M302836 八、新型說明: 新型所屬之技術領域 本創作與一種逐漸成型的無線通信系統(例如逐漸成 型的通用移動電信系統(UMTS)陸地無線接入網路 (E-UTRAN))有關。尤其是,本創作與一種實施進化系 統附件程序的無線通信系統有關。 先前技術 一第三代系統的演進系統的演進過程中提供了 一更高 的數據率、更低的潛在因素以及支援多個無線接入技術 (radio access technologies,RATs)。這個進化的 3G 系統的 主要特徵包含一增強大氣介面(air interface)以更有效率 地處理更高的數據率,並且最佳化傳統的處理程序以降低 發送信號程序的次數以及減少設定的延遲,以及最佳化網 % 路的设計以允許任何大氣介面(例如,移動通信的全球標 準(GSM)、通用分組無線服務(GPRS)、寬頻碼分多址 (WCDMA)、CDMA2000 或 IEEE 802·χΧ 等)之内的互相 連結與相互操作。 第1圖表示一傳統的通用分組無線服務接入介面以及 茶考點。-移動站(Ms) 1〇2包含一終端設備(te)舰 以及一移動終端(ΜΤ) 106,該移動站1〇2繫於多個通用 分組無線服務的分組領域網路1〇8a、1〇8b中,而且進一步 連接到一分組數據網路110。該分組領域網路1〇如、1〇訃 實施-網路接人控_魏、—封包路由及傳送的功能、 M302836 、,動性官理的功能、_邏輯連結管理的功能、一無線資 源官理的功能、-網路管理的功能或其他類似的功能。 。亥網路接人控制功能包含登人、認證及授權、允許控 制、信息篩選、分組格式修改、收費數據選擇、操作者決 定的禁止或類似的功能等。該封包路由及傳送的功能包含 中繼、路由、位址編譯及映射、封裝、穿燧、壓縮、加密、 主要名稱饲服裔(domain name server )或其他類似的功能。 該邏輯連結管理的功能包含建立、維持與釋放一連接對話。 第2A圖與第2B圖表示一 iu模式下,習知的用於一移 動站及一服務的通用分組無線服務(GPRS)所支援的節點 (SGSN)的移動性管理的狀態機器。該移動站(MS)與 該服務的通用分組無線服務所支援的節點(SGSN)可能是 一分組移動管理(PMM)解除連結狀態、一 PMM連結狀 態以及一 PMM閒置狀態其中之一。在該PMM解除連接狀 態下,該MS與該SGSN之間不會有任何通信產生。為了 在該MS與該SGSN之間建立分組管理的連結,該娜實 施一 GPRS連結程序。一旦GPRS連結之後,狀態就會轉 變成PM1V[連結狀態,而一分組切換(PS)的發送連接則 建立於該MS與該SGSN之間。一 PS的發送信號連結也會 釋放出將該狀態改變成PMM閒置狀態。GPRS解除連結、 PS連結拒絕或路由區域更新(RAU)拒絕會造成狀態改變 成PMM解除連結狀態。在PMM閒制與PMM連結狀態 下,該對話管理(sessionmanagement, SM)狀態可以是啟 動或不啟動的狀態。 M302836 第3A圖、第3B圖及第3C圖結合起來是一傳統的 GPRS系統中的連結程序300的一發送信號圖。如第3A圖 中所示,一移動站302通過傳送一連結請求信息到一新的 SGSN 306以初始化該連結程序3〇〇 (步驟切)。該連結請 求系信包含一國際移動站用戶標識符(IMSI)(或者是可以 替換成一分組暫時移動用戶標識符(P-TMSI)及一舊的路 由區域辨識符(R^J))、一連結類型或其他類似物。 饭如該移動站302識別本身是分組暫時移動用戶標識 符,所述新的SGSN 306從該路由區域辨識符推導出一舊 的SGSN位置,以請求該移動站3〇2的國際移動站用戶標 識符資訊(步驟324)。所述新的SGSN 306傳送一識別請 求信息到一舊的SGSN 308 (步驟326)。該識別請求信息 ,含=分組暫時移動用戶標識符、一舊的路由區域二^ 符、舊的分組暫時移動用戶標識符或其他類似的辨識符。 所述舊的SGSN 308對該紀錄檢驗該分組暫時移動用戶標 識付並且傳送▲移動站302具有國際移動站用戶標識符的 一識別回應信息到該新的SGSN 3〇6 (步驟328及步驟 330)。假如該移動站302認識所述舊的SGSN3〇8,該舊的 SGSN 308回應一識別回應信息,該識別回應信息包含該 IMSI、杈權二套件或授權五套件。假如該移動站3〇2不認 識所述售的SGSN 308或舊的P-TMSI不能和儲存在所述 售的SGSN308中的值匹配的話,該舊的SGSN3〇8在該步 驟330的識別回應信息中回應—適當的錯誤原因。 假如移動站302不被舊的SGSN 3〇8所認識,該新的 M302836 SGSN306傳送—標識符UD)請求(id類型為IMSI)到 忒移動站302 (步驟334)。該移動站302回應一辨識符回 應’该辨識符回應包含該移動站302的imSI (步驟336)。 假如/又有该移動站的移動性管理的内文存在於網路内 部時’一認證的程序將會由該移動站302、新的sgsn 306 以及一家鄉位置寄存器(HLR)314開始實施(步驟338)。 明參閱第3B圖,根據一操作者組態,一國際移動設備 • 標識符(IMEI)檢驗程序可以選擇性地由該移動站302、 新的SGSN 306以及一設備識別寄存器(mR) 31〇所實施 (步驟340)。假如該sgSN數已經因為上一個GpRS解除 連結而改變,或假如這是不平常的頭一個連結,那麼所述 新的SGSN 306通過傳送一更新位置信息到該家鄉位置寄 存裔(HLR)314以更新該家鄉位置寄存器(见幻州(步 驟342 )。所述更新位置信息包含一 SGSN數、一 SGSN位 置、該國p祭移動站用戶標識符(IMSI)或類似的資料。 • 家鄉位置寄存器(HLR) 316以紀錄值比較該 SGSN 數迸且傳送一信道位置信息(包含〗…^〗,取消類型)到舊 的SGSN 308 (步驟344及步驟346)。所述舊的SGSN以 一取消位置確認(ACK)來進行確認(步驟撕卜該服以 314傳送一插入用戶數據信息,包含1]^§1及(}1)1^使用數 據,給新的SGSN 306 (步驟350 )。 新的SGSN 306檢驗該移動站302在新的路由區域 (RA)中疋否被允許(步驟352)。如果因為區域性的使用 限制或接入限制使得該移動站3〇2不允許接入該^中 M302836 日守所述的新SGSN3〇6以一適當的原因拒絕該連結請求, 並且可能回傳一插入用戶數據ACK (包含IMSI、一 SGsn 品或限制仏息)到4HLR3M (步驟354)。假如該檢驗因 為其他原因而失敗,則該新SGSN 306也會以一適當的原 因拒絕該連結請求,並且插人用戶數據AC/(包含 IMSI以及一原因)到該HLR314 (步驟3m)。假如所有的 檢驗都是成功的,該新SGSN 306為該移動站3〇2建立一 移動性官理的内文並且回傳一插入用戶數據ACK (包含 IMSI)到該 HLR314 (步驟 356 及步驟 358)。該 HLR314 更新該移動性管理内文並且傳送一更新位置ACK到新的 SGSN 306 (步驟 360、362)。 請參閱第3C圖,假如在該連結請求中所指示的連結類 型顯示出是一結合的GPRS/IMSI連結,一訪問者位置寄存 器(VLR)應該被更新。所述的新的SGSN 3〇6傳送一位 置更新請求給一新的VLR 312 (步驟364)。該位置更新請 求包含一新的LAI、IMSI、一新的SGSN數、一位置更新 類型或類似的資訊。 該新的VLR 312通過儲存該SGSN數而創造與該新 SGSN 306的一連結。假如該位置區域(LA)更新是内部 移動切換中心(MSC),新的VLR 312傳送一更新位置信 息(包含IMSI以及一新的VLR)到該HLR314(步驟366)。 該HLR 314傳送一取消位置信息到該舊的VLR316 (步驟 368)。該舊的VLR以一取消位置ACK進行確認(步驟 370)。 10 M302836 該HLR 314傳送一插入用戶數據信息(包含IMSI以 及用戶數據)到該新的VLR312 (步驟372)。該新的VLR 312以一插入用戶數據ACK進行確認(步驟374 )。在截速 該内部MSC位置更新程序後,該HLR 314回應一更新位 置ACK到該新的VLR 312 (步驟376)。該新的VLR 312 回應一位置更新接受信息(包含VLRTMSI)到新的SGSN 306 (步驟 378)。 鲁 该新的SGSN傳送一連結接受信息給該移動站3〇2(步 驟380 )。該連結接受信息包含一 p-TMSI、一 VLR TMsi、 P-TMSI識別標諸以及無線優先權sms。該移動站302隨 後回傳一連結完成信息給該新的SGSN 306並且該新的 SGSN 306傳送一 TMSI重新分配完成信息給該新的VLR 312 (步驟 382、384)。 第4圖是對話管理的一傳統狀態機器。一 GpRS使用 資訊包含一個或多個分組數據的協定(PDP)位置的認同。 春 母一個PDP位置是一 PDP内文的一元素。該pdp狀態指 示數據的傳送是否可用於該PDP位置。當PDP内文啟動 時’該PDP狀態從一非啟動的狀態轉變成一啟動的狀態。 而當無效的程序開始時,或者是當移動性管理狀態改變成 是PMM閒置的狀態或者是PMM解除連結的狀態時,前述 的啟動狀態就會改變成非啟動的狀態。 在非啟動的狀態下,對該移動置的某一特定PDP位置 的服務是沒有啟動的而且該PDP内文沒有包含與該pdp 位址相關的處理PDP協定數據單元(pdUs )的路由或映射 11 M302836 資汛在啟動的狀恶下’該PDP位置所使用的PDP内文在 該移動站、SGSN以及閘道GPRS支援的節點GGSB中被 啟動。遠PDP Θ文包含在該移動站與該GGSN之間的該特 定位置轉換PDP PDUs㈣映射與路由資訊。所述的起 動狀態只有在所述移動站的移動性管理狀態是PMM閒置 狀態或者是PMM連結狀態時才會允許產生。M302836 VIII. New Description: New Technology Area This creation relates to a gradual form of wireless communication system, such as the gradual formation of the Universal Mobile Telecommunications System (UMTS) Terrestrial Radio Access Network (E-UTRAN). In particular, this creation relates to a wireless communication system that implements an evolutionary system accessory program. Prior Art The evolution of an evolutionary system of a third generation system provides a higher data rate, lower latency, and support for multiple radio access technologies (RATs). The main features of this evolutionary 3G system include an enhanced air interface to handle higher data rates more efficiently, and to optimize traditional processing to reduce the number of times the signal is sent and to reduce set delays. And optimize the