Efficient Mobility Management for Vertical Handoff between WWAN and WLAN

1. Efficient Mobility Management for Vertical Handoff between WWAN and WLAN IEEE Communications Magazine November 2003

2. Authors • Qian Zhang • Chuanxiong Guo • Zihua Guo • Wenwu Zhu • All come from Wireless and Networking Group, Microsoft Research Asia

3. Teammates • 資工所 廖翊均 692410001 • 資工所 林世敏 692410035 • 資工所 陳崇凱 692410078

4. Outline • Introduction • Connection manager • Virtual connectivity manager • Performance evaluation • conclusions

5. Introduction • WLAN vs. WWAN • IEEE 802.11 vs. GPRS • Horizontal handoff vs. Vertical handoff • Mobile IP • HA, FA, CoA • Routing, scalability • Migrate • Reference [8], Proc. Mobicom 2000 • End-to-end • Two limitations • Cannot make mobility transparent to application • Cannot maintain connection under NAT & simultaneous movement

6. Introduction • Proposed approach • IP-centric • Connection Manager (CM) • Detect conditions and availability of networks • Virtual Connectivity Manager (VC) • Maintain connection’s continuity • Local Connection Translation (LCT) • subscription/notification service (S/N) • Roaming decision maker • Context database

8. Connection Manager • Handoff from WWAN to WLAN • Physical Layer Sensing • Detect the available of the stable WLAN signal • MAC Layer Sensing • NAV (Network Allocation Vector) • Traffic load vs. NAV occupation • Network-condition-aware handoff • Adaptation of upper layers • Best QoS selected

10. Connection Manager • Handoff from WLAN to WWAN • FFT-Based Decay Detection • FFT：Fast Fourier Transform • To detect signal decay • X(1)/N：threshold • N：RSSI sampled number

11. Connection Manager • Adaptive Threshold Configuration • To set an appropriate RSSI threshold • RSSI：Received Signal Strength Indication • S1 = S2 + Δ

13. Virtual Connectivity Manager • Problems caused by mobility • Transparency to application • Especially important for UDP applications • Transparency to NAT • Simultaneous movements • The VC protocol • Peer negotiation • Connection maintenance • S/N protocol

14. Virtual Connectivity Manager • Local Connection Translation (LCT) • Mapping relationship between the original and the current connection information • Solve “transparency to application” problem • Subscription/Notification service (S/N) • To bridge the two communication parties so that they can exchange address information • S/N server is publicly addressed and never moves • Solve “transparency to NAT” & “simultaneous movement” problems

16. Performance Evaluation • OS：Windows 2000 • CM：manipulates and monitors all wireless network interfaces via the NDIS device interface, and provides related information to the roaming decision maker, which runs in the system as a background service. • VC：implemented in the system together with the TCP/IP stack, and is located naturally between the network and transport layers.

19. Conclusions • In this article a novel mobility management system is proposed for vertical handoff between WWAN and WLAN. • The system integrates a CM and a VC. Collaboration between the CM and VC accomplishes seamless handoff between WWAN and WLAN.

20. Conclusions • CM：detect the wireless network changes • MAC sensing • FFT detection • adaptive threshold configuration • VC：maintain connectivity using the end-to-end principle • LCT：support application transparency • S/N： support working under NAT and handling of simultaneous movement