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IEEE 802.11 TGu Interworking with External Network

IEEE 802.11 TGu Interworking with External Network. Stefano M. Faccin Nokia IEEE 802.11 Liaison to 3GPP2. Content. Overview of IEEE 802.11 TGu Interworking with External Networks. Background for IEEE 802.11 TGu.

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IEEE 802.11 TGu Interworking with External Network

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  1. IEEE 802.11 TGu Interworking with External Network • Stefano M. Faccin • Nokia • IEEE 802.11 Liaison to 3GPP2 1

  2. Content • Overview of IEEE 802.11 TGu Interworking with External Networks 2

  3. Background for IEEE 802.11 TGu • As IEEE 802.11 hotspot deployment has become more widespread throughout the world, several problem areas have emerged with the way in which the hotspot behaves regarding its connection to external networks (e.g. the internet, cellular networks) which could be solved by standardization. • As the diversity of hotspots have proliferated, users have started to become frustrated with the non uniformity of interworking systems (e.g. poor service definition, disparate registration procedures, non-ubiquitous roaming). 3

  4. Background for IEEE 802.11 TGu (cont.d) • Within the IEEE 802.11 community it was felt that an amendment to the IEEE 802.11 standard would be in order to address these problem areas. Generically these issues have been referred to as interworking, which refers to the functionality and interface between an IEEE 802.11 access network and any external network • Following several presentations within IEEE 802.11 WNG SC, the WIEN (Wireless Interworking with External Networks) SG was created, which has now matured into TGu 4

  5. IEEE 802.11 TGu Objectives • The purpose is to provide amendments to the IEEE 802.11 PHY/MAC layers to address interworking issues between an IEEE 802.11 access network and any external network to which it is connected • This includes both • enhanced protocol exchanges across the air interface, and • provision of primitives to support required interactions with higher layers for interworking • This must be done in a generic manner without prejudice to any particular networking technology, although there is a tacit assumption that information exchange is achieved through the use of Ethernet 5

  6. IEEE 802.11 TGu Objectives (cont.d) • It is felt that this will not only help users within home, enterprise and public access markets, but also assist manufacturer’s and operators to provide common components and services for IEEE 802.11 customers 6

  7. IEEE 802.11 TGu Objectives (cont.d) • Upon further analysis of this primary objective, it is clear that interworking, is actually a collection of different functionalities, resulting in a set of smaller individual issues which collectively define interworking • Specifically these smaller issues “clusters” are currently: • Online Enrolment • Network Selection • Security • Authorization from Subscriber Network, • Media Independent Handover Support 7

  8. Relation between IEEE 802.11 TGU and IEEE 802.21 • IEEE 802.21 Media Independent Handover Services will consider handoffs between all IEEE 802 wireless technologies and Cellular networks. • This can be interpreted as addressing the issue of IEEE 802.11 interworking to cellular systems, except for the following reasons: • 1) IEEE 802.21 will not be able to amend IEEE 802.11. TGu only considers specific IEEE 802.11 amendments to allowing interworking. • 2) IEEE 802.21 considers terminals which have multiple interfaces each with a different potential network connection. IEEE 802.21 addresses handover from one interface to another. By contrast, TGu only considers issues which impact upon the IEEE 802.11 air interface. • Formal coordination is on-going between IEEE 802.21 and IEEE 802.11 TGu 8

  9. Architectural Overview • SSPN • TOE • AAA • Server • Local Network • Destination Network • AAA Proxy • Gateway • TOE • IEEE 802.11 AN • Destination Network • STA • TOE 9

  10. Conclusion • IEEE 802.11 TGu is seeking feedback from 3GPP2 of the requirements developed in TGu 10

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