i-manager Publications

Effective Scheduling Algorithm For RTPS Service in WiMAX Networks

*, G. Indumathi**

* Assistant Professor, Kamaraj College of Engineering and Technology.

** Assistant Professor, Mepco Schlenk Engineering College.

Periodicity:July - September'2011
DOI : https://doi.org/10.26634/jee.5.1.1561

Abstract

Providing quality of service (QoS) to different service classes with integrated real-time and non-real-time traffic is an important issue in broadband wireless access networks. Opportunistic MAC (OMAC) is a novel view of communication over spatio temporally varying wireless link where by the multi-user diversity is exploited rather than combated to maximize bandwidth efficiency or system throughput. It combines cross-layer design features and opportunistic scheduling scheme to achieve high utilization while providing QoS support to various applications. Channel characteristics, traffic characteristics and queue characteristics are the essential factors in the design of opportunistic scheduling algorithms. The authors propose a cross-layer MAC scheduling framework in WiMAX point-to multipoint (PMP) systems and a corresponding opportunistic scheduling algorithm to provide QoS support to the heterogeneous traffic. Extensive Simulation experiments have been carried out to evaluate the performance of our proposal. This can improve the performance of the WiMAX PMP systems in terms of packet loss rate, packet delay and system throughput. The proposed scheduling scheme effectively support rtps traffic to make rtps packets meeting their delay bounds.

Keywords

WIMAX Network, MAC, Quality of Service

How to Cite this Article?

V. Jeyalakshmi and G. Indumathi (2011). Effective Scheduling Algorithm for RTPS Service in WiMAX Networks. i-manager’s Journal on Electrical Engineering, 5(1), 41-48. https://doi.org/10.26634/jee.5.1.1561

References

[1]. IEEE Std 802.16d-2004, IEEE standard for local and metropolitan area networks - Part 16: Air Interface for Fixed Broadband Access Systems.

[2]. Xin L., Chong, E. K. P., & Shroff, N. B. (2003). Optimal opportunistic scheduling in wireless networks. In Proceedings of IEEE 58th Vehicular Technology Conference, 3, pp. 1417– 1421.

[3]. Amoakoh, G. -A. & Seong- Lyun, K. (2006). Comparison of opportunistic scheduling policies in timeslotted AMC wireless networks. In Proceedings of IEEE 1st International Symposium on Wireless Per vasive Computing, pp 6.

[4]. Vegard, H. (2006). Tutorial: opportunistic multiuser scheduling for wireless networks. Department of Electronics and Telecommunications, Norwegian University of Science and Technology (NTNU),Jun, www.unik.no/ personer/ porten/MoPSAR/ MOPSARTutorial_ Hassel.pdf .

[5]. Bonald, T. (2005). Flow-level performance analysis of some opportunistic scheduling algorithms. European Transactions on Telecommunications, 16, 65–75.

[6]. Jalali, A., Padovani, R., & Pankaj R. (2000). Data throughput of CDMAHDR: A high efficiency high data rate personal communication wireless system. In Proceedings of IEEE VTC , May, pp.1854–1858.

[7]. Jinri, H., & Zhisheng, N. (2007). A cross-layer proportional fair scheduling algorithm with packet length constraint in multiuser OFDM networks. In Proceedings of IEEE International Conference on Global Telecommunications Conference, GLOBECOM '07, Nov, pp. 3489–3493.

[8]. Bang, H.J., Ekman, T., & Gesbert, D. (2008). Channel predictive proportional fair scheduling. IEEE Transactions on Wireless Communications, 7(2), 482–487.

[9]. Andrews, M., Kumaran, K., Ramanan, K., Stolyar, A., Vijayakumar, R., & Whiting P. (2000). CDMA data QoS scheduling on the forward link with variable channel conditions. Bell Labs Technical report preprint, April.

[10]. Hu, M., Zhang, J., & Sadowsky, J. (2004). Traffic aided opportunistic scheduling for wireless networks: algorithms and performance bounds. Computer Networks: The International Journal of Computer and Telecommunications Networking, 46(4), 505–518.

[11]. Shakkottai, S., & Stolyar, A. (2001). Scheduling algorithms for a mixture of real-time and non-real-time data in HDR. 17th Int. Teletraffic Congress (ITC-17), Sept.

[12]. Yi-Ting, M., Chun-Chuan, Y., & Yu-Hsuan, L. (2007). Cross-layer QoS framework in the IEEE 802.16 Network. The 9th International Conference on Advanced Communication Technology 3:2090–2095,Feb.

[13]. Lera, A., Molinaro, A., & Pizzi, S. (2007). Channelaware scheduling for QoS and fairness provisioning in IEEE 802.16/WiMAX broadband wireless access systems. IEEE Network, 21(5), 34–41.

[14]. Kwon, T., Lee, H., Choi, S., Kim, J., Cho, D.-H., Cho, S., Yun, S., Park,W.-H., & Kim, K. (2005). Design and implementation of a simulator based on a cross-layer protocol between MAC and PHY layers in a WiBro compatible IEEE802.16e OFDMA system. IEEE Communication Magazine, 43(12), 136–146.

[15]. Liu, Q., Wang, X., & Giannakis, B.G. (2006). A crosslayer scheduling algorithm with QoS support in wireless networks. IEEE Transactions on Vehicular Technology, 55(3), 839–847.123Cross-Layer MAC Protocol and Holistic Opportunistic Scheduling

[16]. Lihua, W., Wenchao, M., & Zihua, G. (2007). A crosslayer packet scheduling and subchannel allocation scheme in 802.16e OFDMA System. Wireless Communications and Networking Conference,2007, 1865–1870.

[17]. Hung-Hui, J., Hsiang-Chun, H., ChingYao, H., & Tihao, C. Cross-layer system designs for scalablevideo streaming over mobile WiMAX. In Proceedings of IEEE Wireless Communications and Networking Conference, WCNC., pp.1860–1864.

[18]. Triantafyllopoulou, D., Passas, N., Salkintzis, A. K., & Kaloxylos, A. (2007). A heuristic cross-layer mechanism for real-time traffic in IEEE 802.16 Networks. IEEE 18th International Symposium on Personal, Indoor and Mobile Radio Communications, pp.1–5.

[19]. Chao-Lieh, C., Jeng-Wei, L., Chi-Yuan, W., & Yau- Hwang, K. (2009). Fairness and QoS guarantees of WiMAX OFDMA scheduling with fuzzy controls. EURASIP Journal on Wireless Communications and Networking, 2009,pp. 1–14.

[20]. Hanwu, W., & Weijia, J. (2010). An optimized scheduling scheme in OFDMA WiMax networks. International Journal of Communication Systems, 23(1),23–39.

	North Americas,UK, Middle East,Europe		India	Rest of world
	USD	EUR	INR	USD-ROW
Pdf	35	35	200	20
Online	35	35	200	15
Pdf & Online	35	35	400	25

Effective Scheduling Algorithm For RTPS Service in WiMAX Networks

Abstract

Keywords

How to Cite this Article?

References

If you have access to this article please login to view the article or kindly login to purchase the article

Purchase Instant Access

Options for accessing this content: