201021487 mobile station (MS) 302 (step 336). If there is no action management (MM) context for the mobile station (MS) anywhere in the network, then the mobile station (MS) 302, the new service integration packet radio service support node (SGSN) 306 and a zone location recorder (HLR) 314 perform an authentication procedure (step 338). Referring to FIG. 3B, depending on the operator configuration, a selective execution of the mobile station (MS) 302, the new service integration packet radio service support node (SGSN) 306, and an equipment identification recorder (EIR) 310 can be performed. International Mobile Equipment Identity (IMEI) check procedure (step 340). If the number of the Service Integrated Packet Radio Service Support Node (SGSN) changes due to the previous Integrated Packet Radio Service (GPRS) separation, or if it happens to be the first attachment, the new Service Integration Packet Radio Service Support Node (SGSN) 306 The local location recorder (HLr) 314 is updated by transmitting an update location message to the local location recorder (HLR) 314 (step 342). The update location message includes a number of Service Consolidated Packet Radio Service Support Nodes (SGSNs), a Service Consolidation Packet Radio Service Support Node (SGSN) address, the International Mobile Subscriber Identity (IMSI) or the like. The local location recorder (HLR) 314 compares the number of service integration packet radio service support nodes (SGSNs) with a record value and transmits a cancel location message (including an International Mobile Subscriber Identity (IMSI), in the form of cancellation) to the The old service integration packet radio service support node (SGSN) 308 (step 344, step 346). The old service integration packet radio 201021487 service support node (SGSN) 308 performs a confirmation operation with a cancel location confirmation (step 348). The local location recorder (pjLR) 314 transmits an insert subscriber profile message to the new service integration packet radio service support node (SGSN) 306 'which includes an International Mobile Subscriber Identity (IMSI) and Integrated Packet Radio Service (GPRS). Subscription Profile (step 350) The new Service Integration Packet Radio Service Support Node (SGSN) 306 checks if the Mobile Station (MS) 302 is not allowed to be present in the new Route Range (RA) (step 352). The new Service Integration Packet Radio Service Support Node (SGSN) 306 facilitates the use of the Mobile Station (MS) 302 if it is not allowed to be attached to the Routing Area (RA) due to regional subscription restrictions or access restrictions. Reject the attachment request for an appropriate reason, and may reply to an Insert User Data Confirmation (including the International Mobile Subscriber Identity Identification (IMSI), a Service Integration Packet Radio Service Support Node (sgsn) range restriction message) to the local location recorder ( HLr) 314 (step 354). If the subscription check fails for other reasons, the new Service Packet Radio Service Support Node (SGSN) 306 also rejects the attachment request with an appropriate reason and replies with an Insert User Profile Confirmation (including the International Mobile Subscriber Identity) (IMSI) and reason) to the local location recorder (HLR) 314. If all checks are successful 'The new Service Integration Packet Radio Service Support Node (SGSN) 306 constructs the Action Management (MM) context for the Mobile Station (MS) 302 and replies an Insert User Profile Confirmation (contains The International Mobile Subscriber Identity (IMSI) is sent to the local location recorder (HLR) 314 (step 356, step 358). The local location recorder (HLR) 314 updates the mobility management (MM) context, 9 201021487 and transmits an update location confirmation to the new service integration packet radio service support node (SGSN) 306 (step 360, step 362) . Referring to Figure 3C, if a form of attachment specified in the attachment request indicates a combined Integrated Packet Radio Service (GPRS) / International Mobile Subscriber Identity (IMSI) attachment, a Visitor Location Recorder (VLR) should be updated. 312. The new Service Integration Packet Radio Service Support Node (SGSN) 306 transmits a location update request to a new Visitor Location Recorder (VLR) 312 (step 364). The location update request includes a new Location Range Identifier (LAI), the International Mobile Subscriber Identity (IMSI), the Number of Service Consolidated Packet Radio Service Support Nodes (SGSNs), a location update form, or the like. The new Visitor Location Recorder (VLR) 312 establishes a connection with the new Service Integration Packet Radio Service Support Node (SGSN) 306 by storing the number of Service Integrated Packet Radio Service Support Nodes (SGSNs). If the location range (LA) update occurs between the Mobile Switching Centers (MSCs), the new Visitor Location Recorder (VLR) 312 transmits an Update Location Message containing the International Mobile Subscriber Identity (IMSI) and the new The Visitor Location Recorder (VLR) is located to the local location § Recorder (HLR) 314 (step 366). The local location recorder (HLR) 314 transmits a cancel location message to the old visitor location recorder (vLR) 316 (step 368). The old visitor location recorder (VLr) 316 confirms with a cancel location confirmation (step 370). The local location recorder (HLR) 314 transmits an Insert User Profile (containing the International Mobile Subscriber Identity (IMSI) and User Profile) to 201021487 the new Visitor Location