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Volume 7 | Issue 6 | Year 2017 | Article Id. IJPTT-V7I6P404 | DOI : https://doi.org/10.14445/22492615/IJPTT-V7I6P404A Survey on IEEE 802.16g Protocol Convergence between Terrestrial and Satellite Segments
Suriya M, Vaishnavi J, Sugandhanaa M, Dhivya Bharathy P
Citation :
Suriya M, Vaishnavi J, Sugandhanaa M, Dhivya Bharathy P, "A Survey on IEEE 802.16g Protocol Convergence between Terrestrial and Satellite Segments," International Journal of P2P Network Trends and Technology (IJPTT), vol. 7, no. 6, pp. 14-18, 2017. Crossref, https://doi.org/10.14445/22492615/IJPTT-V7I6P404
Abstract
In this paper , the main role of IEEE 802.16G protocol convergence between terrestrial and satellite segments are highlighted, The IEEE 802.16 standard, first published in 2001,defines a means for wireless broadband access as a replacement for current cable and DSL “last mile” services to home and business. Handover is the mechanism that is used to transfer information from one terminal to another as a user moves through the coverage area of a cellular system. Here the network selection is the handover decision process between various network environments .This handover decision will be either mobile or network initiated. In this study we have a tendency to discuss the utilization of a cost function to perform associate a network selection exploitation information provided by these standards, such as network coverage or network properties. The efficient function provides flexibility to balance the various factors within the network selection, and our research is focused on rising each seamlessness and energy efficiency of the devices in handovers.
Keywords
Handover, Hybrid Satellite, Terrestrial Networks, Protocol Convergence, IEEE 802.16g.
References
[1] AbdelSalam, H.S. and S. Olariu, 2011. Toward efficient
task management in wireless sensor networks. IEEE Trans. Comput., 60:
1638-1651. DOI:10.1109/TC.2010.264.
[2] Ahmavaara, K., H. Haverinen and R. Pichna,
2003.Interworking architecture between3gpp and wlansystems. IEEE Commun. Mag.,
41: DOI:10.1109/MCOM.2003.1244926.
[3] Baliosian, J. and R. Stadler, 2010. Distributed
autoconfigurationof neighboring cell graphs in radioaccess networks. IEEE
Trans. Netw. Ser. Mana., 7:145-157. DOI: 10.1109/TNSM.2010.1009.I9P0330.
[4] Buhler, J. and G. Buhler, 2010. Traffic-awareoptimization
of heterogeneous access management.IEEE Trans. Commun., 58: 1737-1747.
DOI:10.1109/TCOMM.2010.06.090182.
[5] Chen, J.C., T.C. Chen, T. Zhang, E. V.D. Berg,
2006.Effective AP selection and load balancing in IEEE802.11 wireless LANs.
Proceeding of the IEEEGlobal Telecommunications Conference, Nov. 27-Dec. 1,
IEEE Xplore Press, pp: 1-6. DOI: 10.1109/GLOCOM.2006.724.
[6] Chuah, S.P., Z. Chen and Y.P. Tan, 2012.
Energyefficientresource allocation and scheduling formulticast of scalable
video over wireless networks.IEEE Trans. Multimedia, 14: 1324-1336.
DOI:10.1109/TMM.2012.2193560.
[7] De Couto, D.S.J., D. Aguayo, J. Bicket and . Morris,2003.
A high-throughput path metric for multi-hopwireless routing. Proceedings of the
9th AnnualInternational Conference on Mobile Computing andNetworking, Sept.
14-19, ACM Press, New York,USA., pp: 134-146. DOI: 10.1145/938985.939000.
[8] Fang, Z. and J. McNair, 2004. Optimizations for vertical
handoff decision algorithms. Proceedings of the IEEE Wireless Communications
and Networking Conference, Mar. 21-25, IEEE Xplore Press, pp:867-872. DOI:
10.1109/WCNC.2004.1311300.
[9]Fang, Z. and J. McNair, 2006. Multiservice vertical
handoff decision algorithms. Eur. J. Wireless Commun. Netw., 2006: 52- 64. DOI:
10.1155/WCN/2006/25861.
[10] Muscariello, L., M. Mellia, M. Meo, R. Lo Cigno,
M.Ajmone Marsan, 2001. A simple markovianapproach to model internet traffic at
edge routers.Dipartimento di Elettronica.
[11] ETSI TS 102 464 V1.1.1, “Satellite Earth Stations
andSystems (SES); Broadband Satellite Multimedia (BSM);Interworking with
DiffServ QoS”, January 2007.
[12] ETSI TR 102 442-1 v1.1.1, “Satellite Earth Stations
andSystems (SES); Satellite component of UMTS/IMT- 2000;Multimedia Broadcast/Multicast
Services; Part 1: Services Definition”, November 2006.
[13] A. Jahn, and all, “Aeronautical Communications
forPersonal and Multimedia Services via Satellite”, 21stInternational
Communications Satellite Systems Conference & Exhibit, Yokohama, Japan,
15-19 April 2003.
[14] S. Scalise, V. Schena, F. Ceprani, “Multimedia
ServiceProvision On-Board High Speed Train: Demonstration andValidation of the
Satellite-Based FIFTH Solution”, 22nd International Communications Satellite
Systems Conference& Exhibit, Monterey, California 9-12 May 2004.
[15] H. Skinnemoen, S. K. Hansen, A. Jahn, M. Berioli,
“Satellite Based Infrastructure for Emergency Communications”.