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WLAN-GPRS Integration for Next-Generation Mobile Data Network

WLAN-GPRS Integration for Next-Generation Mobile Data Network. Apostolis K. Salkintzis, Chad Fors, and Rajesh Pazhyannur Motorola. 報告人 : 李偉晟. IEEE Wireless Communications Magazine October 2002. 18 / 6 / 2003. Outline. Motivation

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WLAN-GPRS Integration for Next-Generation Mobile Data Network

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  1. WLAN-GPRS Integration for Next-Generation Mobile Data Network Apostolis K. Salkintzis, Chad Fors, and Rajesh Pazhyannur Motorola 報告人:李偉晟 IEEE Wireless Communications Magazine October 2002 18 / 6 / 2003

  2. Outline • Motivation • The general aspects of integrated WLAN-cellular network • Interworking architecture • Tight Couple Architecture • Loose Couple Architecture • Conclusion

  3. Motivation • The operator has the large investments made for new spectrum in which to offer 3G services, but 3G data technology is not available • And 2.5G(GPRS) cellular data technology is available in large coverage, but can't meet business and multimedia application requirement • The recent evolution and successful deployment of WLAN systems worldwide, and its high data rate • An integrated network combines the strenghths of each, provides users with ubiquitous data service.

  4. The general aspects of integrated WLAN-cellular network • Who owns the WLAN? • Cellular operator • Wireless Internet Service Provider(WISP) • Session Mobility

  5. HLR Loose coupling point Gr Gc Mobiel station UTRAN Iu-ps Gi Gn/p Uu GGSN SGSN Gn/p Gb GRPS RAN External Packet data network Um SGSN MS MS Tight coupling point Interworking Architecture • The Tight Couple Architecture • The Loose Couple Architecture HLR:Home location register SGSN:Serving GPRS support node GGSN:Gateway GPRS support node

  6. The Tight Couple Architecture

  7. Benefits • Seamless service continuation across WLAN and GPRS • Reuse of GPRS AAA • Authentication, Authorization, and Accouting • Reuse of GPRS infrastructure • Access to core GPRS services

  8. WLAN System Description • A WLAN network is deployed with one or more off-the-shelf access ponts(APs) • APs are connected by means of a distribution system(DS) • In the system, DS is a LAN (IEEE 802.3) • APs behave like base stations • The service area of a AP • is a basic service set (BSS) • Each WLAN composes many BSSs, • all form an ESS • The WLAN is considered like any other GPRS routing area (RA:group of cells) in the system

  9. Feature Servers Radio Access Network (UTRAN/ GPRS RAN) HLR (AuC) GPRS core SGSN GGSN Firewall CG Billing mediator Internet Gb Billing system WLAN network 48-bit 802 MAC address Operator's IP network Distribution system AP Dual mode MS GIF All mobile terminals and the GIF use MAC address Beacon (SSID) Beacon (SSID) Beacon (SSID) BSS-1 BSS-2 BSS-3 802.11 standar service set(ESS) GIF:GPRS Interworking function CG:Charging gateway HLR:Home location register AuC:Authentication center SGSN:Serving GPRS support node GGSN:Gateway GPRS support node BSS:Basic service set AP:Access point

  10. New Component • GPRS interworking function (GIF) • Is connected to a DS and to a serving GPRS support node (SGSN) • Provide a standardized interface to the GPRS core network • Hides the WLAN particularities • WLAN adaptation function (WAF) • Identifies when the MS associates with a valid AP • Informs the LLC layer , which subsequently redirects signaling and data traffic to the WLAN

  11. WLAN radio subsystem WLAN Adaptation Function (WAF) WLAN access network GPRS Interworking Function (GIF) Defined by 802.11 Dual-mode MS Gb WLAN access network Um Gb GPRS core network GPRS access network New interworking componets LLC GPRS radio subsystem

  12. User data GMM/SM SNDCP SGSN LLC WAF WAF BSSGP NS RLC/MAC 802.11 MAC 802.11 MAC 802.3 MAC 802.3 MAC FR GPRS PHY 802.11 X PHY 10Base-T or other 802.11 X PHY 10Base-T or other PHY (e.g. G.703/704) Um Gb Dual-mode MS Access point GPRS interworking Function (GIF) Protocol Architecture