network % path design to allow any atmospheric interface (eg, Global Standard for Mobile Communications (GSM), General Packet Radio Service (GPRS), Wideband Code Division Multiple Access (WCDMA), CDMA2000, or IEEE 802. Interconnection and interoperability within. Figure 1 shows a conventional general packet radio service access interface and tea test site. - Mobile Station (Ms) 1 〇 2 comprises a terminal equipment (te) ship and a mobile terminal (ΜΤ) 106, which is connected to a packet domain network 1 〇 8a, 1 of a plurality of general packet radio services In 〇8b, and further connected to a packet data network 110. The group domain network 1, for example, 1〇讣 implementation - network access control _ Wei, - packet routing and transmission functions, M302836, dynamic government functions, _ logical link management functions, a wireless resource The function of the government, the function of network management or other similar functions. . The access control functions of the network include login, authentication and authorization, admission control, information filtering, packet format modification, charge data selection, operator-determined prohibition or similar functions. The packet routing and delivery functions include relay, routing, address compilation and mapping, encapsulation, puncturing, compression, encryption, domain name server or other similar functions. The function of the logical link management includes establishing, maintaining and releasing a connection dialog. Figs. 2A and 2B show a state machine for the mobility management of a node (SGSN) supported by a general packet radio service (GPRS) for a mobile station and a service in an iu mode. The mobile station (MS) and the node (SGSN) supported by the general packet radio service of the service may be one of a packet mobility management (PMM) unlink state, a PMM link state, and a PMM idle state. In the unconnected state of the PMM, no communication occurs between the MS and the SGSN. In order to establish a packet management connection between the MS and the SGSN, the system implements a GPRS connection procedure. Once the GPRS is connected, the state transitions to PM1V [link state, and a packet switch (PS) transmit connection is established between the MS and the SGSN. A PS signal connection will also release the change of this state to the PMM idle state. GPRS Unlink, PS Link Reject, or Route Area Update (RAU) rejection will cause the status to change to the PMM Unlink status. In the PMM idle and PMM link state, the session management (SM) state may be a state of starting or not starting. M302836 Combinations 3A, 3B and 3C are a transmission signal diagram of the connection procedure 300 in a conventional GPRS system. As shown in Fig. 3A, a mobile station 302 initializes the link procedure by transmitting a link request message to a new SGSN 306 (step cut). The link request message includes an International Mobile Station User Identifier (IMSI) (or may be replaced by a Packet Temporary Mobile Subscriber Identifier (P-TMSI) and an old Routing Area Identifier (R^J)), a link Type or other analogue. If the mobile station 302 identifies itself as a packet temporary mobile subscriber identifier, the new SGSN 306 derives an old SGSN location from the routing area identifier to request the international mobile station subscriber identity of the mobile station 3. Information (step 324). The new SGSN 306 transmits an identification request message to an old SGSN 308 (step 326). The identification request information includes a packet temporary mobile user identifier, an old routing area identifier, an old packet temporary mobile user identifier, or other similar identifier. The old SGSN 308 checks the packet temporary mobile subscriber identity for the record and transmits ▲ the mobile station 302 has an identification response message with the international mobile station subscriber identifier to the new SGSN 3.6 (steps 328 and 330). . If the mobile station 302 recognizes the old SGSN 〇8, the old SGSN 308 responds with an identification response message containing the IMSI, the second suite or the authorized five suite. If the mobile station does not recognize that the sold SGSN 308 or the old P-TMSI cannot match the value stored in the sold SGSN 308, the old SGSN3 8 identifies the response in step 330. Respond - the appropriate cause of the error. If the mobile station 302 is not recognized by the old SGSN 3〇8, the new M302836 SGSN 306 transmits an identifier UD) request (id type IMSI) to the mobile station 302 (step 334). The mobile station 302 responds with an identifier response 'the identifier response containing the imSI of the mobile station 302 (step 336). If there is/there is the mobile management's mobility management context existing inside the network, the 'authenticated procedure will be implemented by the mobile station 302, the new sgsn 306 and a home location register (HLR) 314 (steps) 338). Referring to FIG. 3B, an