Performance Analysis of a Novel CRMA Protocol 

Based on Runtime Optimization

He Hong; Li Jian-dong; Sheng Min

Volume 28 Issue 5

Aug. 2010

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Article Navigation > Journal of Electronics & Information Technology > 2006 > 28(5): 810-814

He Hong, Li Jian-dong, Sheng Min. Performance Analysis of a Novel CRMA Protocol Based on Runtime Optimization[J]. Journal of Electronics & Information Technology, 2006, 28(5): 810-814.

Citation:

He Hong, Li Jian-dong, Sheng Min. Performance Analysis of a Novel CRMA Protocol Based on Runtime Optimization[J]. Journal of Electronics & Information Technology, 2006, 28(5): 810-814.

He Hong, Li Jian-dong, Sheng Min. Performance Analysis of a Novel CRMA Protocol Based on Runtime Optimization[J]. Journal of Electronics & Information Technology, 2006, 28(5): 810-814.

Citation:

He Hong, Li Jian-dong, Sheng Min. Performance Analysis of a Novel CRMA Protocol Based on Runtime Optimization[J]. Journal of Electronics & Information Technology, 2006, 28(5): 810-814.

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Performance Analysis of a Novel CRMA Protocol Based on Runtime Optimization

Received Date: 2004-09-10
Rev Recd Date: 2005-07-14
Publish Date: 2006-05-19

Abstract

Abstract

To improve the Binary Exponential Backoff algorithm (BEB)s channel throughput of IEEE 802.11 protocol, a novel Collision Reduced Multiple Access protocol (CRMA) is proposed based on slow contention window decrease mechanism and runtime optimization method. By integrating slow CW decrease scheme with runtime optimization mechanism to effectively solve no state information indicating the actual contention level of BEB algorithm after a successful transmission, CRMA protocol can record the current backoff stage of the latest successful transmission under the overload network precisely. As a result, it decreases the collision times and improve the channel utilization. The CRMA protocol could be compatible completely with pre-existed IEEE 802.11 protocol, and it is represented by its simplicity, integrability, complete distribution and adaptiveness. The performance analysis and numerical results show that its performance is much better than the IEEE 802.11 protocol and other recent multiple access mechanisms because of the accurate estimation of congested level before transmission and the effective record of backoff stage after a successive transmission.

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References(1)

References

Bharghavan V.[J].Demers A, Shenker S, Zhang L. MACAW: Amedia access protocol for wireless LANs. Proceedings of the ACM SIGCOMM94, New York.1994,:-[2]IEEE STD 802.111999, Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications, 1999. .[3]Bononi L, Conti M, Donatiello L. Design and performance evaluation of a distributed contention control (DCC) mechanism for IEEE 802.11 wireless local area networks. WOWMOM 98, Washington, 1998: 5967. .[4]Bononi L.[J].Conti M, Gregori E. Design and performance evaluation of an asymptotically optimal backoff algorithm for IEEE 802.11 wireless LANs. Proc. Hawaii Intl Conf, System Sciences, Hawaii.2000,:-[5]Bononi L, Conti M, Gregori E, Runtime optimization of IEEE 802.11 wireless LANs performance. IEEE Trans. on Parallel and Distributed Systems, 2004, 15(1)： 6679. .[6]Aad I, Ni Q, Castelluccia C, Turletti T. Enhancing IEEE 802.11 performance with slow CW decrease. IEEE 802.11e working group document 802.1102/67r0, November 11, 2002 .[7]Montgomery D C. Introduction to Statistic Quality Control.Second Edition, New York, John Wiley and Sons, 1991,chapter 3.[8]Bianchi G.[J].Fratta L, Olivieri M. Performance evaluation andenhancement of the CSMA/CA MAC protocol for 802.11 wireless LANs. Proceeding of PIMRC96, Beijing.1996,:-[9]Gallagher R G. A perspective on multiaccess channels. IEEE Trans. Information Theory, 1985, 31(2): 124142. .[10]Cali F, Conti M, Gregori E. Dynamic IEEE 802.11: design, modeling and performance evaluation. IEEE Journal on Selected Areas in Communications, 2000, 18(9): 17741786. .[11]Cali F, Conti M, Gregori E. Dynamic tuning of the IEEE 802.11 protocol to achieve a theoretical throughput limit. IEEE/ACM Trans, Networking, 2000, 8(6): 785799.

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