October 21, 2022
Conference Paper

Hybrid Data-Driven Physics-Based Model Framework Implementation: Towards a Secure Cyber-Physical Operation of the Smart Grid

Abstract

False data injection cyber-attack detection models on smart grid operation have been much explored recently, considering analytical physics-based and data-driven solutions. Recently, a hybrid data-driven physics-based model framework for monitoring the smart grid is developed. However, the framework has not been implemented in real-time environment yet. In this paper, the framework of the hybrid model is developed within a real-time simulation environment. OPAL-RT real-time simulator is used to enable Hardware-in-the-Loop testing of the framework. IEEE 9-bus system is considered as a testing grid for gaining insight. The process of building the framework and the challenges faced during development are presented. The performance of the framework is investigated under various false data injection attacks.

Published: October 21, 2022

Citation

Vega-Martinez V., A. Cooper, B. Vera, N. Aljohani, and A. Bretas. 2022. Hybrid Data-Driven Physics-Based Model Framework Implementation: Towards a Secure Cyber-Physical Operation of the Smart Grid. In IEEE International Conference on Environment and Electrical Engineering and IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe 2022), June 28- July 28, 2022, Prague, Czech Republic, 1-5. Piscataway, New Jersey:IEEE. PNNL-SA-171685. doi:10.1109/EEEIC/ICPSEurope54979.2022.9854693

Research topics

Grid Cybersecurity
Advanced Hydrocarbon Conversion