International Mobile Equipment•Identifier (IMEI) verification procedure can be selectively performed by the mobile station 302, the new SGSN 306, and a device identification register (mR) 31 according to an operator configuration. Implemented (step 340). If the sgSN number has changed due to the last GpRS de-link, or if this is an unusual first link, then the new SGSN 306 updates by transmitting an updated location information to the Home Location Host (HLR) 314. The home location register (see Magic State (step 342). The updated location information includes an SGSN number, an SGSN location, a national mobile station user identifier (IMSI) or the like. • Home Location Register (HLR) 316 compares the number of SGSNs with the recorded value and transmits a channel location information (including </ RTI> </ RTI>, cancels the type) to the old SGSN 308 (steps 344 and 346). The old SGSN is acknowledged with a canceled location ( ACK) to confirm (step to tear the service 314 to transmit an insert user data information, including 1]^§1 and (}1) 1^ usage data, to the new SGSN 306 (step 350). New SGSN 306 Verifying that the mobile station 302 is not allowed in the new routing area (RA) (step 352). If the mobile station 3〇2 is not allowed to access the M302836 day due to regional usage restrictions or access restrictions Keep the new SG SN3〇6 rejects the link request for an appropriate reason and may return an Insert User Data ACK (containing IMSI, an SGsn or restricted message) to 4HLR3M (step 354). If the test fails for other reasons, The new SGSN 306 will also reject the link request for an appropriate reason and insert the user data AC/ (including the IMSI and a reason) to the HLR 314 (step 3m). If all the checks are successful, the new The SGSN 306 establishes a mobility official context for the mobile station 〇2 and returns an Insert User Data ACK (including IMSI) to the HLR 314 (steps 356 and 358). The HLR 314 updates the mobility management context. And transmitting an update location ACK to the new SGSN 306 (steps 360, 362). Referring to Figure 3C, if the link type indicated in the link request indicates a combined GPRS/IMSI link, a visitor location The register (VLR) should be updated. The new SGSN 3〇6 transmits a location update request to a new VLR 312 (step 364). The location update request includes a new LAI, IMSI, and a new SGSN number. , Location update type or similar information. The new VLR 312 creates a link to the new SGSN 306 by storing the number of SGSNs. If the location area (LA) update is an internal mobile switching center (MSC), the new VLR 312 An update location information (including the IMSI and a new VLR) is transmitted to the HLR 314 (step 366). The HLR 314 transmits a cancel location information to the old VLR 316 (step 368). The old VLR is acknowledged with a Cancel Location ACK (step 370). 10 M302836 The HLR 314 transmits an Insert User Data message (containing the IMSI and user data) to the new VLR 312 (step 372). The new VLR 312 confirms with an Insert User Data ACK (step 374). After intercepting the internal MSC location update procedure, the HLR 314 responds with an update location ACK to the new VLR 312 (step 376). The new VLR 312 responds to a location update accept message (including VLRTMSI) to the new SGSN 306 (step 378). The new SGSN transmits a link accept message to the mobile station 3〇2 (step 380). The link accepting information includes a p-TMSI, a VLR TMsi, a P-TMSI identification tag, and a radio priority sms. The mobile station 302 then transmits a link completion message to the new SGSN 306 and the new SGSN 306 transmits a TMSI reassignment completion message to the new VLR 312 (steps 382, 384). Figure 4 is a traditional state machine for dialog management. A GpRS usage information contains the identity of one or more packet data (PDP) locations. A PDP position in Spring is an element of a PDP text. The pdp status indicates whether the transfer of data is available to the PDP location. When the PDP context is started, the PDP state transitions from a non-activated state to an activated state. When the invalid program starts, or when the mobility management state changes to a state in which the PMM is idle or the PMM is unlinked, the aforementioned startup state is changed to the non-activated state. In the non-initiated state, the service for a particular PDP location for the move is not initiated and the PDP context does not contain a route or map for processing PDP protocol data units (pdUs) associated with the pdp address. M302836 The PDP context used by the PDP location is activated in the mobile station, the SGSN, and the gateway GPRS-supported node GGSB. The far PDP message includes the specific location conversion PDP PDUs (4) mapping and routing information between the mobile station and the GGSN. The starting state is allowed to be generated only when the mobility management state of the mobile station is the PMM idle state or the PMM link state.
