An energy efficient traffic shaping algorithm for Ethernet-based multimedia industrial traffic

A. Cenedese, Marco Michielan, F. Tramarin, S. Vitturi
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引用次数: 5

Abstract

Industrial communication systems, like the very popular real-time Ethernet networks, are ever more used to carry multimedia traffic, i.e. that generated by applications employing complex sensors such as, for example, video cameras. Ethernet networks, however, revealed to be quite inefficient in terms of energy saving since the power consumption of a link between any two devices does not decrease significantly during the (statistically long) idle periods, i.e. the intervals of time in which the link is not crossed by traffic. In this paper we present a novel traffic shaping technique that aims at saving energy when the multimedia industrial traffic has self similar characteristics. In particular, the proposed method combines the statistical properties of the traffic, with the opportunities offered by the recent amendment to the Ethernet standard, called Energy Efficient Ethernet (EEE), to design a strategy based on the analysis of current traffic levels and the prediction of the incoming data flow. Simulation results are presented to prove the effectiveness of the strategy which leads to considerable energy savings at the expense of only a limited bounded delay in frame delivery.
基于以太网的多媒体工业流量节能整形算法
工业通信系统,如非常流行的实时以太网,越来越多地用于承载多媒体流量,即由采用复杂传感器的应用程序产生的流量,例如,摄像机。然而,以太网络在节能方面显示出相当低的效率,因为任何两个设备之间的链路的功耗在(统计上很长的)空闲期间(即链路不被流量穿越的时间间隔)不会显著降低。针对多媒体工业流量具有自相似特性的情况,提出了一种新的流量整形技术。特别地,所提出的方法结合了流量的统计特性,以及最近对以太网标准的修订(称为节能以太网(EEE))提供的机会,设计了基于当前流量水平分析和传入数据流预测的策略。仿真结果证明了该策略的有效性,以有限的帧传输延迟为代价,节省了大量的能量。
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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