2016
DOI: 10.1155/2016/3684238
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Multivariate Statistics and Supervised Learning for Predictive Detection of Unintentional Islanding in Grid-Tied Solar PV Systems

Abstract: Integration of solar photovoltaic (PV) generation with power distribution networks leads to many operational challenges and complexities. Unintentional islanding is one of them which is of rising concern given the steady increase in grid-connected PV power. This paper builds up on an exploratory study of unintentional islanding on a modeled radial feeder having large PV penetration. Dynamic simulations, also run in real time, resulted in exploration of unique potential causes of creation of accidental islands.… Show more

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Cited by 8 publications
(2 citation statements)
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“…The authors had previously used the principal components (PCs) analysis (PCA) on a dataset consisting of both positive and negative half-cycles of instantaneous voltage and current with projection onto the first PC as the single training feature. Although the PC transformation matrix contained mostly ones (with both signs) and zeros, it contained the information of both current and voltage samples and gave good classification results for offline testing as reported in [18]. One important observation was the ease and convenience of matrix-transformation-based methods for extracting features in real-time data transfer.…”
Section: Computational Geometry-based Feature Extraction Methodology mentioning
confidence: 93%
“…The authors had previously used the principal components (PCs) analysis (PCA) on a dataset consisting of both positive and negative half-cycles of instantaneous voltage and current with projection onto the first PC as the single training feature. Although the PC transformation matrix contained mostly ones (with both signs) and zeros, it contained the information of both current and voltage samples and gave good classification results for offline testing as reported in [18]. One important observation was the ease and convenience of matrix-transformation-based methods for extracting features in real-time data transfer.…”
Section: Computational Geometry-based Feature Extraction Methodology mentioning
confidence: 93%
“…Supervised learning techniques or induction models deciphers patterns by connecting and evaluating relationships between properly labeled data, its variables, and the known outcomes. 71,72 Unlike supervised learning where the algorithm exploits known information and the expected outcome is known, unsupervised learning is the total opposite. The learning process is performed using unlabeled feature vectors, unsupervised learning algorithms decipher underlying patterns from the input data, and creates labels by grouping similar patterns together.…”
Section: Islanding Detection Standardsmentioning
confidence: 99%