第5圖表示一傳統PDP内文啟動程序5〇〇的流程圖。 • 該移動站302傳送一啟動咖内文請求信息到—SGSN 306 (步驟502 )。該啟動PDP内文請求信息包含一 pDp類 型、PDP位置、一接入點名稱(apn)、所請求的品質 服務(QoS )、協定組態選擇或者是類似的資訊。該SGSN 3〇6 確認該啟動PDP内文請求,選擇一 APN並且映射該APN 到一 GGSN 310 (步驟 504)。 該SGSN傳送一創造PDP内文請求信息到該GGSN 310 (步驟506)。所製造的PDP内文請求信息包含一 PDP 0 類型、一 PDP位置、一 APN、協商的品質服務、一 TEID、 收費特性或其他類似資訊。該GGSN 310在其PDP内文表 中創造一新的實體並且回傳一創造PDP内文回應到該 SGSN 306 (步驟508)。該創造PDP内文回應信息包含一 TEID、一 PDP位置、協定組態選擇、協商的Q〇S、收費的 ID或類似的資訊。Figure 5 is a flow chart showing a conventional PDP context initiation program. • The mobile station 302 transmits a initiate coffee request message to the SGSN 306 (step 502). The initiating PDP context request information includes a pDp type, a PDP location, an access point name (apn), a requested quality of service (QoS), a protocol configuration selection, or the like. The SGSN 3〇6 acknowledges the initiation of the PDP context request, selects an APN and maps the APN to a GGSN 310 (step 504). The SGSN transmits a Create PDP context request message to the GGSN 310 (step 506). The created PDP context request information includes a PDP 0 type, a PDP location, an APN, a negotiated quality service, a TEID, a charging feature, or the like. The GGSN 310 creates a new entity in its PDP context table and returns a Create PDP context response to the SGSN 306 (step 508). The Create PDP context response message includes a TEID, a PDP location, a protocol configuration selection, a negotiated Q〇S, a charging ID, or the like.
無線接入承載電路(RAB)設定在該移動站302、該 RAN 304以及SDSN 306之間實施(步驟510)。在Iu模式 下以及如果基礎服務組(BSS )追蹤啟動的情況下,該SGSN 12 M302836 306可以傳送一召喚追蹤信息到該RNA 304 (步驟512)。 該SGSN 306可以通過傳送一更新PDP内文請求通知該 GGSN310關於降級的QoS成分(步驟514)。該GGSN310 通過傳送一更新PDP内文回應到該SGSN 306以確認新的 QoS成分(步驟516)。A radio access bearer (RAB) setting is implemented between the mobile station 302, the RAN 304, and the SDSN 306 (step 510). In the Iu mode and if the Basic Service Set (BSS) tracking is initiated, the SGSN 12 M302836 306 can transmit a summoning trace to the RNA 304 (step 512). The SGSN 306 can notify the GGSN 310 of the degraded QoS component by transmitting an Update PDP context request (step 514). The GGSN 310 responds to the SGSN 306 by transmitting an Update PDP context to confirm the new QoS component (step 516).
該SGSN 306在該PDP内文中插入該GGSB位置(步 驟518)。假如該移動站302請求一動態的位置,從該GGSN 鲁 310接收的該PDP位置會被插入於該PDP内文中。該SGSN 306根據協商的Q〇s選擇無線優先權以及分組流id,並且 回傳一開啟PDP内文接受信息到該移動站3〇2 (步驟 520 )。該啟動PDP内文接受信息包含一 pDp類型、一 pDp 位址、一事務標識符(TI)、協商的Qos、無線優先權、一 分組流ID、協定組態選擇或類似的資訊。假如該移動站3〇2 指示該移動站網路容量他不支援BSS分組流程序,該犯版 306隨後不應該包含該分組流ID。 新型内容 本創作是關於一種用於實施進化系統附件程序的益線 f信系統,所述無線通信系統包括—第—核,路(亦即 傳統3GPP核心網路)與一第二核心網路 :;,其進化自所述第一核心網路。在進行接收時化 相同程序(例如:認證、授權、移動管理·中所2明的 述進化核心網路則啟動PDP内文(WTRU *接著所 u失致IP位址的 13 M302836The SGSN 306 inserts the GGSB location in the PDP context (step 518). If the mobile station 302 requests a dynamic location, the PDP location received from the GGSN 430 will be inserted into the PDP context. The SGSN 306 selects the radio priority and the packet stream id based on the negotiated Q〇s, and returns a PDP context accept message to the mobile station 3〇2 (step 520). The initiating PDP context accepting information includes a pDp type, a pDp address, a transaction identifier (TI), a negotiated Qos, a radio priority, a packet stream ID, a protocol configuration selection, or the like. If the mobile station 3 指示 2 indicates the mobile station network capacity that he does not support the BSS packet flow procedure, the pirate 306 should then not include the packet flow ID. The present invention relates to a benefit line f-system for implementing an evolved system accessory program, the wireless communication system comprising - a first core, a road (ie a traditional 3GPP core network) and a second core network: ;, it evolved from the first core network. In the process of receiving the same procedure (eg, authentication, authorization, mobility management, etc.), the evolved core network initiates the PDP context (WTRU * followed by the IP address of the 13 M302836)
分配與組態)。在成功完成IP組態(PDP内文啟動)择斧 之後,所述進化核心網路發送新附件接受信息至戶斤述 WTRU’所述新附件接受信息包括關於PDP内文的資訊(IP 位址、IP版本(即V4或v6)、APN資訊、Q〇s••等);所 述進化核心同樣建構一對話(SM)與移動管理(mm) (SMM)内文,以用於所述WTRU的SM與讀。根據 本創作的SM與MM狀態採用對WTRU整體操作的];p位 址分配;如果WTRU在連接中,則分配IP位址,若未分 配IP位址,則WTRU便處於分離狀態(即分離或關機)。 根據本創作,所述WTRU狀態(有效性)是根據Ip位址 的分配而定,因而改變MM狀態之間的狀態轉移。 實施方式 在下文中,術語「WTRU」包括但不限於一使用 者設備(UE)、一 MS、一固定或移動用戶單元、一 呼叫器、或是任何可以在無線環境中進行操作的其他 類型裝置。 本創作的特徵可以併入一集成電路(1C)中,或 是配置在包含多種内連接組件的電路中。 第6圖說明了本創作的進化系統600的一種實施 方式,其中所述進化系統600包括一進化通用移動電 信糸統陸地無線接入網(E-UTRAN )與' —進化核心 網路(CN)。所述進化系統600包括一接入系統層 610、一網路層620與一多媒體層630 ;所述接入系 14 M302836 統層610包括多個無線接入網(RANs)、一 CN616 與一進化CN617 ;所述raNs包括一通用接入網 (GAN) 611、一 GSM/EDGE 無線接入網(GERAN) 612、一 UTRAN613、一 e_UTRAN614 與一交織無線 區域網路(I-WLAN) 615。所述無線接入網611-615 連接至所述CN616或所述進化CN617,以於經由一 GGSN618或一分組數據閘道(PDG) 619而與一認證 • 授權與記數(AAA)伺服器6Ή、一移動IP (MIP) 祠服态622或位於所述網路層620中的其他網路實體 進行互動ΗτΓ ’ φς:供服務(例如來自一網際網路協定多 媒體次系統631的多媒體服務)至一或多個WTRUS。 第7圖說明了本創作的進化系統核心網路高層級 功能。網路接入與IP連接控制功能控制了登入、認 證與授權、許可、信息顯示、分組格式適配、充電數 據收集、運算符決定終止等;分組路由與傳送功能控 鲁 制了中繼(reay)、路由、位址轉譯與映射、包封、 调整、壓縮、編密、區域名稱伺服等;邏輯鏈結管理 功能則控制對話的建立、維持與釋放。 第8A圖與第8B圖說明了本創作的狀態機器, 其用於對話與移動管理(SMM)。WTRU與進化系統 核〜可以是一移動管理分離與對話管理閒置狀態、一 移動答理連接與對話管理有效狀態、以及一移動管理 無效與對話管理有效狀態的其中一個。在所述移動管 理刀離與對話管理閒置狀態中,WTRU與進化系統核 15 M302836 心之間沒有通信,在進化系統附件之後,SMm狀態 便從移動管理分離與對話管理閒置狀態改變成移動 官理連接與對話管理有效狀態;在所述移動管理連接 與對話管理有效狀態中,WTRU與進化系統核心之間 會建立一 PS發信連接;在移動管理連接與對話管理 有效狀態中,一 PS發信連接釋放會改變SMM狀態 為移動管理無效與對話管理有效狀態;而在移動管理 無效與對話管理有效狀態中,一 PS發信連接建立會 改變SMM狀態為所述移動管理連接與對話管理有效 狀悲。