Stability Analysis of Tandem SIP Proxies

1. Stability Analysis of Tandem SIP Proxies IEEE ICC 2012 - Communication QoS, Reliability and Modeling SymposiumArthur: Seyed Vahid Azhari, Hani Nemati Presenter:侯宗佑

2. Outline • Introduction • Fluid Flow Model • Lyapunovstability • Stabilizing Algorithm • Conclusion

3. SIP protocol Signaling Communications Protocol IETF,RFC 2543, latest RFC 3261 Setup, modify, tear down multimedia sessions Text-based protocol (like http, smtp) Media stream use RTP protocol

4. SIP protocol(cont’d)

5. Lyapunov Stability Mostly used for non-linear dynamic system Stay near Equilibrium point

6. Fluid Flow Model

7. Fluid Flow Model(Cont’d) Assumption: • Infinite queues, • negligible packet loss and processing time, • only Invite and OK message State variable: weighted number of Invite message queues on proxy

8. Fluid Flow Model(Cont’d)

9. Fluid Flow Model

10. Lyapunov Stability Equilibrium : (x1,x2) = (0,0)

11. Lyapunov Stability(Cont’d)

12. Lyapunov Stability(Cont’d) Optimal rejection policy P2,rej = 0 has max value All rejection burden at upstream proxy

13. Stabilizing Algorithm Idetical: P1 >= 1:

14. Stabilizing Algorithm(Cont’d)

15. Stabilizing Algorithm(Cont’d)

16. Stabilizing Algorithm(Cont’d) Maximum Withstand-able Overload

17. Conslusion Modeled SIP topology Derive Lyapunov stability condition Proposed a simple overload control algorithm Optimal rejection policy