2016
DOI: 10.1007/s40565-016-0211-x
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Improving the performance of power system protection using wide area monitoring systems

Abstract: Wide area monitoring (WAM) offers many opportunities to improve the performance of power system protection. This paper presents some of these opportunities and the motivation for their development. This methods include monitoring the suitability of relay characteristics, supervisory control of backup protection, more adaptive and intelligent system protection and the creation of novel system integrity protection scheme. The speed of response required for primary protection means that the role WAM in enhancing … Show more

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Cited by 88 publications
(45 citation statements)
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“…Wide-area monitoring, protection and control (WAMPAC) systems, facilitating the increased network visibility, improved the reaction time to the network demands and disturbances, and improvements to network reliability and security, play an inevitable role in the prevention of blackouts. Wide-area disturbance protection and control require distributed voltage and current measuring instrumentation, as well as fast and reliable communication links in order to provide the knowledge of the complete state of the power system over large geographical areas in real-time [6,7]. As part of the developing WAMPAC technologies, novel sensor systems capable of providing distributed voltage and current measurements while remaining cost-competitive with the current technology are desired.…”
Section: Introductionmentioning
confidence: 99%
“…Wide-area monitoring, protection and control (WAMPAC) systems, facilitating the increased network visibility, improved the reaction time to the network demands and disturbances, and improvements to network reliability and security, play an inevitable role in the prevention of blackouts. Wide-area disturbance protection and control require distributed voltage and current measuring instrumentation, as well as fast and reliable communication links in order to provide the knowledge of the complete state of the power system over large geographical areas in real-time [6,7]. As part of the developing WAMPAC technologies, novel sensor systems capable of providing distributed voltage and current measurements while remaining cost-competitive with the current technology are desired.…”
Section: Introductionmentioning
confidence: 99%
“…The quest for providing a reliable and uninterruptible power supply to loads have resulted in the complexity of power system networks. Consequently, this increase in complexity of power network increases fault current and may lead to system instability if not properly managed and quickly controlled (Phadke, et al, 2016). One of the possible ways to avert system instability or to maintain the integrity of a power system network is to keep the synchronous generators in synchronism (Fetissi, et al, 2015).…”
Section: Introductionmentioning
confidence: 99%
“…The above methods are commonly used in end-to-end or simple structured transmission lines. Some new algorithms have been proposed for multi-branch hybrid transmission lines: À improved methods based on traditional methods [9,10];`fault locating methods based on pattern recognition techniques such as Artificial Neural Networks and K-means clustering algorithms [11]; and´a method based on dynamic state estimation is proposed [12,13]. The principle of the first type of methods is first determining the fault branch and then locating the fault point based on the determined fault branch by the traditional method.…”
Section: Introductionmentioning
confidence: 99%