進化系統分離、PS附件拒絕或内部RAT交遞 拒絕會使S Μ Μ狀態改變為所述移動管理分離與對話 管理閒置狀態。 第9Α圖至第9C圖說明了本創作的進化系統附 件與登入的流程1000。WTRU1002經由傳送一個附 件請求信息至一新CN1006 (亦即進化CN)而起始 附件流程1 〇〇〇 (步驟1022 )’所述附件請求信息包括 一國際移動用戶標識符(IMSI;或是一分組_臨時移 動用戶標識符(P-TMSI)與一舊RAI)、一附件類塑· · · 等;若所述WTRU1002以P-TMSI標識其本身,所述 新CN1006便從所述RAI得到一舊SGSN位址,以請 求所述WTRU1002的IMSI資訊(步驟1024);所述 新CN1006發送一識別請求信息至所述舊sGSNl〇〇8 (步驟1026) ’所述識別請求信息包括p-TMSI、舊 RAI、舊 P-TMSI 簽章···等。 16 M302836 所述舊SGSN1008檢驗P-TMSI對比記錄,並發 送一識別響應信息至所述新CN1006 (步驟1028、步 驟1030)。如果所述WTRU1002於所述舊SGSN1008 中是已知的,則所述舊SGSN1008以所述識別響應信 息進行響應,其中所述識別響應信息包括IMSI、認 證三套件或認證五套件;如果所述WTRU1002於所 述舊SGSN1008中不是已知、或是所述舊p_tmsi與 儲存在所述舊SGSN1008中的值不相符,則所述舊 SGSN1008於步驟1030中以所述識別響應信息甲的 一適當錯誤原因進行響應。如果所述WTRU1002於 所述舊SGSN1008中是未知的,則所述新CN1006發 送一標識符(ID )請求(ID類型=IMSI )至所述 WTRU1002(步驟 1032、步驟 1034),所述 WTRU1002 接著會以一個包括所述WTRU1002的IMSI的標識符 響應來進行響應(步驟1036)。 如果在網路中的任何一處都不存在所述 WTRU1002的MM内文,則所述WTRU1002、所述 新CN1006與一 HLR1014便執行一認證程序(步驟 1038);所述 WTRU1002、所述新 CN1006 與一 EIR1010可視運算符組態而任意執行IMEI檢驗程序 (步驟 1040 )。 如果所述新CN已因最新系統附件而改變、或其 為非常第一附件,則所述新CN1006便經由發送一更 新位置信息至所述HLR1014而對其進行更新(步驟 17 M302836 1042);所述更新位置信息包括CN數、CN位址、 IMSI...等。 所述HLR1014比較CN數與記錄,旅發送一消除 位置信息(包括IMSI、消除類型)至所述舊SGSN1008 (步驟1044、步驟1046),所述舊SGSN1008以一消 除位置ACK進行認可(步驟1〇48);所述HLR1014 發送一插入用戶數據信息(包括IMSI、用戶數據、 • PDP類型、PDP位址、ΑΡΝ、QoS、受訪公眾陸地移 動網(VPLMN)允許··.等)至所述新CN1006 (步驟 1050)。 所述新CN1006檢驗在新RA中所述WTRU1002 是否不被允許(步驟1052)。如果所述WTRU1002 因其區域性用戶限制或接入限制而不被允許附件於 所述RA中,則所述新CN1006便以一適當原因拒絕 所述附件請求,並可回傳一插入用戶數據ACK (包 • 括IMSI、CN區域限制信息)至所述HLR1014(步驟 1054);如果所述用戶檢驗因其他原因而失敗,則所 述新CN1006也同樣會以一適當原因拒絕所述附件請 求,並回傳一插入用戶數據ACK(包括IMSI與原因) 至所述HLR1014 ;如果所有的檢驗都成功,則所述 新CN1006便建構所述WTRU1002的SMM内文、啟 動所述PDP内文(步驟1056)並圉傳一插入用戶數 據ACK (包括IMSI、pdp類型、POP位址、APN、 TEID…等)至所述HLR1014 (步驟1〇58)。所述 18 M302836 HLR1014更新SMM内文並發送一更新位置ACK i 所述新CN (步驟1060、步驟1062)。 如果所述附件請求中所指示的附件類型代表/ 組合E-UTRAN/IMSI附件,則應更新一 VLR。所述 新CN1006發送一位置更新請求至一新VLR1012(步 驟1064),所述位置更新請求包括新LAI、IMSI、CN 數、位置更新類型…等。 所述新VLR1012經由儲存所述CN數而與所述新 CN1006產生關聯;如果所述LA更新是内部移動切 換中心(MSC)、則所述新VLR1012便發送一更新位 置信息(包括IMSI與新VLR)至所述HLR1014 (步 驟1066)。所述HLR1014發送一消除位置信息至一 舊VLR1016 (步驟1068),所述舊VLR1016則以一 消除位置ACK進行認同(步驟1〇7〇)。 所述HLR1014發送一插入用戶數據信息(包括 IMSI與用戶數據)至所述新VLR1012 (步驟1072), 所述新VLR1012以一插入用戶數據ACK進行認同 (步驟1074);在完成内部MSC位置更新程序之後, 所述HLR1014以一更新位置ACK而響應所述新 VLR1012(步驟1076);所述新VLR1012以一位置更 新接受信息(包括VLR TMSI)而對所述新CN1006 響應(步驟1078)。 在所述 WTRU1002、UTRAN1004 與新 CN1006 之間執行RAB設定程序,於iu模式中、且當啟動 19 M302836 BSS追縱日守’戶斤述新CNi〇〇6便發送-調用追蹤信息 至所述 UTRAN1004 (步驟 1082)。 新CN1006發送一附件接受信息至所述 WTRU10〇2(步驟1084 ),所述附件接受信息包括Assignment and configuration). After successfully completing the IP configuration (PDP context boot), the evolved core network sends a new attachment accepting information to the WTRU's new attachment acceptance information including information about the PDP context (IP address) , IP version (ie V4 or v6), APN information, Q〇s••, etc.); the evolutionary core also constructs a conversation (SM) and mobility management (mm) (SMM) context for the WTRU SM and read. According to the present SM and MM state, the WTRU is operated as a whole; the IP address is allocated; if the WTRU is in the connection, the IP address is allocated, and if the IP address is not allocated, the WTRU is in a separated state (ie, separated or Shut down). According to the present author, the WTRU state (validity) is based on the allocation of the Ip address, thus changing the state transition between the MM states. Embodiments In the following, the term "WTRU" includes, but is not limited to, a User Equipment (UE), an MS, a fixed or mobile subscriber unit, a pager, or any other type of device that can operate in a wireless environment. Features of the present work may be incorporated into an integrated circuit (1C) or in a circuit that includes a plurality of interconnect components. Figure 6 illustrates an embodiment of an evolutionary system 600 of the present invention, wherein the evolutionary system 600 includes an evolved universal mobile telecommunications system terrestrial radio access network (E-UTRAN) and an "evolutionary core network (CN) . The evolution system 600 includes an access system layer 610, a network layer 620, and a multimedia layer 630. The access system 14 M302836 system layer 610 includes a plurality of radio access networks (RANs), a CN616, and an evolution. CN173; the raNs include a universal access network (GAN) 611, a GSM/EDGE radio access network (GERAN) 612, a UTRAN 613, an e_UTRAN 614, and an interlaced wireless area network (I-WLAN) 615. The radio access network 611-615 is coupled to the CN 616 or the evolved CN 617 for accessing an authentication, authorization, and accounting (AAA) server via a GGSN 618 or a packet data gateway (PDG) 619. a mobile IP (MIP) service state 622 or other network entity located in the network layer 620 interacts with a service (eg, a multimedia service from an Internet Protocol Multimedia Subsystem 631) to One or more WTRUS. Figure 7 illustrates the high-level functionality of the core system of the evolutionary system of this creation. Network access and IP connection control functions control login, authentication and authorization, licensing, information display, packet format adaptation, charging data collection, operator decision termination, etc.; packet routing and