IJARP Impact Factor(2018): 4.908

International Journal of Advanced Research and Publications!

Paper Details: 5G Network Optimizations for Streaming Multimedia Services

Volume 3 - Issue 8, August 2019 Edition
[Download Full Paper]

Hegazi Ibrahim
Hybrid Radio Resource Managements (RRM), Distributed Antenna Systems (DASs), Internet Protocol Television (IPTV), Voice over Internet Protocol (VOIP) and Quality of Service (QoS).
According to major challenges that faced the transmission of streaming media over wireless networks, it is essential to propose many mechanisms to support fair quality for all subscribers in the available coverage area. In this research, proposed algorithms could be implemented for solving delay and losses problems as the following: (I) Usage of hybrid radio resource managements (RRM) and distributed antenna systems (DASs), (II) Using smart antenna techniques in the transmission and reception of streaming packets, (III) Using proposed jamming node algorithms to solve co-channel interference without increasing number of cells and (IV) Proposed algorithms for accessing multimedia streaming services over 5G networks such as voice over internet protocol (VOIP) and Internet Protocol Television (IPTV). The proposed schemes had to improve the overall system quality of service (QoS) based on different international standard quality metrics.
[1] H. Guo, G. Shen, Z. Wang, and S. Li, “Optimized streaming media proxy and its applications,” J. Netw. Comput. Appl., vol. 30, no. 1, pp. 265–281, 2007.

[2] Boal, Alexandra, et al. "Distributed antenna cellular system for transmission of broadcast/multicast services" Vehicular Technology Conference, 2007, VTC 2007-Spring. IEEE 65th, IEEE, 2007.

[3] Mitchell, B., Paterson, P., Dodd, M., Reynolds, P., Waters, P., & Nich, R. (2007). Economic study on IP interworking. GSM Association (March 2007).

[4] Lee J.M. and Choi S.G. (2009). Adaptive hybrid transmission mechanism for on-demand mobile IPTV over WiMAX. IEEE Transactions on Broadcasting. 55(2), 468-477.

[5] Bikflavi A., Garcia J., and Valera F. (2010).A peer-topeer IPTV service architecture for the IP multimedia subsystem.International Journal of Communication Systems. 23(6-7), 780-801.

[6] Easwara S. and Parvathi S. (2012). Performance evaluation of multicast video streaming over WiMAX.International Journal of Applied Information Systems. 6(3), 66-102.

[7] HamodiJ.M. and ThoolR.C. (2013). Investigate the performance evaluation of IPTV over WiMAX networks. International Journal of Computer Networks & Communications,5(1), 81-95.

[8] Sheikh M., Sharma K., and Dalal S. (2014). Efficient method for WiMAX soft handover in VOIP and IPTV.

[9] Li M. and Yu H. (2014). Analysis of blocking rate and bandwidth usage of mobile IPTV services in wireless cellular networks. The Scientific World Journal, DOI:
10.1155/2014/215710, 1-9.

[10] Kaur R. and Baghla S. (2014). A review: IPTV over WiMAX networks. International Conference on Communication, Computing & Systems (ICCCS–2014), 115-117.

[11] Mapoka, Trust T., et al. (2015). Handover Optimized Authentication Scheme for High Mobility Wireless Multicast. 15th International Conference on Computer Modeling and Simulation (UKSim2015).527-531.

[12] Z.Hou, S.Hanyu, H.Seferoglu, and E.Koyuncu. (2018). Flow control and scheduling for shared FIFO queues over wireless networks. ArXiv preprint arXiv: 1601.07597. 1-12.

[13] Majumda, A., et al. "Multicast and unicast real-time video streaming over wireless LANs." IEEE Transactions on Circuits and Systems for Video Technology 12.6 (2002): 524-534.

[14] He, Zhihai, and Hongkai Xiong. Transmission distortion analysis for real-time video encoding and streaming over wireless networks. IEEE transactions on Circuits and Systems for Video Technology 16.9 (2006): 1051-1062.

[15] Kusmierek, Ewa, and David HC Du. "Streaming video delivery over Internet with adaptive end-to-end QoS." Journal of Systems and Software 75.3 (2005): 237-252.

[16] Sahai, Anupam, Ram K. Gupta, and Jitendra Kothari. "System for capability-based multimedia streaming over a network." U.S. Patent No. 6,594,699. 15 Jul. 2003.

[17] Wu D, Hou YT, Zhang Y-Q (2000) Transporting realtime video over the internet: challenges and approaches. Proc IEEE 88(12):1855–1877.

[18] Luo, Hongli, Mei-Ling Shyu, and Shu-Ching Chen. Video streaming over the internet with optimal bandwidth resource allocation. Multimedia Tools and Applications 40.1 (2008): 111-134.

[19] Luo H, Shyu M-L, Chen S-C (2005) A multi-buffer scheduling scheme for video streaming. In: Proceedings of the IEEE international conference on multimedia and
expo (ICME), Amsterdam, 6–8 July 2005, pp 1218–1221.

[20] Chatterley M., Senate S., and Gangly S. (2007). Feedback-based real-time streaming over WiMAX.IEEE Wireless Communications Magazine, 14(1), 64-71.

[21] Mohamed, M. A., Zubair, M., & Ibrahim, H. M. (2017). QoS Based IPTV Over Mobile WiMAX Networks. Wireless Personal Communications, 1-30.

[22] Ohrtman H. (2005). WiMAX handbook: building 802.16 networks. McGraw-Hill Communications.

[23] IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed and Mobile Broadband Wireless Access Systems.

[24] Rugova S. and Marj A. (2013). Traffic load and cost analysis for different IPTV architectures. Proceedings of the 8th WSEAS International Conference on Telecom. and Informatics,163-168.

[25] Hrudey W. and Trajkovic L. (2011). Mobile WiMAXMAC and PHY layer optimization for IPTV. Journal of Mathematical and Computer Modeling, Elsevier, 53(11), 2119–2135.

[26] Takaki, Ricardo, et al. "Experimental Assessment of Voice Over IP in LTE Systems Under Different Cell Conditions." Long Term Evolution. Springer International Publishing, 2016. 129-142.

[27] Elnashar, Ayman, Mohamed A. El-Saidny, and Mohamed Mahmoud. "Practical Performance Analyses of Circuit-Switched Fallback and Voice Over LTE." IEEE Transactions on Vehicular Technology 66.2 (2017): 1748-1759.

[28] ElNashar, Ayman, Mohamed A. El-Saidny, and Mahmoud Sherif. Design, deployment and performance of 4G-LTE networks: A practical approach. John Wiley & Sons, 2014.

[29] Penttinen, Jyrki TJ, ed. The LTE-Advanced Deployment Handbook: The Planning Guidelines for the Fourth Generation Networks. John Wiley & Sons, 2016.