Byzantine Fault Tolerance for Electric Power Grid Monitoring and Control

2008 International Conference on Embedded Software and Systems Pub Date : 2008-07-29 DOI:10.1109/ICESS.2008.13

Wenbing Zhao, F. E. Villaseca

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引用次数: 12

Abstract

The stability of the electric power grid is crucial to every nation's security and well-being. As revealed by a number of large-scale blackout incidents in North America, the data communication infrastructure for power grid is in urgent need of transformation to modern technology. It has been shown by extensive research work that such blackout could have been avoided if there were more prompt information sharing and coordination among the power grid monitoring and control systems. In this paper, we point out the need for Byzantine fault tolerance and investigate the feasibility of applying Byzantine fault tolerance technology to ensure high degree of reliability and security of power grid monitoring and control. Our empirical study demonstrated that Byzantine fault tolerant monitoring and control can easily sustain the 60 Hz sampling rate needed for supervisory control and data acquisition (SCADA) operations with sub-millisecond response time under the local-area network environment. Byzantine fault tolerant monitoring and control is also feasible under the wide-area network environment for power grid applications that demand sub-second reaction time.

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电网监测与控制的拜占庭容错

电网的稳定对各国的安全和福祉至关重要。从北美发生的多起大规模停电事故来看，电网数据通信基础设施急需向现代技术转型。大量的研究表明，如果电网监控系统之间能够更加及时地进行信息共享和协调，这种停电是可以避免的。本文指出了拜占庭容错技术的必要性，并探讨了应用拜占庭容错技术来保证电网监控的高可靠性和安全性的可行性。我们的实证研究表明，在局域网环境下，拜占庭容错监测和控制可以很容易地维持60 Hz的采样率，以亚毫秒的响应时间进行监控和数据采集(SCADA)操作。对于需要亚秒级反应时间的电网应用，拜占庭式容错监测与控制在广域网环境下也是可行的。

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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2008 International Conference on Embedded Software and Systems

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