Recorder (VLR) 312 (step 372). The new Visitor Location Recorder (VLR) 312 confirms with an Insert User Profile Confirmation (step 374). After completing the Mobile Switch Center (MSC) location update procedure, the Home Location Recorder (HLR) 314 utilizes an update location confirmation to respond to the new Visitor Location Recorder (VLR) 312 (step 376). The new Visitor Location Recorder (VLR) 312 utilizes a Location Update Accept message (including the Visitor Location Recorder (VLR) Temporary Mobile Subscriber Identity (TMSI)) to respond to the new Service Integration Packet Radio Service Support Node. (SGSN) 306 (step 378). The new Service Integration Packet Radio Service Support Node (SGSN) 306 transmits an Attachment Accept message to the Mobile Station (MS) 302 (step 380). The attachment acceptance message includes a packet Temporary Action User Identification Number (P-TMSI), Visitor Location Recorder (VLR) Temporary Mobile User Identification Number (TMSI), Packet Temporary Mobile User Identification Number (p_TMSI) signature, and Radio Priority Short Message Service (SMS). The mobile station (MS) 302 then replies an attachment completion message to the new service integration packet radio service support node (SGSN) 306' and the new service integration packet radio service support node (SGSN) 306 transmits a temporary mobile user A brown (TMSI) redistribution completion message is identified to the new visitor location recorder (VLR) 312 (steps 382, 384). Figure 4 is a diagram of a conventional state machine for meeting management (SM). A Integrated Packet Radio Service (GPRS) subscription subscribes to one or more Packet Data Protocol (PDP) addresses. Each Packet Data Agreement (Pdp) address is a member of the contents of a Packet Data Agreement (PDP). The Packet Data Association 11 indicates that the data transfer to the Packet Data Protocol (pDp) address can be made. When the packet data protocol (PDP) context is initiated, the packet data protocol (PDP) state changes from a failed state to a boot state. The startup state is changed to a failure state after the failure procedure is initialized, or when the action management (MM) state changes to the packet action management (PMM) idle state or the packet action management (PMM) separation state. In the failed state, the data service for the mobile station (MS) specific packet data protocol (PDP) address is not activated, and the packet data protocol (ΙΌΡ) text is not included for processing and the packet Data Protocol (pDp) Address-related packet data protocol (PDP) protocol data units (PDIJs) routing or mapping information. In the start-up state, the Packet Data Protocol (PDP) context for the use of the Packet Data Protocol (PDP) address is used in the Mobile Station (MS), the Service Integration Packet Radio Service Support Node (SGsn) and the Integrated Packet Radio. The service gateway support node (ggsn) is started. The packet data protocol (PDP) contains a protocol for transmitting packet data at the mobile station (Ms) and the service integration packet radio service support node (SGS> ❿ Packet Data Protocol (PDP) address' (pD^) Mapping and routing information for Protocol Data Units (PDUs). Only when the Mobile Station (MS) Action Management (MM) is in the Packet Action Management (pmm) idle state or Packet Action Management (PMM) The startup state is permitted. Fig. 5 is a flow chart of a conventional packet data protocol (PDP) context initiation program 5〇〇. The mobile station (MS) 302 transmits a start packet data protocol (PDP) context request message to a Service Integration Packet Radio Service Support Node (SGSN) 306 (step 502). The Boot Packet Data Protocol (pDp) 12 201021487 The context request message includes a Packet Data Protocol (PDP) format, a Packet Data Protocol (PDP) address, An Access Point Name (APN), Request Quality of Service (QoS), protocol configuration options, or other similar information. The Service Integration Packet Radio Service Support Node (SGSN) 306 verifies the activation seal. The Data Protocol (PDP) context request selects an Access Point Name (APN) and maps the Access Point Name (APN) to an Integrated Packet Radio Service Gateway Support Node (GGSN) 310 (step 504). The service integrated packet radio service support node (SGSN) 306 transmits a Create Packet Data Protocol (PDP) context request message to the integrated packet radio service gateway support node (GGSN) 310 (step 506). The packet data protocol is established (step 506). The PDP) context request message contains a packet data protocol (PDP) format, a packet data protocol (PDP) address, an access point name (APN), negotiation service quality (Q〇S), and tunneling endpoint identification code. (TEID), charging characteristics or other similar information. The Integrated Packet Radio Service Gateway Support Node (GGSN) 310 creates a new entity in its Packet Data Agreement® (PDP) text table and replies to a packet data. The protocol (PDP) text is replied to the service integration packet radio service support node (SGSN) 306 (step 508). The packet data protocol (PDP) context response message includes a tunneling endpoint identification Code (TEID), a packet data protocol (PDP) address, protocol configuration options, negotiation service quality (Q〇S), payment identification (ro), or other similar information. Radio Access Bearer (RAB) settings Executing (step 510) in the mobile station (MS) 302, the radio access network (RAN) 304, and the service integration packet radio service support node (SGSN) 306. At 13 201021487

