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A multi-agent deep reinforcement learning paradigm to improve the robustness and resilience of grid connected electric vehicle charging stations against the destructive effects of cyber-attacks

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  • Sepehrzad, Reza
  • Khodadadi, Amin
  • Adinehpour, Sara
  • Karimi, Maede

Abstract

The rising deployment of electric vehicle charging stations (EVCS) in existing power grids and their integration with electric vehicles through communication systems are increasingly vulnerable to cyber-attacks, such as false data injection (FDI) and uncertainties of communication system. This research introduces an EVCS evaluation from a techno-economic standpoint, utilizing the developed and data-oriented TSKFS&MADRL technique to identify and rectify inaccuracies stemming from cyber-attacks like FDI and communication system delays. This method aims to enhance the resilience of EVCSs against sabotage attacks by ensuring fast dynamic responses. Initially, the study models the potential targets of hackers, such as communication systems and transducer sensors, and employs the Euclidean norm theory, weighted least square error method, and residual error technique to identify cyber-attacks resulting from FDI through the comparison of measured data with reference values based on probability distribution functions. Subsequently, the network control and recovery requirements are facilitated by the proposed controller. The proposed approach application has been demonstrated in the IEEE 33 bus, showcasing a 7.33 % lower experimental operation cost compared to the RL method and 12.15 % lower than the CNN method. Additionally, the FDI detection time is observed to be 40 % quicker than alternative methods based on the experimental outcomes.

Suggested Citation

  • Sepehrzad, Reza & Khodadadi, Amin & Adinehpour, Sara & Karimi, Maede, 2024. "A multi-agent deep reinforcement learning paradigm to improve the robustness and resilience of grid connected electric vehicle charging stations against the destructive effects of cyber-attacks," Energy, Elsevier, vol. 307(C).
    • Handle: RePEc:eee:energy:v:307:y:2024:i:c:s0360544224024435
    DOI: 10.1016/j.energy.2024.132669
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    References listed on IDEAS

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    1. Sepehrzad, Reza & Al-Durra, Ahmed & Anvari-Moghaddam, Amjad & Sadabadi, Mahdieh S., 2025. "Short-term and probability scenario-oriented energy management of integrated energy distribution systems with considering energy market interactions and end-user participation," Energy, Elsevier, vol. 322(C).
    2. Ramul, Ali Rashid & Shahraki, Atefeh Salimi & Bachache, Nasseer K. & Sadeghi, Ramtin, 2025. "Cyberspace enhancement of electric vehicle charging stations in smart grids based on detection and resilience measures against hybrid cyberattacks: A multi-agent deep reinforcement learning approach," Energy, Elsevier, vol. 325(C).
    3. Sepehrzad, Reza & Langeroudi, Amir Saman Godazi & Al-Durra, Ahmed & Anvari-Moghaddam, Amjad & Sadabadi, Mahdieh S., 2025. "Demand response-based multi-layer peer-to-peer energy trading strategy for renewable-powered microgrids with electric vehicles," Energy, Elsevier, vol. 320(C).

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