Fuzzy logic congestion control in IEEE 802.11 wireless local area networks: A performance evaluation

AFRICON 2007 Pub Date : 2007-12-12 DOI:10.1109/AFRCON.2007.4401645

Clement N. Nyirenda, D. Dawoud

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Abstract

In 802.11 wireless local area networks, the wired and the wireless interfaces of the access point are characterized by the disparity in channel capacity. This presents a significant bottleneck for traffic flowing from the wired network to the wireless network. Therefore, the implementation of a congestion control mechanism in access points promises to be a suitable solution. Recently, a particle swarm optimized fuzzy logic congestion detection (FLCD) was proposed for IP networks. This algorithm synergistically combines the good characteristics of traditional active queue management (AQM) algorithms and fuzzy logic based AQM algorithms. Its membership functions are designed automatically by using a multi-objective particle swarm optimization (MOPSO) algorithm in order to achieve optimal performance on all the major performance metrics of IP congestion control. In this paper, we evaluate the performance of the FLCD algorithm in the wireless local area network environment. We compare its performance with that of ARED and the Droptail mechanism. Simulation results show that the FLCD algorithm helps to minimize UDP traffic delay, packet loss rates. In terms of throughput, the FLCD algorithm exhibits similar performance to the other schemes. Its UDP jitter is slightly higher than that of the Droptail mechanism but better than that of ARED.

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IEEE 802.11无线局域网中的模糊逻辑拥塞控制:性能评估

在802.11无线局域网中，接入点的有线和无线接口的特点是信道容量的差异。这对从有线网络到无线网络的流量构成了显著的瓶颈。因此，在接入点中实现拥塞控制机制有望成为一种合适的解决方案。最近，针对IP网络提出了一种粒子群优化模糊逻辑拥塞检测方法。该算法综合了传统主动队列管理算法和基于模糊逻辑的主动队列管理算法的优点。为了在IP拥塞控制的主要性能指标上达到最优性能，采用多目标粒子群优化(MOPSO)算法自动设计其隶属函数。在本文中，我们评估了FLCD算法在无线局域网环境下的性能。并将其性能与自动识别和Droptail机制进行了比较。仿真结果表明，FLCD算法有助于最小化UDP流量延迟、丢包率。在吞吐量方面，FLCD算法表现出与其他方案相似的性能。它的UDP抖动略高于Droptail机制，但优于ARED机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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AFRICON 2007

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