In the Iu mode' and if the basic service set (BSS) is tracked to the active state, the service integrated packet radio service support node (SGSN) 306 can transmit a summoning tracking message to the wireless access network (RAN) 304 (step 512). ). The service integrated packet radio service support node (SGSN) 306 can notify the integrated packet radio service gateway support node (GGSN) 310 about the degraded service quality (QoS) by transmitting an Update Packet Data Protocol (PDP) context request. ) characteristics (step 514). The integrated packet radio service gateway support node (GGSN) 310 confirms the new service quality by transmitting an update packet data protocol (PDP) context response to the service integration packet radio service support node (SGSN) 306 ( QoS) characteristics (step 516). The Service Integrated Packet Radio Service Support Node (SGSN) 306 inserts the Integrated Packet Radio Service Gateway Support Node (GGSN) address in its Packet Data Protocol (PDP) context (step 518). If the action 坫 (MS) 302 has requested a dynamic address, the Packet Data Protocol (PDP) address received from the Integrated Packet Radio Service Gateway Support Node (GGSN) 310 is inserted into the Packet Data Protocol (PDP). ) in the text. The service integrated packet radio service support node (SGSN) 306 selects a radio priority and a packet flow identifier based on the negotiated quality of service (QoS), and replies a start packet data protocol (PDP) context accept message to the mobile station (MS) 302 (step 520). The Boot Packet Data Protocol (PDP) context acceptance message includes a Packet Data Agreement (PDP) format, a Packet Data Agreement (PDP) address, a Transaction ID (TI), Negotiated Quality of Service (QoS), Radio Priority, Packet flow identification code, agreement configuration selected 201021487 or other similar information. If the mobile station (MS) 3〇2 capability specified in the mobile station (10) network is unable to support the basic service set (Bss) = package = order '(4) the service integration package new service support node) 306 The packet stream identifier is not included. [Summary of the Invention]

