Machine Learning Methods for Attack Detection in the Smart Grid

Attack detection problems in the smart grid are posed as statistical learning problems for different attack scenarios in which the measurements are observed in batch or online settings. In this approach, machine learning algorithms are used to classify measurements as being either secure or attacked...

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Bibliographic Details
Published in:IEEE transaction on neural networks and learning systems 2016-08, Vol.27 (8), p.1773-1786
Main Authors: Ozay, Mete, Esnaola, Inaki, Yarman Vural, Fatos Tunay, Kulkarni, Sanjeev R., Poor, H. Vincent
Format: Article
Language:English
Subjects:
Algorithms
Attack detection
classification
Distance education
Distance learning
Kernel
Learning
Learning systems
Machine learning
Machine learning algorithms
Mathematical analysis
Neural networks
phase transition
Prediction algorithms
Smart grid
smart grid security
Smart grids
sparse optimization
State vectors
Statistical learning
Vectors
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Summary:Attack detection problems in the smart grid are posed as statistical learning problems for different attack scenarios in which the measurements are observed in batch or online settings. In this approach, machine learning algorithms are used to classify measurements as being either secure or attacked. An attack detection framework is provided to exploit any available prior knowledge about the system and surmount constraints arising from the sparse structure of the problem in the proposed approach. Well-known batch and online learning algorithms (supervised and semisupervised) are employed with decision- and feature-level fusion to model the attack detection problem. The relationships between statistical and geometric properties of attack vectors employed in the attack scenarios and learning algorithms are analyzed to detect unobservable attacks using statistical learning methods. The proposed algorithms are examined on various IEEE test systems. Experimental analyses show that machine learning algorithms can detect attacks with performances higher than attack detection algorithms that employ state vector estimation methods in the proposed attack detection framework.
ISSN:2162-237X
2162-2388
DOI:10.1109/TNNLS.2015.2404803