Data Fusion-based Hybrid Framework for Cyber-Physical Security of the Smart Grid
Résumé
The integration of information communication technology with the power grid exposes it to cyber threats. The state estimation process provides stability to the smart grid. The communication network plays a major role in ensuring the successful transmission of state information. However, these network measurements are vulnerable to malicious attacks. This subsequently affects the network measurement such as associated high transmission delays and packet losses affecting the reliability of the smart grid. In this work, we propose a hybrid physics-based data-driven model that uses data fusion from the state-of-the-art physics-based Network State Estimation model and a data-driven model to detect false data injection attacks in the communication network layer of the smart grid. The performance of the data fusion method is evaluated and the simulation results show that the proposed model outperforms the standalone approaches in the detection of bad data. This shows that the proposed scheme is able to improve the cyberphysical security of the communication network layer of the smart grid.
Fichier principal
Hybrid_Framework_for_Cyber_physical_Security_of_the_Smart_Grid.pdf (586.39 Ko)
Télécharger le fichier
Origine | Fichiers produits par l'(les) auteur(s) |
---|