= related to the wireless communication system and method for implementing the evolution system accessory program. The wireless communication system includes a - core network (in other words, a 'traditional third generation partner (3Gpp) core network) and a ^

Road (in other words, the evolution of the core network), the second core network core secrets evolved. After the Weihuachun Evolutionary Wireless 2 Round/Receive Unit (WTRU) operation is initiated, it transmits a modified request message to the evolved core network. Once received, the evolutionary core network will be the third generation of the same (the same turn as specified in the 3G ^ cattle program (eg, authentication, authorization, line ^ = or other similar functions). The network then initiates the Packet Data Protocol (PDP) context action (for the assignment/configuration of the WTRU's Pre-Land Agreement (Ip) address). After the Internet Protocol (ιρ) configuration process is completed, (the packet (four) mosquito (PDP) heart is activated), the evolutionary core "weekly transmits (4) new time to receive the message to the WTRU to the WTRU) The new attachment accept message contains information about the contents of the Packet Data Association (PDP) (eg, Internet Protocol (1) address, Internet Protocol (IP) version (in other words, version 4 or 6) Version), access point name UPN) information, quality of service (q〇s) 15 201021487 = Other similar information). The evolution is also structured as the network - talks and actions SMM β text 'for the wireless transmission /Receiver Unit (WTRU) Talk Management (SM) and Action Tube Rational (μμ). According to the first and the action management _ state can be based on the transmission and charging of the second generation of partner-based (3Gpp)-based action management

