DocumentCode
3174051
Title
Scalability and robustness analysis of mobile IPv6, fast mobile IPv6, hierarchical mobile IPv6, and hybrid IPv6 mobility protocols using a large-scale simulation
Author
Gvvon, Y. ; Kempf, James ; Yegin, Alper
Author_Institution
DoCoMo Commun. Labs. USA, Inc., San Jose, CA, USA
Volume
7
fYear
2004
fDate
20-24 June 2004
Firstpage
4087
Abstract
Fast mobile IPv6 (FMIP) and hierarchical mobile IPv6 (HMIP) are enhancements to the standard mobile IPv6 (SMIP) protocol for reducing handover latency and data loss, and for localized mobility management. In this paper, we present scalability and robustness analysis of the three protocols and two hybrid protocols of FMIP and HMIP, using a large-scale simulation. The simulation results indicate that FMIP achieves the best handover performance. HMIP incurs considerably less per-handover signaling overhead than FMIP on the wireless link, but HMIP data traffic has a fixed and permanent overhead even after handover. Hybrid protocols achieve FMIP-like handover performance and improve handover signaling overhead but cannot remove tunneling overhead. Hybrid protocols are also more robust to access router and home agent failures.
Keywords
IP networks; Internet; data communication; mobile computing; mobile radio; radio links; stability; telecommunication network management; telecommunication network routing; telecommunication signalling; telecommunication traffic; transport protocols; access router; data loss; data traffic; fast mobile IPv6; handover latency; handover signaling overhead; hierarchical mobile IPv6; hybrid IPv6 mobility protocols; large-scale simulation; localized mobility management; robustness analysis; scalability analysis; wireless link; Access protocols; Analytical models; Delay; Internet; Large-scale systems; Performance analysis; Robustness; Scalability; Telecommunication traffic; Traffic control;
fLanguage
English
Publisher
ieee
Conference_Titel
Communications, 2004 IEEE International Conference on
Print_ISBN
0-7803-8533-0
Type
conf
DOI
10.1109/ICC.2004.1313318
Filename
1313318
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