Early Anomaly Detection and Location in Distribution Network: A Data-Driven Approach
Abstract
The measurement data collected from the supervisory control and data acquisition (SCADA) system installed in distribution network can reflect the operational state of the network effectively. In this paper, a random matrix theory (RMT) based approach is developed for early anomaly detection and localization by using the data. For every feeder in the distribution network, a corresponding data matrix is formed. Based on the Marchenko-Pastur Law for the empirical spectral analysis of covariance `signal+noise' matrix, the linear eigenvalue statistics are introduced to indicate the anomaly, and the outliers and their corresponding eigenvectors are analyzed for locating the anomaly. As for the low observability feeders in the distribution network, an increasing data dimension algorithm is designed for the formulated low-dimensional matrices being more accurately analyzed. The developed approach can detect and localize the anomaly at an early stage, and it is robust to random disturbance and measurement error. Cases on Matpower simulation data and real SCADA data corroborate the feasibility of the approach.
Keywords
Cite
@article{arxiv.1801.01669,
title = {Early Anomaly Detection and Location in Distribution Network: A Data-Driven Approach},
author = {Xin Shi and Robert Qiu and Xing He and Zenan Ling and Haosen Yang and Lei Chu},
journal= {arXiv preprint arXiv:1801.01669},
year = {2020}
}
Comments
10 pages, submitted to IET Generation, Transmission and Distribution