(MM) is different from the Talk Management (SM) state (in the first-core 'network). The Talk Management (SM) and the Action Management (Cong) according to the present invention secretly handle the Internet communication age (IP) address allocation of the WTRU. If the WTRU is in the connected state, the Internet Protocol = Protocol (IP) address is assigned. If no Internet Protocol (ip) address is assigned, the wireless carrier/receiving unit (WTRU) is in a separate state (in other words, 'not available or offline'). In accordance with the present invention, the WTRU state (availability) is related to the Internet Protocol (Ip) address assignment. The state transitions between the action management (MM) states also change accordingly. [Embodiment] _ after β inflammatory to the term "wireless transmission / receiving unit (wtru), when it is included in the user equipment (UE), mobile station (ms), solid type or sway User unit, call H, or any form of device having the ability to operate in a wireless environment. Features of the invention may also be integrated into a two-in-one circuit (IC) or in a circuit comprising a plurality of interconnect components Figure 6 is a diagram of an exemplary evolution system 600 comprising a 16 201021487 evolutionary global mobile communication system terrestrial wireless access network (Ε-UTRAN) and an evolutionary core network (CN) in accordance with the present invention. 600 includes an access system layer 610, a network layer 620, and a multimedia layer 630. The access system layer 610 includes a plurality of radio access networks (RANs), a core network (CN) 616, and an evolutionary core. Network (CN) 617. The Radio Access Network (RANs) includes a Universal Access Network (GAN) 611, a Global System for Mobile Communications (GSM) / Global System for Mobile Communications Evolution Enhanced Data Rate (EDGE) radio Access network