transmission function control is relayed (reay) ), routing, address translation and mapping, encapsulation, adjustment, compression, encryption, area name servo, etc.; logical link management function controls the establishment, maintenance and release of dialogue. Figures 8A and 8B illustrate the state machine of the present author for dialog and mobility management (SMM). The WTRU and the evolved system core may be one of a mobility management separation and session management idle state, a mobile answering connection and a session management active state, and a mobility management invalidation and session management active state. In the mobility management knife and session management idle state, there is no communication between the WTRU and the evolution system core 15 M302836. After the evolution system attachment, the SMm state is changed from the mobility management separation and the session management idle state to the mobile administration. The connection and the session management are in an active state; in the mobile management connection and the session management active state, a PS signaling connection is established between the WTRU and the evolved system core; in the mobile management connection and the session management active state, a PS is sent The connection release changes the SMM state to the mobility management invalidation and the session management active state; and in the mobility management invalidation and the session management active state, a PS signaling connection establishment changes the SMM state to the mobility management connection and the session management validity. . Evolutionary system separation, PS attachment rejection, or internal RAT handover rejection will change the S Μ state to the mobility management separation and dialog management idle state. Figures 9 through 9C illustrate the evolutionary system attachment and login process 1000 for this author. The WTRU 1002 initiates an Attachment Flow 1 (step 1022) by transmitting an Attachment Request message to a new CN 1006 (ie, Evolution CN). The Attachment Request Information includes an International Mobile Subscriber Identifier (IMSI; or a packet) a Temporary Mobile Subscriber Identifier (P-TMSI) and an old RAI), an attachment type, etc.; if the WTRU 1002 identifies itself as a P-TMSI, the new CN 1006 obtains an old from the RAI SGSN address to request IMSI information of the WTRU 1002 (step 1024); the new CN 1006 sends an identification request message to the old sGSN 101 (step 1026) 'The identification request information includes p-TMSI, old RAI, old P-TMSI signature, etc. 16 M302836 The old SGSN 1008 checks the P-TMSI comparison record and sends an identification response message to the new CN 1006 (step 1028, step 1030). If the WTRU 1002 is known in the old SGSN 1008, the old SGSN 1008 responds with the identification response information, wherein the identification response information includes an IMSI, an authentication triple suite, or an authentication five suite; if the WTRU 1002 If the old SGSN 1008 is not known, or the old p_tmsi does not match the value stored in the old SGSN 1008, the old SGSN 1008 uses the appropriate error reason for identifying the response information A in step 1030. Respond. If the WTRU 1002 is unknown in the old SGSN 1008, the new CN 1006 sends an identifier (ID) request (ID Type = IMSI) to the WTRU 1002 (step 1032, step 1034), and the WTRU 1002 will then The response is responded with an identifier response including the IMSI of the WTRU 1002 (step 1036). If the MM context of the WTRU 1002 does not exist anywhere in the network, the WTRU 1002, the new CN 1006, and an HLR 1014 perform an authentication procedure (step 1038); the WTRU 1002, the new CN 1006 The IMEI verification procedure is arbitrarily performed with an EIR 1010 visual operator configuration (step 1040). If the new CN has changed due to the latest system attachment, or is a very first attachment, the new CN 1006 updates it by sending an update location information to the HLR 1014 (step 17 M302836 1042); The updated location information includes the CN number, the CN address, the IMSI, and the like. The HLR 1014 compares the CN number with the record, and the brigade sends an erasure location information (including IMSI, cancellation type) to the old SGSN 1008 (step 1044, step 1046), and the old SGSN 1008 recognizes with a location ACK (step 1〇). 48); the HLR 1014 sends an insert user data information (including IMSI, user data, • PDP type, PDP address, ΑΡΝ, QoS, visited public land mobile network (VPLMN) allowed, etc.) to the new CN1006 (step 1050). The new CN 1006 checks if the WTRU 1002 is not allowed in the new RA (step 1052). If the WTRU 1002 is not allowed to attach to the RA due to its regional user restrictions or access restrictions, the new CN 1006 rejects the attachment request for an appropriate reason and may return an inserted user data ACK (including IMSI, CN area restriction information) to the HLR 1014 (step 1054); if the user check fails for other reasons, the new CN 1006 will also reject the attachment request for an appropriate reason, and Returning an inserted user data ACK (including IMSI and cause) to the HLR 1014; if all the checks are successful, the new CN 1006 constructs