Interoperability Standards

1. Interoperability Standards 802.21, UMA/GAN 802.11u Industry Standards

2. Interoperability Overview • Motivation • 802.21 • GAN/UMA • 802.11u • Industry Standards

3. Radio State Radio State Radio State Radio State 3G WWAN 3G WWAN 3G WWAN 3G WWAN Wi-Fi Wi-Fi Wi-Fi Wi-Fi WiMAX WiMAX WiMAX WiMAX GPS GPS GPS GPS Radio State Radio State Radio State 3G WWAN 3G WWAN 3G WWAN Wi-Fi Wi-Fi Wi-Fi WiMAX WiMAX WiMAX GPS GPS GPS Different Networks Available in Different Areas 3G WWAN Operating on 3G WWAN Zone 1 Zone 2 Zone 3 Plug into power jack Wakeup Wi-Fi Continue over Wi-Fi Wakeup Wi-Fi Zone 6 Zone 5 Zone 4 Airport Wi-Fi Link Going Down. Connect to Wi-Fi Home Continue session on 3G WWAN Continue session on Wi-Fi Battery level low Shutdown WiMAX Switch to 3G WWAN Operator initiated switch to WiMAX Continue session on WiMAX Shutdown Wi-Fi WiMAX WiMAX Zone 7 Zone 8 Zone 9 VCC, SIP, IMS for Call Continuity (3G WWAN  Wi-Fi) IEEE 802.21, SIP, VCC, IMS, for Network Selection and Service Continuity across multiple radios (3G WWAN  Wi-Fi  WiMAX) 802.21, SIP, IMS for Service Continuity (Wi-Fi  WiMAX) IEEE 802.21 for Network Discovery V. Gupta, “IEEE 802.21 MEDIA INDEPENDENT HANDOVER,” IEEE 802.21 session #15July 17, 2006

4. Operators Approaches I, Niva, “UMA – “Unlicensed Mobile Access” on the way to VoIP” Wireless Cities Conference06 Mobile Operators Operator with smaller customer base may have following view: • Any WLAN access point can be allowed for VHO. • Allowing access anywhere will attract more customers. While operator with already large customer base may think: • Allow only WLAN APs at customers’ homes for VHO access, to ensure that cellular revenues are also maintained. • Reason could be that access pricing is defined lower than in cellular. Cable & Fixed Operators , MVNOs Similar views may exist as mentioned for mobile operators • The opinion depends on whether VHO is used for attracting new customers or for defending the old customer base. Fixed & Mobile Operators Here the view may depend on whether target is to have different or the same service portfolio for old fixed and mobile customers • Thus several opinions probably exist. Operators may have different views on where the WLAN APs are allowed to be used for UMA access

5. 802.11r I-WLAN VCC 802.16e SAE-LTE IEEE 802.21 IEEE 3GPP/2 MIP SIP FMIP NETLMM HIP MIPSHOP DNA IETF Handover Standards Horizontal Handovers Inter-working & Handover Signaling IP Mobility & Handover Signaling

6. 802.21 Media Independent Handover (MIH)

7. 802.21 Motivation • Incorrect Network Selection • Ability of a device to choose it’s connection was hopeless. You could often connect at L2, but not at the network layer. The PC would often connect to the wrong one of many available APs, based on signal strength criteria alone. • Increasing number of interfaces on devices • Problem could extend to cover multiple interfaces. • Various fast handover mechanisms in IETF • MIPv4, FMIPv6 • IETF anticipated L2 constructs in standardized form • Triggers, events, hints etc, but 802 was not providing them in a standard form or a media independent form http://www.ieee802.org/802_tutorials/july06/802 21-IEEE-Tutorial.ppt

8. Link Layer Triggers State Change Predictive Network Initiated Applications (VoIP/RTP) Connection Management Handover Policy Handover Management Network Information Available Networks Neighbor Maps Network Services Mobility Management Protocols IETF 802.21 MIH Function Handover Commands Client Initiated Network Initiated Vertical Handovers Smart Triggers Handover Messages Information Service IEEE 802.21 Handover Messages Information Service L2 Triggers and Events Protocol and Device Hardware WLAN Cellular WMAN 802.21: Key Services 802.21 uses multiple services to Optimize Vertical Handovers http://www.ieee802.org/802_tutorials/july06/802 21-IEEE-Tutorial.ppt

9. Media specific Amendments • MIH Protocol (MAC independent messages) defined in 802.21 • Container for MIH messages for 802.11 defined in 802.11u • Container for MIH messages for 802.16 defined in 802.16g • Working with 3GPP-SAE for 3GPP specific changes • Transport for MIH Protocol defined in IETF (MIPSHOP) Media specific changes closely follow base protocol http://www.ieee802.org/802_tutorials/july06/802 21-IEEE-Tutorial.ppt

10. 802.21 Overview WLAN WWAN WMAN Media Independent Information Service 802.21 Information Server Global Network Map • List of Available Networks - 802.11/16/22, GSM, UMTS • Link Layer Information - Neighbor Maps • Higher Layer Services - ISP, MMS, …. http://www.ieee802.org/802_tutorials/july06/802 21-IEEE-Tutorial.ppt