(GERAN) 612, a Global System for Mobile Communications Terrestrial Radio Access Network (UTRAN) 613, an Evolutionary Global System for Mobile Communications, Terrestrial Radio Access Network (E-UTRAN) 614, and an interlaced wireless local area network (lwlanmm. The Radio Access Networks (RANs) 611-615 are connected to the Core Network (CN) 616 or the Evolution Core Network (CN) 617 to provide services (such as from an Internet Protocol (IP)). Multimedia Subsystem (IMS) 631 multimedia service) to one or more WTRUs and simultaneously through an integrated packet radio service gateway support node (GGSN) 618 or a packet data gateway (PDG) 619, interacting with an authentication, authorization and account (AAA) server 621, a mobile internet protocol (Mlp) server 622, or other network entity in the network layer 62. An illustration of the high-level functions of the core network of the evolution system according to the present invention. The network access and gateway rail protocol (Ip) connection_wei, control registration, authentication and authorization, permission, message display, packet format adjustment, receipt collection Operator mosquito Stop or other similar Wei. The thief packet transmission function controls the relay, routing, bit (four) translation mapping, domain, wear and tear, compression encryption, domain name generalizer or other classes _ Wei. The logical link management function 17 201021487 can then control the establishment, maintenance and release of the talks. Figures 8A and 8B show state machines for talk and action management (SMM) according to the present invention. The WTRU and the evolved system core It may be one of the action management (MM) separation and talk management (Sm) failure status, the action management (MM) connection and the talk management (SM) start status, and the action management (MM) idle and talk management (SM) start status. In the Action Management (MM) Separation and Talk Management (SM) failure state, there is no communication between the WTRU and the evolved system core. After the evolution of the attachment, the talks are The Action Management (SMM) status is changed from the Action Management (MM) Separation and Talk Management (SM) Failure Status to the Action Management (MM) Connection and Talk Management (SM) Activation Status. In the (sac) connection and talk management (SM) startup state, a ^switch (PS) signaling connection is established between the WTRU and the evolved system core. When the connection is managed in the action When the talk and management (SMM) state is changed to the action management (MM) idle and talk management (SM) startup state, the packet switching (PS) signaling connection is released. When in the action ^❹ 匪(匪) Idle and Talk Management (SM) start state towel, change the Talk and Action Management (SMM) status to Action Management (MM) Connection and Talk Management (10)) A packet switching (ps) signaling connection is established. Evolutionary system separation, packet switching (ps) attachment rejection, or radio access technology (RAT) handover rejection will result in the change of the talk and action management (SMM) state to action management (MM) separation and conference management (SM) failure status. . Figures 9A through 9C are flow diagrams of an evolution system attachment and recording program 1000 in accordance with the present invention. A WTRU transmits an attachment request message to a new core network (CN) 1006 (in other words, the evolved core network (CN)) using 201021487 (step 1 〇 22) to initiate initialization of the nearby program plane . The attachment request message contains an International Mobile Subscriber Identity (either a Temporary Mobile Subscriber Identity (P_TMSI) and an Old Route Range Identifier (RAI), an attachment form, or other similar information. If the WTRU identifies that it has the Packet Temporary Mobile Subscriber Identity (P-TMSI), the new Core Network (CN) Views the routing range identifier ((4)) derived - The old service integrates the Packet Radio Service Support Node (SGSN) address to request International Mobile Subscriber Identity (IMSI) information for the WTRU 1002 (step 1024). The new core network (CN) 1〇〇6 transmits an identification request message to the old service integration packet scale service support_(SGSN) plane (step 1026). The identification request message includes a packet temporary action user identification code (P-TMSI), an old route range identifier (RAI), an old packet temporary line (4) household code (P_TMSI) signature, or the like information. . The old service integration packet radio service support node (SGSN) 1〇〇8 checks the packet for the temporary mobile subscriber identity (p_TMSI) and transmits an authentication response message to the new core network (CN). 〇6 (Steps 1〇28, Step 1030). If the wireless transmission is known in the old Service Integration Packet Radio Service Support Node (SGSN) 1008, the receiving unit (WTRU) 1〇〇2, the old service integration packet radio service support node (SGSN) 1〇〇8 Respond to the authentication response message, which includes the International Mobile Subscriber Identity (IMSI), Authorized Two-Group or Authorized Five-Digit. If the old service integration packet radio service support node (SGSN) 1〇〇8 is not aware of the absence of the 201021487 line transmission/reception unit (WTRU) 1002' or the old packet temporary mobile subscriber identity (P) -TMSI) does not conform to the value stored in the old Service Integration Packet Radio Service Support Node (SGSN) 1008, which is in step 1030, in the old service integration packet radio service support node (SGSN) 1008, The authentication response message responds with an appropriate error. If the WTRU 1 〇〇 2 is not known among the old Service Integration Packet Radio Service Support Node (SGSN) 1 〇〇 8, the new core network (CN) 1 GG 6 transmits - Identification request (identification form = International Mobile Subscriber Identification Code (IMSI)) to the WTRU 1 〇〇 2 (step 1032, step 1034). The WTRU 1 〇〇 2 then responds with an appropriate acknowledgment response including the WTRU dirty carrier identification (IMSI). If there is no mobile communication/reception unit (WTRU's Mobility Management (MM) context in the network, then the radio transmission/reception single 7L (WTRU) 1002, the new core network ( CN) 1〇〇6 and the location of the area ^H recorder (HLR) 1G14 implementation-authentication step (step 1Q38). ❹ According to the operator configuration, the wireless transmission/reception single s (wtru) i〇〇 2. The new core network (CN) allows a device identification recorder (eir) ι〇ι〇27 to implement a 1-line comparison code (ιμΕΙ) check procedure (step if the new write-off The number of (CN) varies depending on the most (four) pieces or if it happens to be the first-attachment, the new core network (cn) 6 uses the transfer-update location message to the local location recorder. 4, update the local location recorder (hlr) i〇i "step purchase". 20 201021487 The update location message contains a core network (CN) number, core network (CN) address, the international action User Identification Number (IMSI) or other similar information. The local location recorder (HLR) 1014 compares the core using records The number of networks (CN), and transmitting a canceled address message (including an International Mobile Subscriber Identity (IMSI), and a cancellation form) to the old Service Integrated Packet Radio Service Support Node (SGSN) 1008 (step 1044, step 1046) The old service integration packet radio service support node (SGSN) 1008 confirms by using a β acknowledgment address confirmation (step 1048). The local location logger (Hlr;) 1014 transmits an insertion user profile message (including The International Mobile Subscriber Identity (IMSI), User Profile, a Packet Data Protocol (PDP) format, a Packet Data Protocol (PDP) address, an Access Point Name (ApN), Request Quality of Service (QoS), allowed Accessing the Public Land Mobile Network (vpLMN) or other similar information) to the new Core Network (CN) 1006 (Step 1〇5〇). The new Core Network (CN) 1006 checks the WTRU Whether WTRU (WTRU) 10 〇 2 is allowed to exist in the new routing range (RA) (step 1052). If the area is restricted by usage or access restrictions, the WTRU is enabled (W) TRU) is not allowed to be attached to the routing range (RA). The new core network (CN) 1〇〇6 rejects the attachment request for an appropriate reason and can reply with an insert user profile confirmation (including The International Mobile Subscriber Identity (IMSI), core network (cn) range restriction message) to the local location recorder (HLR) 1〇14 (step 1〇54). If the usage check fails for other reasons, The new nuclear circuit (CN)(10)6 also uses the appropriate reason to reject the attachment request and replies (including the international mobile subscriber ID (detail) and reason) to the book = 21 201021487 Recorder (HLR) 1014 . If the ancient identification is too good, and some of the checks are successful, the new core network (CN) 1006 is constructed for the wireless transmission/reception unit (10) difficult to implement (SMM) 岐, Kai _ packet data agreement (Delete the text (step 嶋), and reply to an insert user # material confirmation (including the International Line_IMS), the Packet Data Agreement (pDp) form, a Packet Data Protocol (PDP) address, and a An access point name (ApN), a wear-through endpoint identifier (TEID) or the like) to the local location recorder (HLR) 1014 (step 1〇58). The local location recorder (hlr) (9)* Update the female action management (SMM) mosquito and transmit-update location confirmation to the new core network (CN) 1〇〇6 (step brain, step touch). If specified in the attachment request The attachment form specifies a combined evolutionary Global System for Mobile Communications terrestrial Radio Access Network (E_UTRAN) / International Mobile Subscriber Identity (IMSI) attachment, which should be updated with a Visitor Location Recorder (VLR). The new core network (CN) 1〇〇6 sends a location update request to a new visit Location Recorder (VLR) 1012 (steps 1 - 64). The location update request includes a new Location Range Identifier (LAI), the International Mobile Subscriber Identity (IMSI), a number of core networks (CN), location updates. Form or other similar information. The new Visitor Location Recorder (VLR) 1〇12 is established between the new core network (CN) 1〇〇6 by storing the number of core networks (CN). If the location range (LA) is updated between the Mobile Switching Centers (MSCs), the new Visitor Location Recorder (VLR) 1012 transmits an Update Location Message (containing the International Mobile Subscriber Identity (IMSI)). And the new visitor location recorder (VLR) to the local location recorder (HLR) 1〇14 (step 22 201021487 step 1066). The local location recorder (HLR) 1014 transmits a cancel location message to the old The Visitor Location Recorder (VLR) 1016 (step 1〇68). The old Visitor Location Recorder (VLr) 1〇16 is confirmed with a Cancel Location Confirmation (step 1070).