the SMM context of the WTRU 1002, and initiates the PDP context (step 1056) And inserting a user data ACK (including IMSI, pdp type, POP address, APN, TEID, etc.) to the HLR 1014 (step 1〇58). The 18 M302836 HLR 1014 updates the SMM context and sends an update location ACK i the new CN (step 1060, step 1062). If the attachment type indicated in the attachment request represents/combines the E-UTRAN/IMSI attachment, then a VLR should be updated. The new CN 1006 sends a location update request to a new VLR 1012 (step 1064), the location update request including a new LAI, IMSI, CN number, location update type, and the like. The new VLR 1012 is associated with the new CN 1006 by storing the CN number; if the LA update is an internal mobile switching center (MSC), the new VLR 1012 sends an updated location information (including the IMSI and the new VLR). ) to the HLR 1014 (step 1066). The HLR 1014 sends a clear location information to an old VLR 1016 (step 1068), and the old VLR 1016 authenticates with a clear location ACK (step 1〇7〇). The HLR 1014 sends an Insert User Data message (including IMSI and User Data) to the new VLR 1012 (step 1072), the new VLR 1012 agrees with an Insert User Data ACK (step 1074); after completing the internal MSC location update procedure Thereafter, the HLR 1014 responds to the new VLR 1012 with an update location ACK (step 1076); the new VLR 1012 responds to the new CN 1006 with a location update accept message (including VLR TMSI) (step 1078). Performing an RAB setting procedure between the WTRU 1002, the UTRAN 1004, and the new CN 1006, in the iu mode, and when the 19 M302836 BSS is tracked, the subscriber sends a call to the UTRAN 1004. (Step 1082). The new CN 1006 sends an attachment accepting information to the WTRU 10 〇 2 (step 1084), the attachment acceptance information including
P-TMSI、VLR TMSI、P_TMSI 簽章、PDP 類型、PDP 位址、TI、QoS、無線優先權、分組流ID、PDP組態… 等,所述附件接受信息也可以包括IP位址;接著, 鲁 所述WTRU1002便回傳一附件完全信息至所述新 CN1006,且所述新CN1006發送一 TMSI重新分配信 息至所述新VLR1012 (步驟1086、步驟1088)。 表1是根據本創作的附件接受信息中所含的資訊 元件(IEs)的例子,而根據本創作所產生的新IEs 則以粗體字蜇標示於表1中。所述附件接受信息是由 CN發送至所述WTRU ’以指示對應的附件請求已經 被接受。如上所述’所述附件接收^息也可包括ip • 位址。 表1是根據本創作的附件接受信息中所含的資訊P-TMSI, VLR TMSI, P_TMSI signature, PDP type, PDP address, TI, QoS, wireless priority, packet flow ID, PDP configuration, etc., the attachment acceptance information may also include an IP address; The WTRU 1002 returns an attachment complete message to the new CN 1006, and the new CN 1006 sends a TMSI reassignment message to the new VLR 1012 (step 1086, step 1088). Table 1 is an example of the information elements (IEs) contained in the attachment acceptance information according to the present creation, and the new IEs generated according to the present creation are indicated in bold in Table 1. The attachment accepting information is sent by the CN to the WTRU' to indicate that the corresponding attachment request has been accepted. As mentioned above, the attachment receiving information may also include an ip address. Table 1 is the information contained in the attachment acceptance information according to this creation.
元件(IEs)的例子’而根據本創作所產生的新IES w伊千於表1中。所述附件接受信息是由 則以粗體字娄私π趴界The example of the component (IEs) and the new IES w produced according to the present creation are in Table 1. The attachment accepts the information, and then confuses the boundary in bold
CN發送至所述WTRU,以指示對應的附件請求已經 被接受。如上所述,戶斤述附件接收信息也可包括IP 位址。 2〇 M302836 IEI _ 貧訊元件 '〜 類型/參考 存在 格式 長度 又判別 一 協定判別 Μ V 1/2 syk - am ------ 桃堆ί日不符 跳躍指示符 Μ V 1/2 息標識符 信息類型 Μ V 1 附件結果 〜 附件結果 Μ V 1/2 強制待機 強制待機 Μ V 1/2 週期性RA更新計時器 GORS計時器_ Μ V 1 無線優先權 ~Μ~ ~ν 1/2 T0M8無線優先彳j^^ 無線優先權2 Μ V 1/2 路由區域識別 — 路由區域識別 Μ V 6 — 19 P-TMSI 簽章 ^ P-TMSI簽章 0 TV 4 17 協商READY計時琴 值 口 GPRS計時器 0 TV 2 18 ^ 己的 P-TMSI ^ —--- 移動標識符 0 TLV 7 23 MS標識符 移動標識符 ο TLV 7-10 25 GMM原因 GMM原因 0 TV 2 2A T3302值 ~ GPRS計時器2 ο TLV 3 8C 胞元通知 胞元通知 ο T 1 4A 等效PLMNs — PLMN清單 ο — TLV 5-47 B- 網路特徵支持 1 網路特徵支持 ^ 0 TV 1 34 緊急數清單 緊急數清單 0 TLV 5-50 A- 請求MS資訊 請求MS資訊 0 TV 1 協商LLC SAPI LLC服務接入點標識 符 Μ V 1 協商QoS 服務品質(QoS) Μ LV 13-15 無線優先權 無線優先權 Μ v 1/2 備用半八套件 備用半八套件 Μ v 1/2 2B PDP位址 分組數據協定位址 ---— 0 TLV 4-20 27 協定組態選項 協定組態選項 ----— ο TLV 3-253 34 分組流標識符 分組流標識符 0 ------ TLV 3 表1 當WTRU已經請求以PDP類型Ipv4或ιρν6來 啟動所述PDP内文與動態定址時,所述附件接受信 息便包栝PDP位址IE。當CN希望傳送協定數據 如組態參數、錯誤碼或信息/事件)時,所述附件接 M302836 受信息便包括協定組態選項IE°當CN欲指示與PDP 内文相關的分組流ID時,所述附件接受信息便包括 分組流ID IE。如果WTRU未指示WTRU網路容量 IE的PFC特徵模式欄位中的PFC程序支持,則CN 便不應包括此一 IE。如果WTRU未指示PFC程序支 持,那麼其於接收時應忽略此一1E。The CN sends to the WTRU to indicate that the corresponding attachment request has been accepted. As mentioned above, the subscriber receiving information may also include an IP address. 