11. Types of Handover Based on Control Model • Terminal Controlled • Terminal makes use of some MIH services • Terminal Initiated, Network Assisted • Terminal makes use of MIH Information Service • Network Initiated and Network Controlled • Network makes use of MIH Event and Command Service, plus Information Service knowledge, to decide if handover is needed/desired, to decide the target, and to command the terminal to handover http://www.ieee802.org/802_tutorials/july06/802 21-IEEE-Tutorial.ppt

12. UMA

13. UMA Overview • UMA allows to access the mobile voice and data services of the cellular network over a Wireless LAN • Subscribers are enabled to roam and handover between cellular networks and wireless networks http://www.umatoday.com

14. UMA Architecture • Mobile devices access the Core Network through Unlicensed Mobile Access Network (UMAN). • UMAN has 3 major entities • Unlicensed wireless network • IP access network • UMA Network controller (UNC) • UNC authorizes and authenticates the Mobile devices for accessing the Core Network

15. UMA Security • Authentication • Authenticate MS with UNC to make secure tunnel • Based GSM or UMTS credentials • Protocol of authentication is IKEv2 • GSM : EAP-SIM or UMTS : EAP-AKA • Mutual Authentication of MS and Mobile Network • Session Key Generation – IK and CK

16. 802.11u Interworking with External Networks

17. 802.11u • Standard out in 2009 • Specifically addresses handoffs where user not preauthorized (generally because from another network) • Major Topics • Network Selection • Emergency Call support • Authorization from Subscriber Network, • Media Independent Handover Support • Supporting information and control messages of 802.21

18. Network Selection • STA (clients) need to know the roaming suitability before authenticating/associating (in state-1) with the AP • Roaming information of various hotspots is not scalable to be configured on the client • Roaming information includes • Is this WLAN suitable for roaming? • What is the SSID that client to connect? • Who provides this information? • The home network (called SSPN in TGu terminology) or • A trusted source that has this roaming information • But could the home SSPN be located far away? • How is the query routed/switched to the destination? • What are the query semantics used?

19. E-911 call • Intended to provide normal service on unlicensed network • Support e911 STA calls without authentication credentials • Access control limited to only e911 calls • Authorized STA is straightforward • Location information not available, but may be available in task group v • Public User Credentials • Allow WPA capable SSID to support e911 calls • A well known public user id (NAI) is used for dummy authentication • AAA server downloads restricted e911 policy to AP to restrict traffic • Draft standard does not discuss security keys for encryption • EBR in QoS Setup • Open Auth SSID • Special SSID without any security support is configured for emergency • Simple MAC level solution, with no AAA involvement => Applicable for certain situations • Open auth association but AP may configure this SSID to only use a certain VLAN destined for emergency use only EBR in QoS Setup

20. Other Handoff/Interoperability Standards

21. VCC • Status • Initiated within 3GPP in June 2005 • 2006 through requirements, has only fully completed the requirements stage, • Different technologies agree to virtual channel • Joint control impossible • Some argue inferior to UMA • http://www.kineto.com/products/downloads/kineto_wp_UMA_VCC_2007.pdf • Some argue better than UMA • http://www-hk.huawei.com/publications/view.do?id=1480&cid=2622&pid=127

22. Other Cellular + WiFi • Seamless Converged Communication Across Network (SCCAN) • Motorola, Proxim, Avaya – Enterprise solutions • http://www.sccan.org/ • Mobile Integrated Go-to-Market Network IP Telephony Experience (Mobile IGNITE) • Vendor driven solution • http://www.bridgeport-networks.com/partners/mobileignite.html • Wireless Wireline Convergence Working Group • Alcatel, Cisco (International Packet Communications Consortium) • http://www.packetcomm.org/index.shtml • Bottom line • Even for standard convergence type activities there’s many different emerging standards. • Need for special radios to navigate standards? Mobile IGNITE http://www.spectralink.com/products/images/NL-01.gif

23. Proliferation of standards + lack of silver bullet standard means that optimal access technology will vary Supporting growth in use of VoIP will make networks less dependent on particular access technologies Biggest issues are: Getting industries to agree (Herding cats) Managing security across heterogeneous networks Harmonizing handoff routines 802.21 is the standard that ties together the vertical handoff standards More information Talk tonight (Oct 4) in Charlottesville on 802.21 6:00 PM: Social hour - Pizza & soda sponsored by Tyco Electronics 7:00 PM: Speaker Vivek Gupta - Intel Corporation Where: University of Virginia, Olsson Hall, Room 120 Rapid growth ? Mobile voice traffic Fixed voice traffic VoIP traffic -92 -93 -94 -95 -96 -97 -98 -99 -00 -01 -02 -03 -04 -05 e -06 e -07 e -08 e Source: Nokia 13.6.2005 Technology used to terminate the call Interoperability Summary