Data communication over the smart grid

2009 IEEE International Symposium on Power Line Communications and Its Applications Pub Date : 2009-05-08 DOI:10.1109/ISPLC.2009.4913442

G. Srinivasa Prasanna, A. Lakshmi, S. Sumanth, V. Siṃha, Jyotsna L. Bapat, G. Koomullil

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引用次数: 93

Abstract

The emerging smart grid system requires high speed sensing of data from all the sensors on the system within a few power-cycles. The Advanced Metering Infrastructure is a simple example of such a system where all the meters on a certain grid must be able to provide the necessary information to the master head end within a very short duration (fraction of a second for real time load control). Wireless solutions for the smart grid systems have been implemented, but cannot access all grid locations, especially enclosed ones. In this paper, we present an interactive, OFDMA based communication system optimized for operation over the low voltage power lines in the CENELEC bands A and B. A channel model representing statistical time-varying, and frequency selective powergrid channels and noise is presented. Using this model, an OFDMA based transceiver is developed that is capable of providing smart grid like access capacity to the head end connected to multiple meters. The transceiver is optimized based on the channel model and the characteristics derived from the structure of the grid.

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智能电网上的数据通信

新兴的智能电网系统需要在几个电力周期内对系统上所有传感器的数据进行高速传感。高级计量基础设施是这样一个系统的一个简单的例子，在这个系统中，某个电网上的所有仪表必须能够在很短的时间内(实时负载控制的几分之一秒)向主头端提供必要的信息。智能电网系统的无线解决方案已经实现，但不能访问所有电网位置，特别是封闭的电网。在本文中，我们提出了一个交互式的，基于OFDMA的通信系统，该系统优化了在CENELEC频段A和b的低压电力线上运行。利用该模型，开发了一种基于OFDMA的收发器，该收发器能够向连接多个电表的前端提供类似智能电网的接入能力。基于信道模型和由网格结构导出的特性对收发器进行了优化。

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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2009 IEEE International Symposium on Power Line Communications and Its Applications

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