James Jianqiao Yu
余剑峤
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Professor

School of Computer Science and Technology

Harbin Institute of Technology (Shenzhen)

University Town of Shenzhen, Nanshan District, Shenzhen, Guangdong, China

jqyu(at)hit.edu.cn jqyu(at)ieee.org Google Scholar
Bayesian Deep Learning for Dynamic Power System State Prediction Considering Renewable Energy Uncertainty

Authors
Shiyao Zhang and James J.Q. Yu*

Publication
Journal of Modern Power Systems and Clean Energy, Volume 10, Issue 4, July 2022, Pages 913--922

Abstract
Modern power systems are incorporated with distributed energy sources to be environmental-friendly and cost-effective. However, due to system uncertainties integrated with renewable energy sources, operations require to adopt effective strategies to stabilize the entire power system. Hence, the system operator need an accurate prediction tool to forecast dynamic system states effectively. In this paper, we propose a Bayesian deep learning approach to predict the dynamic system state in a general power system. First, the input system dataset with multiple system features requires the stage of data pre-processing. Second, we obtain the dynamic state matrix of a general power system through the Newton-Raphson power flow model. Third, by incorporating the state matrix with the system features, we propose a Bayesian long short-term memory network to predict the dynamic system state variables accurately. Simulation results show that accurate prediction can be achieved at different scales of power systems through the proposed Bayesian deep learning approach.