|
|
|
AUTHOR(S):
|
|
TITLE A Novel MAC Scheduling Algorithm to Regulate Multimedia Traffic with Promising QoS |
|
KEYWORDS Quality of Service (QoS), Medium Access Control (MAC), Scheduling, Multimedia Traffic, Packet Drop Rate |
|
ABSTRACT Dynamic MAC Scheduling Algorithm (DMSA) to regulate packets on optical switches is a heap-based implementation uses a Distributed Traffic and Admission Control Heap (DTACH) characterizes multimedia streams with diverse Quality of Service (QoS) requirements to substantially improve solution quality and reduces the packet drop rate. We present a simulation environment that has been designed combining network simulator ns2 to predict the quality of service the experimental results demonstrate improved scalability compared to a liner implementation in supporting thousands of streams with strict real-time constraints, while causing no loss in accuracy compared to the FIFO algorithm. This DTACH algorithm achieves a low average delay and low packet drop rate as compared to other scheduling algorithms of equivalent complexity while still achieving similar throughput. |
|
REFERENCES [1] R.S. Tucker, P.-C Ku and C.J. ChangHasnain, “Fundamental limitations of slowlight optical buffers,” Optical Fiber Communication Conference, 2005. Technical Digest. OFC/NFOEC, vol. 3, Mar. (2005). [2] L. Liu and Y. Yang, “Achieving 100% throughput in input-buffered WDM optical packet interconnects,” IEEE Transactions on Parallel and Distributed Systems, vol. 22, pp. 237-286, February (2011). [3] S. Shimizu, Y. Arakawa and N. Yamanaka, “Wavelength assignment scheme for WDM networks with limited-range wavelength converters,” Journal of Optical Networking, vol. 5, issue 5, pp. 410-421, (2006). [4] X. Qin and Y. Yang, “No blocking WDM switching networks with full and limited wavelength conversion,” IEEE Transactions on Communications, vol. 50, no. 12, pp. 2032-2041, (2002). [5] Roe Hemenway and Richard R. Grzybowski “Optical-packet-switched interconnect for supercomputer applications,” Journal of Optical Networking, Vol. 3, No. 12,December (2004). [6] Zhenghao Zhang, Lin Liu, Yuanyuan Yang “Slotted Optical Burst Switching (SOBS) networks,” Computer Communications, 30 (2007). [7] Nick McKeown “The iSLIP Scheduling Algorithm for Input-Queued Switches,” IEEE/ACM Transactions on Networking, VOL. 7, NO. 2, APRIL (1999). [8] A. Shami, X. Bai, N. Ghani, C. Assi, H.T. Mouftah, “QoS control schemes for twostage ethernet passive optical access networks,” IEEE Journal on Selected Areas in Communications (JSAC) ,23 1467–1478. (2005). [9] G. Kramer, B. Mukherjee, S. Dixit, Y. Ye, R. Hirth, “Supporting differentiated classes of service in Ethernet passive optical networks,”, Journal of Optical Networks , 280–298,(2002). [10] H. Lee, T. Yoo, J. Moon, H. Lee, A twostep scheduling algorithm to support dual bandwidth allocation policies in an ethernet passive optical network, ETRI Journal ,26 185–188, (2004). [11] F. An, Y. Hsueh, K. Kim, I. White, L. Kazovsky, A New Dynamic Bandwidth Allocation Protocol with Quality of Service in Ethernet-based Passive Optical Networks, in: International Conference on Wireless and Optical Communication (WOC), Banff, July (2003). [12] Mei Yang and S.Q. Zheng, Dominique Verchere “A QoS Supporting Scheduling Algorithm for Optical Burst Switching DWDM Networks,” Global Telecommunications Conference, GLOBECOM '01. IEEE (2001). [13] Biao Chen, Jiajia Chen ; Sailing He “Efficient and fine scheduling algorithm for bandwidth allocation in ethernet passive optical networks,” IEEE Journal of Selected Topics in Quantum Electronics, July-Aug. (2006). [14] Glen Kramer, Biswanath Mukherjee, Sudhir Dixit, Yinghua Ye, and Ryan Hirth “ Supporting differentiated classes of service in Ethernet passive optical networks,” Journal of Optical Communications and Networking, Vol. 1, Iss. 9 pp: 280–298 Aug. 20,(2002). [15] KrishnaM. Sivalingam,Jie Wang,Xiangjun Wu,Manav Mishra “An Interval-Based Scheduling Algorithm for Optical WDM Star Networks,” Photonic Network Communications, Volume 4, Issue 1, pp 73- 87, January (2002). [16] D. Levine, I. Akyildiz, PROTON: A media access control protocol for optical networks with star topology, IEEE/ACM Transactions on Networking, vol. 3,no. 2, pp. 158–168, April (1995). [17] R. Deepalakshmi, Dr. S. Rajaram “New MAC Protocol for Traffic Routing in Optical Networks by exploiting Delays in Dynamic Bandwidth Allocation,” International Conference on Computer Applications & Industrial Electronics,pp.307-312,Dec.(2011). [18] R. Deepalakshmi, Dr. S. Rajaram “A Novel Medium Access Control Protocol for Routing Multimedia Traffic in Optical Networks by exploiting Delays with improved Dynamic Bandwidth Allocation,” ARPN Journal of Systems and Software, Volume 1 No. 7, October (2011). [19] R. Deepalakshmi, Dr. S. Rajaram “Multimedia Traffic Routing Algorithm for Optical Networks with Enhanced Performance Characteristics,” International Conference on Internet Multimedia Systems Architecture and Applications, December (2010). [20] R. Deepalakshmi, Dr. S. Rajaram “A Dynamic Cost Optimized Provisioning Algorithm- (DCOPA) for Optical Networks with less Rejection Ratio,” International Conference on Communication and Computational Intelligence – 2010,.pp.11- 16, December(2010). [21] R. Deepalakshmi, Dr. S. Rajaram “New Enhanced Performance MAC Routing Algorithm to Improve Reliability in Multimedia Data Transmission Based on Mutual Diversity for Optical Networks,” European Journal of Scientific Research, Vol.72 No.2, pp. 285-297,(2012) |
|
Cite this paper R.Deepalakshmi, S.Rajaram. (2016) A Novel MAC Scheduling Algorithm to Regulate Multimedia Traffic with Promising QoS. International Journal of Communications, 1, 58-66 |
|
|