2〇M302836 IEI _ poor component '~ type/reference existence format length and discriminate an agreement discriminator Μ V 1/2 syk - am ------ peach pile ί day does not match jump indicator Μ V 1/2 information identifier Symbol type Μ V 1 Attachment result ~ Attachment result Μ V 1/2 Forced standby forced standby Μ V 1/2 Periodic RA update timer GORS timer _ Μ V 1 Wireless priority~Μ~ ~ν 1/2 T0M8 Wireless priority ^j^^ Wireless priority 2 Μ V 1/2 Routing area identification - Routing area identification Μ V 6 — 19 P-TMSI Signature ^ P-TMSI signature 0 TV 4 17 Negotiation READY chronograph value GPRS timing 0 TV 2 18 ^ P-TMSI ^ —--- Mobile Identifier 0 TLV 7 23 MS Identifier Mobile Identifier ο TLV 7-10 25 GMM Cause GMM Cause 0 TV 2 2A T3302 Value ~ GPRS Timer 2 ο TLV 3 8C Cell Notification Cell Notification ο T 1 4A Equivalent PLMNs — PLMN List ο — TLV 5-47 B- Network Feature Support 1 Network Feature Support ^ 0 TV 1 34 Emergency Number List Urgent Number List 0 TLV 5-50 A- Request MS Information Request MS Information 0 TV 1 Negotiate LLC SAPI LLC Service Access Point Μ 1 V 1 Negotiation QoS Quality of Service (QoS) LV LV 13-15 Wireless Priority Wireless Priority Μ v 1/2 Alternate Half Eight Kit Alternate Half Eight Kit Μ v 1/2 2B PDP Address Packet Data Protocol Address ---- 0 TLV 4-20 27 Protocol Configuration Option Protocol Configuration Options ----- ο TLV 3-253 34 Packet Flow Identifier Packet Flow Identifier 0 ------ TLV 3 Table 1 When the WTRU When the PDP context or dynamic addressing has been requested to be initiated with the PDP type Ipv4 or ιρν6, the attachment acceptance information encloses the PDP address IE. When the CN wishes to transmit protocol data such as configuration parameters, error codes or information/events, the accessory receives M302836 and the information includes the protocol configuration option IE. When CN wants to indicate the packet stream ID associated with the PDP context, The attachment acceptance information includes a packet flow ID IE. If the WTRU does not indicate PFC program support in the PFC Feature Mode field of the WTRU Network Capacity IE, then the CN shall not include this IE. If the WTRU does not indicate PFC program support, it should ignore this 1E when it is received.
協商LLC SAPI、協商QoS、無線優先權與備用 半八套件是用於將服務以正確設定映射至網路内正 確端點的IEs ; LLC SAPI用於標識WTRU、EUTRan 與進化CN中的服務接入點標識符,其確保特定服務 的通信流在上行鏈路與下行鏈路中可以經由相同的 節點而路由,協商Q〇S是所述通信流的一屬性組, 其‘明欲分配的資源,例如:位率、延遲、誤位率、 PEMJ大小…等;無線優先權IE設定了 RAN的數據诵 信類型。 触=在本文中是以特定組合的方式來說明本創作的特 μ’然*各個特徵與元件亦可與具體實施方式 二徵 M302836 圖式簡單說明 第1圖表示一傳統的GPRS接入介面及參考點 圖。 第2A圖與第2B圖表示一傳統的移動性管理的 狀態機器圖。 第3A-3C圖結合起來表示一傳統PS連結與登入 程序的流程圖。 • 第4圖表示一傳統對話管理的狀態機器圖。 第5圖表示一傳統的PDP内文啟動程序的流程 圖。 第6圖表示根據本創作的一具體實施例的一包 含E-UTRAN的進化系統架構與進化核心網路(CN)。 第7圖表示根據本創作的一具體實施利的進化系 統核心網路高層次功能圖。 第8A圖與第8B圖表示根據本創作一較佳具體 • 實施例的對話與移動性管理(SMM)圖。 第9A-9C圖結合起來表示本創作的一進化系統 連結與登入程序的一流程圖。 23 M302836 主要元件符號說明 102 移動站 104 106 PS PMM MSMM SGSN RNC 302 304 306 終端設備 移動終端 分組切換 分組移動管理 移動站移動性管理 緣服務所支援的節點 移動站 通用陸地無線接入網路 ^的服務的_分組鱗服務所支援的節 308 1的服務騎时組鱗服務所支援的節 310 312 314 316 300 Imei check If la inter-MSC 10 Active 設備識別寄存器 新的訪問者位置寄存器 家鄉位置寄存器 訪問者位置寄存器 通用分組無線服務系統中的連么士序 國際移動設備標識符檢驗硬m枉斤 假如是位置區域内部移動切換 移動用戶標識符重新分配完成 Inactive 非啟動 Active PDP context啟動分組數據協定内文 24The negotiated LLC SAPI, Negotiate QoS, Wireless Priority, and Alternate Half Eight suites are IEs used to map services to the correct endpoints in the network with the correct settings; LLC SAPI is used to identify service access in the WTRU, EUTRan, and evolved CN a point identifier that ensures that the traffic of a particular service can be routed through the same node in the uplink and downlink, the negotiation Q〇S being an attribute group of the communication flow, which is the resource that is explicitly allocated, For example: bit rate, delay, bit error rate, PEMJ size, etc.; the wireless priority IE sets the data type of the RAN. In this paper, the specific features and components of the present invention are described in a specific combination. The various features and components of the present invention can also be described with reference to the specific embodiment. M302836 is a simple illustration. FIG. 1 shows a conventional GPRS access interface and Reference point map. Figures 2A and 2B show a state machine diagram of a conventional mobility management. Figures 3A-3C are combined to show a flow chart of a conventional PS link and login procedure. • Figure 4 shows a state machine diagram of a traditional dialog management. Figure 5 is a flow chart showing a conventional PDP context starter. Figure 6 shows an evolutionary system architecture and evolutionary core network (CN) including E-UTRAN in accordance with an embodiment of the present invention. Figure 7 shows a high-level functional diagram of the core network of the evolutionary system in accordance with a specific implementation of the present invention. Figures 8A and 8B show a dialog and mobility management (SMM) diagram in accordance with a preferred embodiment of the present invention. Figures 9A-9C combine to represent a flow chart of an evolutionary system linking and logging procedure for the present author. 23 M302836 Main Element Symbol Description 102 Mobile Station 104 106 PS PMM MSMM SGSN RNC 302 304 306 Terminal Equipment Mobile Terminal Packet Switching Packet Mobility Management Mobile Station Mobility Management Edge Service Supported Node Mobile Station Universal Terrestrial Radio Access Network ^ Service _Packet Scale Service Supported Section 308 1 Service Ride Time Group Service Supported Section 310 312 314 316 300 Imei check If la inter-MSC 10 Active Device Identification Register New Visitor Location Register Home Location Register Access Location Register General Packet Radio Service System in the United States, the International Mobile Device Identifier Check Hard M枉 If it is the location area Internal Mobile Switching Mobile User Identifier Reassignment Complete Inactive Active PDP context Start Packet Data Protocol Text twenty four