Design and modeling approaches to cyberattacks for grid-tied PV systems

book chapter

English

This chapter provides a detailed understanding of physics- and data-oriented approaches for emulating cyberattack in a grid-connected system through FDI attacks. The physics-oriented tools are developed based on the graph model of the systems control architecture, whereas the data-oriented tools are based on the GT approach and GAN. The design process for all three approaches is carried out on the same system. The physics-oriented tools are identified to have an average FDIA accuracy of 75 to emulate the fault with long training times. Furthermore, the data-oriented approach with game theory has less training accuracy with less training time, and the GANs have the highest training accuracy of 99.4% with a training time of 1 min 36 s for 7 000 iterations. Besides, the GAN-based FDIA is also identified to have a maximum-likelihood ratio while emulating the cyberattack profile.

Cyber-attack, False data injection attack, Power electronics converters, Photovoltaic systems

KHAN, M.; KURUKURU, V.

9. 9. 2022

IET

London, England

9781839533327

Cyber Security for Microgrids

Subham Sahoo, Frede Blaabjerg, Tomislav Dragicevic

1

179

201

23

https://digital-library.theiet.org/content/books/10.1049/pbpo196e_ch9