  13. WLAN Adaptation Function • Functions: • Signals the activation of WLAN interface when the mobile enters a WLAN area • Supports the paging procedures (SGSN pages the MS) • Transfers PDUs (Packet Data Unit) between mobiles and GIF • Supports QoS (transmission scheduling in GIF and the MS) • Transfers the TLLI and QoS information in the WAF header

  14. WLAN Adaptation Function (cont.) • TLLI ( Temporary Logical Link Identifier ) • Is used by GIF to update an internal mapping table that correlates TLLI and MS's MAC addresses • The SGSN uses TLLI as MS address informatioin, whereas the WLAN utilizes MAC addresses

  15. WLAN Adaptation Function (cont.)

  16. 5. Then the GIF's WAF Responds Discovery Response ,GIF's MAC Address, WLAN's RAI 6. The MS receives this response , stores the GIF address and the RAI Start 1. MS’s WAF send Discovery Request ,SA=MS ,DA=Broadcast ,IMSI 7. The MS notifies the GMM layer that the current GPRS RA has changed 4. The GIF receive this message ,associate the IMSI with the MS's MAC address 2. Data is directed to the AP with BSSID 8. The GMM layer notifies the SGSN that the MS has change RA 3. The AP broadcast this message to the DS End GIF/RAI Discovery Procedure

  17. The Loose Couple Architecture

  18. System Description • The WLAN network is coupled with the GPRS network in the operator’s IP network

  19. Feature Servers HLR (AuC) Radio Access Network (UTRAN/ GPRS RAN) GPRS core FA HA FA Firewall Internet GGSN SGSN Billing mediator CG Operator's IP network Billing system WLAN network Firewall AAA Dual mode MS AP CAG CAG:Cellular acess gateway CG:Charging gateway HLR:Home location register AuC:Authentication center SGSN:Serving GPRS support node GGSN:Gateway GPRS support node AAA:Authentication, authorization, accounting FA:Foreign agent HA:Home agent

  20. Authentication • The Extensible Authentication Protocol(EAP): • Performs authentication of the MS • Passing the subscriber identity • Passing SIM-based authentication data • Encrypted session key • The cellular accesss gateway(CAG) acts as an authenticator for WLAN users

  21. AP CAG HLR MS 1.EAPOW-start 2.EAPOW-request/identity 3.EAPOW -response/identity (IMSI) 4.RADIUS access-request (IMSI) 5.Send authentication info 6.Send authentication info ack 7.RADIUS access-challenge RAND XRES 8.EAP-request(RAND) 9.EAP-response(SRES) 10.RADIUS access-request if XRES == SRES 11.RADIUS access-accept 12.EAP-sucess 13.EAP-key (AAA server) [Signed Result]

  22. Encryption • Weakness of the 802.11 WLAN standard in its encryption technology • Wired Equivalent Privacy(WEP) • is a relatively inefficient encryption scheme • With the use of EAP, WEP may be enhaced by the use of a unique session key (EAPOW-Key) for each user of the WLAN

  23. Billing • Integrated billing is achieved via the billing mediator function • The billing mediator • convert accounting statistics from both the GPRS and WLAN access networks into a format of the particular billing system used by the operator • The AP in the WLAN will report accounting statistics to the CAG • The GPRS core will report accounting statistics (via CG) pertaining to GPRS usage

  24. Sesson Mobility • Mobile IP (MIP) can be used to provide seeion mobility across GPRS and WLAN domain • The MIP framework contains: • A MIP client (MS) • A foreign agent (FA) • A home agent (HA) • The FA in the GPRS resides in the GGSN; in the WLAN can reside in an access router • The HA is located in the operator's network

  25. When the MS move from one system to another system The MS performs a MIP registeration via the FA The FA provides a care-of address to the HA to completes the registeration Start The FA then associates the care-of address with that of the MS The FA acts as the proxy on behalf of the MS for the life of the registeration End Sesson Mobility (cont.)

  26. Conclusion • The recent evolution and successful deployment of WLAN sustems worldwide has fueled the need for interworking mechanisms between WLANs and cellar data networks such as GPRS • Tight coupling is fit for the cellular operator having WLAN • Loose coupling is fit for the wireless network composed of a large number of WLAN operators and cellular operators • WLAN technology will play an important role in supplementing wide-area cellular network

  27. The End !

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