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2015 , Vol. 20 >Issue 2: 209 - 217

DOI: https://doi.org/10.1007/s12204-015-1609-8

Design and Analysis of an Adaptive Handover Protocol for 4G Networks

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  • (1. Electronics and Communication Engineering Department, Sri Jagadguru Chandrashekaranatha Swamiji Institute of Technology, Chickballapur 562101, India; 2. Electronics and Communication Engineering Department, Stanley Stephen College of Engineering and Technology, Kurnool 518004, India; 3. Electronics and Communication Engineering Department, Jawaharlal Nehru Technological University Anantapur, Anantapur 515002, India)

Online published: 2015-04-02

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Abstract

The future generation networks or 4G networks constitute of varied technologies converged over the Internet protocol version 6 (IPv6) core. The 4G networks offer varied services over different interfaces to the user nodes. Mobility management in 4G networks is an issue that exists. The handover protocols for mobility management in 4G networks that currently exist, do not consider wireless signal degradation during handover operations. This paper introduces the Noise Resilient Reduced Registration Time Care of Mobile IP (NR RRTC: MIP) protocol for handover management. A handover decision algorithm based on the signal strength measured by the user nodes is considered in the NR RRTC: MIP protocol. A simulation study is discussed in the paper to evaluate the performance of the NR RRTC: MIP protocol. The results obtained from the simulation study prove that the NR RRTC: MIP protocol effectively reduces handover latencies and improves network performance.

Key words: mobile internet protocol; internet protocol version 6 (IPv6); handover latency, mobility management; received signal strength; mobile IPv6 (MIPv6)

Cite this article

BHASKAR Subbe Gowda1*, SATISH KUMAR Gandluru Arthur Edwin2, RAMANA REDDY Patil3 . Design and Analysis of an Adaptive Handover Protocol for 4G Networks[J]. Journal of Shanghai Jiaotong University(Science), 2015 , 20(2) : 209 -217 . DOI: 10.1007/s12204-015-1609-8

References

[1] Khana H, Qadeerm A, Ansarij A, et al. 4G as a next generation wireless network [C]// International Conference on Future Computer and Communication.Kuala Lumpar, Malaysia: IEEE, 209: 334-338.
[2] Prakash S, Akki C B, Dhruve K. Handoff management architecture for 4G networks over MIPv6 [J].IJCSNS International Journal of Computer Science and Network Security, 2010, 10(2): 267-274.
[3] Choi J. 4G, solution for convergence? [C]//Microwave Symposium Digest. San Francisco, USA: IEEE, 2006:843-846.
[4] Lai W K, Chiu J C. Improving handoff performance in wireless overlay networks by switching between twolayer IPv6 and one-layer IPv6 addressing [J]. IEEE Journal on Selected Areas in Communications, 2005,23(11): 2129-2137.
[5] Chandavarkar B R, Reddy G R M. Survey paper:Mobility management in heterogeneous wireless networks[J]. Procedia Engineering, 2012, 30: 113-123.
[6] Sun J, Howie D P, Sauvola J J. Mobility management techniques for the next-generation wireless networks[C]//SPIE Proceedings of Wireless and Mobile Communications. Beijing, China: SPIE, 2011: 155-166.
[7] Sen J. Trends in Telecommunications Technologies[M]. Rijeka, Croatia: InTech, 2010.
[8] RFC 5944, IP mobility support [S].
[9] RFC 6275, Mobility support in IPv6 [S].
[10] Taleb T, Letaief K. A cooperative diversity based handoff management scheme [J]. IEEE Transactions on Wireless Communications, 2010, 9(4): 1462-1471.
[11] RFC 5380, Hierarchical mobile IPv6 mobility management (HMIPv6) [S].
[12] Shaojian F, Atiquzzaman M. Handover latency comparison of SIGMA, FMIPv6, HMIPv6, FHMIPv6[C]//Global Telecommunications Conference,St. Louis, USA: IEEE, 2005: 3809-3813.
[13] Costa X P, Schmitz R, Hartenstein H, et al.A MIPv6, FMIPv6 and HMIPv6 handover latency study: Analytic approach [C]//Proceedings of IST Mobile & Wireless Telecommunications 2002. Thessaloniki,Greece: Local Organizing Committee, 2002: 1-6.
[14] Bhaskar S, Satishkumarg A E, Ramanareddy P, et al. A seamless adaptive mobility management scheme for 4-G network [J]. International Journal of Computer Science and Network Security, 2013, 13(1):39-45.
[15] Lee C W, Chen L M, Chen M C, et al. A framework of handoffs in wireless overlay networks based on mobile IPv6 [J]. IEEE Journal on Selected Areas in Communications, 2005, 23(11): 2118-2128.
[16] RFC 5949, Fast handovers for mobile IPv6 [S].
[17] Perezcosta X, Torrent-Moreno M, Hartenstein H. A performance comparison of Mobile IPv6,Hierarchical Mobile IPv6, fast handovers for Mobile IPv6 and their combination [J]. ACM SIGMOBILE Mobile Computing and Communications Review, 2003,7(4): 5-19.
[18] Jung H Y, Kim E A, Yi J W, et al. A scheme for supporting fast handover in hierarchical mobile IPv6 networks [J]. ETRI Journal, 2005, 27(6): 798-801.
[19] Makaya C, Samuel P. An analytical framework for performance evaluation of IPv6-Based mobility management protocols [J]. IEEE Transactions on Wireless Communications, 2008, 7(3): 972-983.
[20] Pollini G P. Trends in handover design [J]. IEEE Communications Magazine, 1996, 34(3): 82-90.
[21] Marichamy P, Chakrabarti S, Maskara S L.Performance evaluation of handoff detection schemes[C]// TENCON Conference on Convergent Technologies for the Asia-Pacific Region. Bangalore, India:IEEE, 2003: 643-646.
[22] Chang B J, Chen J F. Cross-layer-based adaptive vertical handoff with predictive RSS in heterogeneous wireless networks [J]. IEEE Transactions on Vehicular Technology, 2008, 57(6): 3679-3692.
[23] Nasser N, Hasswa A, Hassanein H. Handoffs in fourth generation heterogeneous networks [J]. IEEE Communications Magazine, 2006, 44(10): 96-103.
[24] Cho Y, Oh E, Hong D. A new modeling scenario and analysis of handoff algorithms in multisector systems withcochannel interference [J]. IEEE Transactions on Vehicular Technology, 2009, 58(3): 1407-1414.
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