The local location recorder (HLR) 1014 transmits an Insert User Profile (containing the International Mobile Subscriber Identity (IMSI) and User Profile) to the new Visitor Location Recorder (VLR) 1012 (step 1072). The new Visitor Location Recorder (VLR) l〇i2 confirms with an Insert User Profile Confirmation (step 1074). After completing the action switching center (MSC) location update procedure, the local location recorder (HLR) 1〇14 uses an update location confirmation to respond to the new visitor location recorder (VLR) 1〇12 (steps) 1〇76). The new Visitor Location Recorder (VLR) 1〇12 uses a location update accept message (including the Visitor Location Recorder (VLR) Temporary Mobile User Identification Code (TMSI)) to respond to the new core network ( CN) 1006 (step 1078).

= WTRU interface, full-fine communication system 1 terrestrial wireless access network (Cong AN) and the new core network (CN) 6 implementation - wireless access bearer circuit ( RA (p. 1080). In the 士^, 疋桎 疋桎 sequence (: the mobile communication system land wireless access network (UTRAN) secret transmission to the wireless inclusion - packet temporary H 2 (step deletion). When the attachment accepts the message 14仃_户_码(P-TMSI), then location note 23 201021487 Recorder (VLR) Temporary Action User ID (TMSI), Packet Temporary Action User ID (P-TMSI) signature, a package Data Agreement (pDp) form, a Packet Data Agreement (PDP) address, Transaction ID (TI), Quality of Service (Q〇s), Wireless Priority, Packet Flow Identifier, and Packet Data Protocol (PDP) configuration or other similar The attachment accept message may also include an internet protocol (IP) address. The WTRU 1 〇〇 2 then replies an attachment completion message to the new core network (CN) 1006, and the new core network (CN) 1006 transmits a Temporary Mobile Subscriber Identity (TMSI)分配 Assigning a completion message to the new Visitor Location Recorder (VLR) 1〇12 (steps 1086, 1088). Table 1 shows an example of information members (IEs) included in the Attach Message Order in accordance with the present invention. Introducing a new information ffis (ffis), which is shown in bold in Table 1. The attachment is accepted by the core network (CN) and transmitted to the no-wei unit (wmu) to correct the relative

Should be near the request. As noted above, the attachment acceptance message may also include an Internet Protocol (IP) address.

24 201021487 Attachment Acceptance Message Identification Message Type Μ V 1 Attachment Result Attachment Result Μ V 1/2 Forced Standby Forced Standby V 1/2 Periodic Route Range (RA) Update Timer Integrated Packet Radio Service (GPRS) Timer Μ V 1 Radio Priority Short Message Service (SMS) Wireless Priority Radio Priority Μ V 1/2 TOM8 Radio Priority Radio Priority 2 Μ V 1/2 Routing Area Identification Routing Area Identification Μ V 6 19 Packet Temporary Action User Identification Code (P-TMSI) Signature Packet Temporary Action User ID (P-TMSI) Signature 0 TV 4 17 Negotiation (READY) Timer Value Integration Packet Radio Service (GPRS) Timer 0 TV 2 25 201021487 18 Assignment Packet Temporary Action User ID (P-TMSI) Action ID 0 TLV 7 23 Mobile Station (MS) Logo Action Logo 〇 TLV 7-10 25 Integrated Packet Radio Service Action Management (GMM) Cause GMM Cause 0 TV 2 2A T3302 Value Integrated Packet Radio Service (GPRS) Timer 2 〇TLV 3 8C Cell Notification Cell Notification 〇T 1 4A Equivalent Access to Public Land Mobile Network ( PLMNs) Access to Public Land Mobile Network (PLMN) List 0 TLV 5-47 B- Network Feature Support Network Feature Support 0 TV 1 34 Emergency Number List Emergency Number List 0 TLV 5-50 A- Request Mobile Station (MS) Information Request Mobile Station (MS) Information 0 TV 1 201021487 ❹

2B 34

Negotiation Logical Chain Control (LLC) Service Access Point Identifier (SAPI Logical Chain Control (LLC) Service Access Point Identifier Μ

V Negotiation Quality of Service (QoS) Wireless Priority Service Quality Wireless Priority Μ Μ

LV 13-15

V 1/2 spare half octet spare half octet Μ

V 1/2 Packet Data Protocol (PDP) Address Protocol Configuration Options Packet Data Protocol Address Protocol Configuration Options Ο Ο

