基于遗传算法的TCP/IP网络非线性神经网络拥塞控制

2010 2nd International Conference on Computational Intelligence, Communication Systems and Networks Pub Date : 2010-07-28 DOI:10.1109/CICSyN.2010.21

M. Rouhani, Mohammad Rasoul Tanhatalab, Ali Shokohi-Rostami

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引用次数: 11

摘要

主动队列管理(AQM)在TCP网络中被广泛用于避免拥塞。尽管已经提出了许多AQM方案来调节接近参考水平的队列大小，如RED、PI控制器、PID控制器、自适应预测控制器(APC)和使用反向传播(BP)的神经网络，但由于TCP的非线性和时变随机特性，大多数AQM方案无法充分适应TCP网络的动态。本文利用TCP网络的非线性模型，设计了一种非线性神经网络控制器。采用遗传算法训练非线性神经控制器。我们通过仿真实验评估了所提出的神经网络AQM方法的性能。与其他方案相比，该方法具有更快的瞬态响应、更大的吞吐量和更高的链路利用率。

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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Nonlinear Neural Network Congestion Control Based on Genetic Algorithm for TCP/IP Networks

Active Queue Management (AQM) has been widely used for congestion avoidance in TCP networks. Although numerous AQM schemes have been proposed to regulate a queue size close to a reference level as RED, PI controller, PID Controller, Adaptive prediction controller(APC) and neural network using the Back-Propagation (BP) most of them are incapable of adequately adapting to TCP network dynamics due to TCP’s non-linearity and time-varying stochastic properties. In this paper, we design a nonlinear neural network controller using the non-linear model of TCP network. Genetic algorithms are used to train the nonlinear neural controller. We evaluate the performances of the proposed neural network AQM approach via simulation experiments. The proposed approach yields superior performance with faster transient response, larger throughput, and higher link utilization, as compared to other schemes.

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2010 2nd International Conference on Computational Intelligence, Communication Systems and Networks

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