Distributed Machine Learning on Dynamic Power System Data Features to Improve Resiliency for the Purpose of Self-Healing

Numerous online methods for post-fault restoration have been tested on different types of systems. Modern power systems are usually operated at design limits and therefore more prone to post-fault instability. However, traditional online methods often struggle to accurately identify events from time...

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Bibliographic Details
Published inEnergies (Basel) Vol. 13; no. 13; p. 3494
Main Authors Karim, Miftah Al, Currie, Jonathan, Lie, Tek-Tjing
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.07.2020
Subjects
Algorithms
Alternative energy sources
Datasets
Decision making
event detection
feature extraction
Generators
Identification methods
Internet
Learning algorithms
Machine learning
Methods
Pattern recognition
self-healing grid
Stochasticity
Studies
Test systems
Time series
Wind power
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Summary:Numerous online methods for post-fault restoration have been tested on different types of systems. Modern power systems are usually operated at design limits and therefore more prone to post-fault instability. However, traditional online methods often struggle to accurately identify events from time series data, as pattern-recognition in a stochastic post-fault dynamic scenario requires fast and accurate fault identification in order to safely restore the system. One of the most prominent methods of pattern-recognition is machine learning. However, machine learning alone is neither sufficient nor accurate enough for making decisions with time series data. This article analyses the application of feature selection to assist a machine learning algorithm to make better decisions in order to restore a multi-machine network which has become islanded due to faults. Within an islanded multi-machine system the number of attributes significantly increases, which makes application of machine learning algorithms even more erroneous. This article contributes by proposing a distributed offline-online architecture. The proposal explores the potential of introducing relevant features from a reduced time series data set, in order to accurately identify dynamic events occurring in different islands simultaneously. The identification of events helps the decision making process more accurate.
ISSN:1996-1073
1996-1073
DOI:10.3390/en13133494