Abstract
In this paper, our aim is to evaluate and analyze two propagation methods over mobile IPv6 networks which are bidirectional tunneling and routing optimization and both deliver a packet from a correspondent node to the mobile node and vice versa via specific tunnel. To this end we propose a mobile IPv6 scenario by including real-time applications such as video- conferencing. As a result of the evaluation, routing optimization method reduces end-to-end delay and packet delay variation because the number of packets experience tunneling is reduced by this method. This results in increasing network performance.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Abbreviations
- CN:
-
Correspondent node
- CoA:
-
Care-of address
- MIPv6:
-
Mobile IP version 6
- MN:
-
Mobile node
- RO:
-
Routing optimization
- VOIP:
-
Voice over IP
References
Samjani A (2001) Mobile internet protocol. IEE J Potentials IEEE 20(1):16–18
Iapichino G, Bonnet C (2008) IPv6 mobility and ad hoc network mobility. Overview report. Inst. Eurecom, Deprt. Mobile Com. Sophia Antipolis, France, RR-8-217
Singh S, Bhatia A, (2008) DHCPv6 Based IPv6 Auto configuration mechanism for subordinate MANET. In: Proceedings of the IEEE Asia-Pacific conference on computing—APSCC, Yilan, Taiwan
Chen YY, Ynag CC, Yu LS (2010) HH-MIP An enhancement of mobile IP by home agent handover. EURASIP J Wireless Comm Net 10(5):1021–1029
Bi Y, Song M, Song J (2005) Seamless mobility using mobile IPv6. In: Proceedings of the international conference mobile technology, application and systems, Guangzhou, China
Le D, Chang J (2010) Tunneling-based route optimization for mobile IPv6. In: Proceedings of the International Conference wireless communications, networking and information security, Beijing, China
Wu CH, Cheng AT, Lee ST, Ho JM, Lee DT (2002) Bidirectional route optimization in mobile IP over wireless LAN. In: Proceedings of the vehicular technology, pp 1168–1172
Gao Q, Acampora A (2000) A virtual home agent based route optimization for mobile IP. In: Proceedings of the IEEE conference on wireless communications and networking, Chicago, USA, pp 592–596
Zhang I, Zhang LJ, Pierre S (2011) Performance analysis of seamless handover in mobile IPv6- based cellular networks. Intech 7(1):1–26
Malekian R, Abdullah AH (2011) A mathematical model to determine the maximum end-to-end delay bound on label switched path for real time applications over mobile IPv6. Int J Phys Sci 6(12):2958–2964
Hsu WH, Shieh YP, Yeh SC (2001) Diffserv-based bandwidth constrained anycast routing in a mobile Ipv6 network. Int J Comm Syst 24(2):139–152
Le D, Chang J (2010) Tunneling-based Route Optimization for Mobile IPv6. In: Proceedings of international conference on wireless communication and networking security –WCNIS, Beijing, China
Le D, Fu X, Gu X, Hogrefe D (2007) End-to-end Tunneling extension to mobile IPv6. In: Proceedings of 4th IEEE consumer communication and networking conference –CCNC, Las Vegas, USA
Pries R, Mader A, Staehle D, Eiesen M (2007) On the performance of mobile IP in wireless LAN environment wireless systems, mobility in next generation internet. Lecturer Notes Comput Sci 4396(1):155–170
Wang TP, Chuang J (2009) ILNP: mobility, multi-homing, localized addressing and security through naming. J Telecomm Syst 42(3):273–291
Taha S, Shen X (2011) Anonymous home binding update scheme for mobile Ipv6 wireless networking. In: Proceedings of the IEEE global communications-Globecome, Houston, USA
Chen H, Trajkovic L (2002) Simulation of route optimization in Mobile IP. In: Proceedings of the international workshop on wireless local networks -WLN, Tamoa, Florida
Lim JH, Kim M, Lee JH, Chung TM (2009) Route optimization in nested NEMO classification evaluation and analysis from memo fringe stub perspective. IEEE Trans Mobile Comput 8(11):1554–1572
Malekian R, Abdullah AH, Saeed RA (2011) A cross-layer scheme for resource reservation based on multi-protocol label switching over mobile IP version 6. Int J Phys Sci 6(11):2710–2717
Samolej S, Szmuc T (2010) HTCPNs-based analysis of priority Internet requests scheduling. Preglad Elektrotechniczny 10(9):174–178
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Appendix
Appendix
IPv6 configuration for different components in our network topology appears below:
Rights and permissions
Copyright information
© 2012 Springer Science+Business Media B.V.
About this paper
Cite this paper
Malekian, R., Abdullah, A.H. (2012). Bidirectional Propagation Method for Analysis of Reflection on Radio Networks. In: Kim, K., Ahn, S. (eds) Proceedings of the International Conference on IT Convergence and Security 2011. Lecture Notes in Electrical Engineering, vol 120. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-2911-7_35
Download citation
DOI: https://doi.org/10.1007/978-94-007-2911-7_35
Published:
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-007-2910-0
Online ISBN: 978-94-007-2911-7
eBook Packages: EngineeringEngineering (R0)