Reliability analysis of the PMU microwave communication networks using generalised stochastic Petri nets

B. Appasani, D. Mohanta
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引用次数: 1

Abstract

The phasor measurement units (PMUs) have evolved as powerful extrapolations of the supervisory control and data acquisition (SCADA) systems due to their profound application in the real time monitoring of the smart grid (SG). In the SG several such PMUs continuously generate the time tagged phasor measurements which are communicated to a central monitoring station known as the phasor data concentrator (PDC). The communication system plays a pivotal role in the transfer of the phasor measurements to the PDC and thus should be highly reliable. This article presents a detailed approach for the construction of the generalised stochastic Petri nets (GSPNs) for the reliability analysis of the synchrophasor microwave communication networks. These communication networks are optimally planned to achieve maximum reliability without compromising the system observability. Results from the case studies for the North Eastern power grid of India are presented to demonstrate the efficacy of the proposed approach.
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基于广义随机Petri网的PMU微波通信网络可靠性分析
相量测量单元(PMU)由于其在智能电网(SG)实时监测中的广泛应用,已发展成为监控和数据采集(SCADA)系统的强大外推。在SG中,几个这样的PMU连续生成时间标记的相量测量值,该测量值被传送到被称为相量数据集中器(PDC)的中央监测站。通信系统在向PDC传输相量测量值方面发挥着关键作用,因此应具有高度可靠性。本文提出了一种用于同步相量微波通信网络可靠性分析的广义随机Petri网的构造方法。对这些通信网络进行了优化规划,以在不影响系统可观察性的情况下实现最大可靠性。给出了印度东北电网的案例研究结果,以证明所提出方法的有效性。
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来源期刊
International Journal of Power and Energy Conversion
International Journal of Power and Energy Conversion Energy-Energy Engineering and Power Technology
CiteScore
1.60
自引率
0.00%
发文量
8
期刊介绍: IJPEC highlights the latest trends in research in the field of power generation, transmission and distribution. Currently there exist significant challenges in the power sector, particularly in deregulated/restructured power markets. A key challenge to the operation, control and protection of the power system is the proliferation of power electronic devices within power systems. The main thrust of IJPEC is to disseminate the latest research trends in the power sector as well as in energy conversion technologies. Topics covered include: -Power system modelling and analysis -Computing and economics -FACTS and HVDC -Challenges in restructured energy systems -Power system control, operation, communications, SCADA -Power system relaying/protection -Energy management systems/distribution automation -Applications of power electronics to power systems -Power quality -Distributed generation and renewable energy sources -Electrical machines and drives -Utilisation of electrical energy -Modelling and control of machines -Fault diagnosis in machines and drives -Special machines
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