研究成果
期刊论文|An improved algorithm for cubature Kalman filter based forecasting-aided state estimation and anomaly detection
发布时间:2022年05月02日 21:43    作者:    点击:[]

An improved algorithm for cubature Kalman filter based forecasting-aided state estimation and anomaly detection


作者:Zhaoyang Jin; Saikat Chakrabarti; James Yu; Lei Ding; Vladimir Terzija

摘要:This article proposes a new algorithm for forecasting-aided state estimation based on the cubature Kalman filter (CKF) and new methods for detecting and identifying data anomalies. In this article, through extensive simulations, the CKF was compared to four different types of forecasting-aided state estimators (FASEs) including extended Kalman filter (EKF), iterated EKF, second-order Kalman filter and unscented Kalman filter under normal operation and bad data conditions. Identifying the challenge that the estimation accuracy of the existing CKF-based estimator is significantly lower than that of the other FASEs in the cases of sudden load change, and sudden topology change caused by faults an attempt to improve the CKF accuracy has been undertaken. The existing detection methods cannot accurately detect and distinguish those anomalies, and they cannot identify the anomaly location. This article proposes an improved algorithm for CKF-based FASE that overcomes the drawbacks of the existing CKF-based FASEs using a novel anomaly detection algorithm. The simulation results show that the new anomaly detection method is superior to the two existing anomaly detection algorithms. The simulations are performed in the above-mentioned four cases in IEEE 14 and 118 bus test systems in MATLAB.

发表于:International Transactions on Electrical Energy Systems ( Volume: 31, Issue: 5, May. 2021)


上一条:期刊论文|A limited common-mode current switched-capacitor multilevel inverter topology and its performance and lifetime evaluation in grid-connected photovoltaic applications 下一条:期刊论文|Performance Improvement of a Three-Phase Interleaved DC-DC Converter without Requiring Antisaturation Control for Postfault Conditions

关闭

Copyright © 2021 All rights reserved. 版权所有:3308维多利亚优惠大厅 - 维多利亚老品牌优惠大厅科研团队 电话:0531-88392369 传真:0531-88392369 3308维多利亚优惠大厅千佛山校区 济南市经十路17923号 邮编 250061 3308维多利亚优惠大厅兴隆山校区 济南市二环东路12550号 邮编 250002