Leveraging single board computers for anomaly detection in the smart grid

Suzanne J. Matthews, A. S. Leger
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引用次数: 14

Abstract

Smart Grid Technology is becoming an integral part of ensuring reliable and resilient operation of the power grid. The high sample rate and time synchronization of Phasor Measurement Units (PMUs) can provide enhanced situational awareness and more detailed information on power system dynamics as compared to traditional SCADA systems. A smart grid system must be able to detect alarm events (such as sudden voltage fluctuations or drops in current) in close to real-time. However, the communication network and bandwidth requirements to transfer large amounts of PMU data for realtime analysis is problematic. In this paper, we propose the use of a decentralized architecture for rapidly analyzing PMU data using single board computers to provide energy efficient monitoring locally in the power grid. This approach reduces communication requirements and enables real-time analysis. We present a novel anomaly detection scheme and test our approach on a real dataset of 1.4 million measurements derived from 8 PMUs from a 1000:1 scale emulation of a working power grid. Our results show that a single Raspberry Pi is sufficient to analyze data from multiple PMUs at a rate suitable for real-time analysis.
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利用单板计算机在智能电网中进行异常检测
智能电网技术正成为保障电网可靠、弹性运行的重要组成部分。与传统的SCADA系统相比,相量测量单元(pmu)的高采样率和时间同步可以提供增强的态势感知和更详细的电力系统动态信息。智能电网系统必须能够近乎实时地检测报警事件(如电压突然波动或电流下降)。然而,传输大量PMU数据进行实时分析的通信网络和带宽要求是有问题的。在本文中,我们建议使用分散式架构,使用单板计算机快速分析PMU数据,从而在电网中提供节能监测。这种方法减少了通信需求,并支持实时分析。我们提出了一种新的异常检测方案,并在一个真实数据集上测试了我们的方法,该数据集来自8个pmu的140万次测量,这些测量来自一个工作电网的1000:1比例模拟。我们的研究结果表明,单个树莓派足以以适合实时分析的速率分析来自多个pmu的数据。
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