2020 journal article
Resilient Collaborative Distributed Energy Management System Framework for Cyber-Physical DC Microgrids
IEEE TRANSACTIONS ON SMART GRID, 11(6), 4637–4649.
author keywords: Microgrids; Energy management; Resilience; Optimization; Partial discharges; Linear programming; Cyber-physical system; distributed optimization; energy management system; false data injection attack; microgrid; and resilience
TL;DR:
Under the R-CoDEMS framework, a reputation-based distributed attack detection and mitigation algorithm is also proposed to improve the system’s resilience against typical non-colluding and colluding false data injection attacks.
(via Semantic Scholar)
UN Sustainable Development Goal Categories
7. Affordable and Clean Energy
(Web of Science; OpenAlex)
Source: Web Of Science
Added: December 11, 2020
This article investigates the resilience of the consensus-based distributed economic dispatch (ED) in cyberphysical DC microgrid energy management system (EMS). A holistic framework, called resilient collaborative distributed EMS (R-CoDEMS), is proposed to model the system dynamics, adversaries, and the cybersecurity of the consensus-based distributed ED. Under the R-CoDEMS framework, a reputation-based distributed attack detection and mitigation algorithm is also proposed to improve the system’s resilience against typical non-colluding and colluding false data injection attacks. The effectiveness and scalability of the proposed R-CoDEMS countermeasure is evaluated on a typical microgrid system and large-scale networks via numerical simulations.