TLV

TLV 4-20 3-253 Packet Flow Identifier Packet Flow Identifier Table 1 Ο

TLV if the WTRU has completed the packet data protocol (PDP) form of the Internet Protocol (Ip Request - PDP) context of the address of the address ^ This = accept message The packet data protocol (PDp) address information member is included. When the core network (CN) wishes to transfer the data (for example, configuration parameters, error codes or messages/events) to the WTRU (wtru) When the attachment accepts the message, it contains the member of the newsletter. If the core network (CN) wants to copy the packet flow identifier associated with the text of the packet data agreement (10) p), the message receiving the message includes the Listen _ knowledge to become 27 201021487 members. If the WTRU does not indicate PFC program support in the pfc feature mode domain of the WTRU network capability information member, the core network (CN) should not contain Member of this information. If the WTRU does not specify pFC program support, it should ignore this information member when it receives.交 The Negotiation Logical Link Control (LLC) Service Access Point Identifier (SApi), Negotiation Quality of Service (Q〇S), rogue first heterogeneous half octet, is used to map the service using the correct β and 疋Information members to the correct endpoints in the network. The Negotiation Logical Link Control (LLC) Service Access Point Identifier (SApi) indicates the WTRU, the Evolutionary Global System for Mobile Communications (LTE), and the evolved core network. (cn) Service access point identification in both. This ensures that traffic for a particular service can be routed through the same node in the = junction and downlink bonding. Negotiation service quality source, 0 ** is used for the characteristic group of the traffic flow, which specifies the assigned resource 'feet + = law, & quality, bit error rate, agreement data unit (PDU) ^ similar News. The wireless priority information member is in the data service category of the wireless access network (RAN). In the specific combination, the features of the preferred embodiment and the cow may be used alone and not with other self-contained knots of the preferred embodiment or with other features and elements of the invention or alone 28 201021487 Brief Description] The first picture shows the traditional integrated packet radio (GPRS) access interface and reference diagram. Figures 2A and 2B show a traditional state machine for action management (MM). The 3A to 3C diagrams are detailed, and are a flow chart of the conventional packet switching (ps) attachment and the __ sequence. Figure 4 is a diagram of a conventional state machine for meeting management.

Figure 5 is a flow chart of the traditional packet data protocol (8) p). Figure 6 is a diagram showing the evolution of the Fu-Evolution System, which includes the evolved Global System for Mobile Communications terrestrial wireless access network (E-Net and Evolutionary Core Network (rw 〇 Figure 7 is an evolution according to the present invention) according to the present invention. Graphical representation of the core network high-level functions. Figures 8A and 8B show state machines for talk management (s) in accordance with the present invention. To the 9C figure, the evolution system attachment and recording bed according to the present invention is shown. 66 pain map. 29 201021487 [Main component symbol description] MS mobile station TE terminal device MT mobile terminal 300 program UTRAN Global mobile communication system terrestrial wireless access network SGSN service integration packet radio moon shirt support node EIR device identification recorder VLR Visitor Location Recorder HLR Local Location Recorder IMSI International Mobile Subscriber Identity E-UTRAN Evolution Global Mobile Communications System Terrestrial Radio Access Network RAN Wireless Access Network GGSN Integrated Packet Radio Service Gateway Support Node 600 Evolution System 610 Access System Layer GAN Universal Access Network GERAN Global System for Mobile Communications / Global Mobile Communications Enhanced data transfer rates of evolution radio access Internet multimedia communication network 619 packet data gateway FA 621 server MDPHA mobile Internet protocol agreement server IMS subsystem 1000 program

30 201021487 wtru wireless transmission/reception unit

31

Claims (1)

201021487 VII. Patent Application Range: 1. A device for wirelessly transmitting/receiving a single s (WTRU), the device comprising: sending an attachment request message for a network attachment; receiving a response bribe request m attachment accepting message, The attachment accept message includes a packet data protocol for the WTRU (address and transmission or reception using the SHP PDP address). ❹ 2·, as described in the application of the patent, the attachment request message Including an International Mobile Subscriber Identity (IMSI). 3. The method of claim i, wherein the accessory request message includes a packet temporary mobile subscriber identity (p_TM perimeter identifier (RAI). The method of claim </ RTI> includes, in addition, the WTRU performs an authentication procedure. 5. The method of claim </ RTI> </ RTI> includes the following: (face) inspection procedure. 6: The method described in item 1 of the second section, which makes the attachment request message specify an attachment form. Month 帛#6 item 财法法's bribery form specification letter system (UMTS) land Attachment of the wireless access network (E-UTRAN). 8·如ΓΓSpecial item 6 of the financial method, in which the form of the crane is specified (4)% (UMTS) (4) Money Access Network (E-UTRAN) and IMSI Accessories The method of claim 1, wherein the attachment acceptance message comprises a PDP format, a PDP address, a transaction identifier (TI), a quality of service (QoS), a wireless priority. At least one of a packet flow identifier and a PDP configuration. 10. The method of claim 1, further comprising: the WTRU constructing a talk and action management (SMM) context for the WTRU's Talk Management (SM) and Operations Management (MM). 33