DocumentCode
1592876
Title
A KPCA and SVR Based Dynamic State Estimation Method for Power System
Author
Li, Yuan-cheng ; Gao, Ke
Author_Institution
Dept. of Comput. Sci., North China Electr. Power Univ., Beijing, China
Volume
2
fYear
2010
Firstpage
493
Lastpage
497
Abstract
Dynamic State Estimation (DSE) for power system considers statistical characters of systemic state variables in past period, has functions of state estimation and forecasting. This paper proposes a new method for state estimation problem in power systems based on Kernel Principle Component Analysis (KPCA) and Support Vector Regression (SVR). Firstly, the KPCA can extract the nonlinear relationship between original inputs from SCADA system to make data compression and feature extraction. KPCA is closely related to methods applied in Support Vector Regression (SVR). Then, the extracted principal data are used as inputs of SVM in order to forecast systemic state variables. Applying proposed system to IEEE14 data, the experiment results show that KPCA-SVR features high learning speed, good approximation and generalization ability compared with SVR.
Keywords
SCADA systems; data compression; feature extraction; power system analysis computing; power system state estimation; principal component analysis; regression analysis; support vector machines; IEEE14 data system; PCA; SCADA system; SVR; approximation ability; data compression; dynamic state estimation; feature extraction; generalization ability; kernel principle component analysis; learning speed; power system; support vector regression; systemic state variable forecasting; Data compression; Data mining; Feature extraction; Kernel; Power system analysis computing; Power system dynamics; Power systems; SCADA systems; State estimation; Support vector machines; Feature Extraction; KPCA; Power System; SVR; State Estimation;
fLanguage
English
Publisher
ieee
Conference_Titel
Computer Modeling and Simulation, 2010. ICCMS '10. Second International Conference on
Conference_Location
Sanya, Hainan
Print_ISBN
978-1-4244-5642-0
Electronic_ISBN
978-1-4244-5643-7
Type
conf
DOI
10.1109/ICCMS.2010.104
Filename
5421140
Link To Document