SIEMS: A Secure Intelligent Energy Management System for Industrial IoT Applications
In this work, we deploy a one-day-ahead prediction algorithm using a deep neural network for a fast-response BESS in an intelligent energy management system (I-EMS) that is called SIEMS. The main role of the SIEMS is to maintain the state of charge at high rates based on the one-day-ahead information about solar power, which depends on meteorological conditions. The remaining power is supplied by the main grid for sustained power streaming between BESS and end-users. Considering the usage of information and communication technology components in the microgrids, the main objective of this paper is focused on the hybrid microgrid performance under cyber-physical security adversarial attacks. Fast gradient sign, basic iterative, and DeepFool methods, which are investigated for the first time in power systems e.g. smart grid and microgrids, in order to produce perturbation for training data.
Item Type | Article |
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Additional information | © IEEE. This is the accepted manuscript version of an article which has been published in final form at https://doi.org/10.1109/TII.2022.3165890 |
Keywords | adversarial attacks, cyber-physical security, detectors, energy management, energy management systems, hybrid microgrid, informatics, internet of things (iot), machine learning, microgrids, prediction algorithms, resilience, security, control and systems engineering, information systems, computer science applications, electrical and electronic engineering |
Date Deposited | 15 May 2025 14:53 |
Last Modified | 31 May 2025 00:33 |
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picture_as_pdf - _109_PedramRahim_Intelligent_Microgrid_IEEE_TII_published.pdf
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subject - Submitted Version
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