一种改进网络路由器主动队列管理的统一方法

2005 International Symposium on Intelligent Signal Processing and Communication Systems Pub Date : 2005-12-13 DOI:10.1109/ISPACS.2005.1595513

Zhongwei Zhang, D. Lai, Shan Suthaharan

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引用次数: 0

摘要

分层技术将TCP/IP协议分成几个层，并为每一层分配一些特殊的功能。传输层TCP中的流量和拥塞控制机制可以分散到网络层的IP中，在网络层中曾经有一个简单的策略(即:Drop-tail)管理路由器的缓冲区。主动队列管理可以通过检测Internet路由器中即将发生的拥塞来提高网络效率。第一个这样的努力是在20世纪90年代早期引入的随机早期检测(RED)，从那时起已经开发了许多主动队列管理算法。aqm的本质是在缓冲区被完全填满之前调整丢包速率。丢包概率是影响总吞吐量和传输延迟的决定性因素。各种各样的AQM算法已经被开发出来，在很大程度上基于统计数据来产生合适的下降率。不幸的是，所有这些算法都有这样或那样的缺点。在本文中，我们设计了一个统一的方法来确定丢包的可能性，该方法对所有可能对缓冲区占用有最终影响的因素都很敏感。所提出的方法已经在一个简单的网络上使用omnet++ [a]进行了测试。巴尔加)。

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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A unified approach to ameliorate active queue management of network routers

The layering technique has divided TCP/IP protocols into a few layers and assigned each layer with some special functionality. The mechanism of flow and congestion control in TCP at the transport layer can be dispersed to IP at the network layer where there used to be a simple strategy (ie. drop-tail) of managing the router's buffer. Active queue management can improve network efficiency by detecting impending congestions in Internet routers. The first such effort was random early detection (RED) introduced in the early 1990s, and a number of active queue management algorithms have been developed since then. The essence of AQMs is to adjust the packet dropping rate before the buffer becomes completely full. The dropping probability is a determining factor in affecting the overall throughput and transmission delay. Various AQM algorithms have been developed to produce a just-right dropping rate largely based on the statistical data. Unfortunately, all these algorithms possess some drawbacks in one way or another. In this paper, we devise a unified approach to determining the packet dropping possibility, which is sensitive to all factors that might have some ultimate effect on the buffer's occupancy. The proposed approach has been tested on a simple network using OMNET++ [A. Varga].

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2005 International Symposium on Intelligent Signal Processing and Communication Systems

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