弱链路计数机制对G3-PLC负载路由协议的影响

2015 IEEE International Symposium on Power Line Communications and Its Applications (ISPLC) Pub Date : 2015-03-01 DOI:10.1109/ISPLC.2015.7147598

F. V. Trimpont, Gaston Bayot Katumba, V. Moeyaert, S. Bette

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引用次数: 3

摘要

G3-PLC已被定义为智能电网。由于电网的性能与时间有关，因此被认为是一个动态网络。这就是为什么G3-PLC标准选择适应的技术来实现如此苛刻的通信条件的原因。其中之一与数据包路由有关。数据传输需要使用节点作为中继逐跳进行。最初为无线传感器网络开发的加载路由协议被选择，但增加了一些机制以提高其在PLC网络上的性能。本文对这些机制进行了描述，并对弱链路计数机制进行了具体研究。这种机制赋予网络中质量最好的路由特权，而不是最短的路由。然后通过在网络模拟器Contiki/Cooja上实现LOADng协议来分析路由的性能。特别地，我们评估了帧错误率、弱链路率和平均邻居数对弱链路计数机制的影响。通过仿真，我们确定了在哪些情况下这种增加的机制可以提高G3-PLC加载的性能。

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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Impact of the weak link count mechanism on G3-PLC LOADng routing protocol

G3-PLC has been defined for Smart Grid. The electrical grid is considered as a dynamic network because its performance are time-dependant. It is the reason why G3-PLC standard choose adapted technologies to perform communication is such harsh conditions. One of them concerns the packets routing. Data transmission needs to be performed hop-by-hop by using nodes as relays. LOADng routing protocol, initially developed for Wireless Sensor Networks, was chosen but some mechanisms were added to increase its performance on PLC networks. These mechanisms are described in this paper and the weak link count mechanism is specifically studied. This mechanism privileges the best quality routes in place of the shortest routes in the network. The performance of the routing is then analysed by implementing the LOADng protocol on the network simulator Contiki/Cooja. In particular, we evaluate the impact of the frame error rate, the weak link rate and the average number of neighbours on the weak link count mechanism. Thanks to simulations, we determine in which cases this added mechanism improves the performance of G3-PLC LOADng.

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2015 IEEE International Symposium on Power Line Communications and Its Applications (ISPLC)

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