Detecting and Interpreting Faults in Vulnerable Power Grids With Machine Learning
Permanent lenke
https://hdl.handle.net/10037/23888Dato
2021-11-10Type
Journal articleTidsskriftartikkel
Peer reviewed
Forfatter
Chiesa, Matteo; Bianchi, Filippo Maria; Eikeland, Odin Foldvik; Holmstrand, Inga Setså; Bakkejord, SigurdSammendrag
Unscheduled power disturbances cause severe consequences both for customers and grid
operators. To defend against such events, it is necessary to identify the causes of interruptions in the power
distribution network. In this work, we focus on the power grid of a Norwegian community in the Arctic
that experiences several faults whose sources are unknown. First, we construct a data set consisting of
relevant meteorological data and information about the current power quality logged by power-quality
meters. Then, we adopt machine-learning techniques to predict the occurrence of faults. Experimental results
show that both linear and non-linear classifiers achieve good classification performance. This indicates that
the considered power quality and weather variables explain well the power disturbances. Interpreting the
decision process of the classifiers provides valuable insights to understand the main causes of disturbances.
Traditional features selection methods can only indicate which are the variables that, on average, mostly
explain the fault occurrences in the dataset. Besides providing such a global interpretation, it is also important
to identify the specific set of variables that explain each individual fault. To address this challenge, we adopt
a recent technique to interpret the decision process of a deep learning model, called Integrated Gradients. The
proposed approach allows gaining detailed insights on the occurrence of a specific fault, which are valuable
for the distribution system operators to implement strategies to prevent and mitigate power disturbances.
Forlag
IEEESitering
O. F. Eikeland, I. S. Holmstrand, S. Bakkejord, M. Chiesa and F. M. Bianchi, "Detecting and Interpreting Faults in Vulnerable Power Grids With Machine Learning," in IEEE Access, vol. 9, 2021Metadata
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