Qassim Bani Hani¹, Julius Dichter¹, Jamal Fathi^2
1Department of Computer Science, University of Bridgeport, Bridgeport, USA.
²Department of Electrical and Electronics Engineering, Near East University, Nicosia, Northern Cyprus.
DOI: 10.4236/cn.2014.64026   PDF    HTML     5,251 Downloads   6,356 Views   Citations

Abstract

Short Retraction Notice

The paper is withdrawn from "Communications and Network" due to personal reasons from one of the author of this paper. This article has been retracted to straighten the academic record. In making this decision the Editorial Board follows COPE's Retraction Guidelines. Aim is to promote the circulation of scientific research by offering an ideal research publication platform with due consideration of internationally accepted standards on publication ethics. The Editorial Board would like to extend its sincere apologies for any inconvenience this retraction may have caused.

Editor guiding this retraction: Prof. Bharat Bhargava (EiC of CN)

The full retraction notice in PDF is preceding the original paper, which is marked "RETRACTED".

Keywords

WiMAX, Handover, Signal Strength, Packet Drop, Base Station

Share and Cite:

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1]	Hyeyeon, K., Yang, M., Park, A. and Venkateasan, S. (2008) Handover Prediction Strategy for 3G-WLAN Overlay Networks. IEEE Explore, Digital Library. Network Operations and Management Symposium, NOMS 2008. Ministry of Information and Communication Republic of Korea and Institute for Information Technology Advancement, 819-822.
[2]	Vasos, V. and Zinonos, Z. (2009) An Analysis of the Handover Latency Components in Mobile IPv6. Journal of Internet Engineering, 3, 230-240.
[3]	Khan, J. (2010) Handover Management in GSM Cellular System. International Journal of Computer Application, 8, 14-24. http://dx.doi.org/10.5120/1257-1763
[4]	Tripathi, N.D., Reed, J.H. and VanLandingham, H.F. (1998) Handoff in Cellular Systems. IEEE Personal Communications, 26-37.
[5]	Wong, M., Yee, K. and Turner, P. (2008) A Structured Evidence-Based Literature Review Regarding the Effectiveness of Improvement Interventions in Clinical Handover. The eHealth Services Research Group, University of Tasmania for the Australian Commission on Safety and Quality in Health Care (ACSQHC), Australia, 2-140.
[6]	Pandey, P.S. and Badal, N. (2012) Viable Modifications to Improve Handover Latency in MIPv6. International Journal of Advanced Computer Science and Application, 3, 121-125.
[7]	Hsieh, R. and Seneviratne, A. (2003) A Comparison of Mechanisms for Improving Mobile IP Handoff Latency for End-to-End TCP. MobiCom ‘03 Proceedings of the 9th Annual International Conference on Mobile Computing and Networking, ACM, New York, 29-41.
[8]	Fu, S. and Atiquzzaman, M. (2005) Handover Latency Comparison of SIGMA, FMIPv6, HMIPv6, and FHMIPv6. Telecommunication & Network Research Lab School of Computer Science, The University of Oklahoma, Norman, 1-7.
[9]	Mortaza, S.B., Heijenk, G.B., Laganier, J. and Anand, R. (2008) Reducing Handover Latency in Future IP-Based Wireless Networks: Proxy Mobile IPv6 with Simultaneous Bindings. Proceeding of International Symposium on a World of Wireless, Mobile and Multimedia Networks, Newport Beach, 1-10.
[10]	Chao, M.W., Yee, K. and Turner, P. (2008) The eHealth Services Research Group, University of Tasmania for the Australian Commission on Safety and Quality in Health Care. University of Tasmania, Tasmania, 3-252.
[11]	Purnendu, S.P. and Neelendra, B. (2012) Viable Modifications to Improve Handover Latency in MIPv6. International (IJACSA) International Journal of Advanced Computer Science and Applications, 3, 121-125. www.ijacsa.thesai.org
[12]	Abduloulaziz, I.H., Renfa, L. and Fanzi, Z. (2012) Handover Necessity Estimation for 4G Hesterogeneous Networks. International Journal of Information Sciences and Techniques, 2, 1-13. http://dx.doi.org/10.5121/ijist.2012.2101
[13]	Akki, C.B. and Chadchan, S.M. (2009) The Survey of Handoff Issues in Wireless ATM Networks. International Journal of Nonlinear Science, 7, 189-200.
[14]	Hu, Y. and Li, V.O. (2001) Logical Topology-Based Routing in LEO Constellations. Proceeding of International Conference on Communications, ICC 2001. IEEE, Helsinki, 3172-3176.
[15]	Mushtaq, M., Arman, K. and Ismail, F. (2011) Seamless Handover between UMTS and GPRS. International Journal of Communication Network and Security, 1, 1-4.
[16]	An, Y.Y., Yae, B.H., Lee, K.W., Cho, Y.Z. and Jung, W.Y. (2006) Reduction of Handover Latency Using MIH Services in MIPv6. 20th International Conference on Advanced Information Networking and Applications, 2006. AINA 2006, Vol. 2, Vienna, 18-20 April 2006, 229-234.
[17]	Vasos, V. and Zinonos, Z. (2009) An Analysis of the Handover Latency Components in Mobile IPv6. Journal of Internet Engineering, 3, 230-240.
[18]	Shin, S., Forte, A.G., Rawat, A.S. and Schulzrinne, H. (2004) Reducing MAC Layer Handoff Latency in IEEE 802.11 Wireless LANs. Proceedings of the 2nd International Workshop on Mobility Management & Wireless Access Protocols, MobiWac’04, 1 October 2004, Philadelphia, 19-26.
[19]	Sehlabaka, N.S. and Kogeda, O.P. (2013) A Cross-Layer Based Enhanced Handover Scheme Design in Vehicular Ad Hoc Networks. Proceedings of the World Congress on Engineering and Computer Science.
[20]	Zhang, Z., Pazzi, R.W., Boukerche, A. and Landfeldt, B. (2010) Reducing Handoff Latency for WiMAX Networks Using Mobility Patterns. Wireless Communications and Networking Conference (WCNC), IEEE, Sydney, 1-6.