Security Analysis of Energy Internet With Robust Control Approaches and Defense Design
Power cyber-physical systems (PCPSs) are becoming increasingly complex and diverse, benefitting from all aspects of societal issues. A PCPS is a next-generation system that is a tight conjunction of computation, communication, control, and power systems. The integration of Internet of Things and PCP...
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doaj-b51ade8a05b74b2ea7d3c7433e13dd1e2021-03-29T20:39:39ZengIEEEIEEE Access2169-35362018-01-016112031121410.1109/ACCESS.2018.28069418294058Security Analysis of Energy Internet With Robust Control Approaches and Defense DesignHui Ge0https://orcid.org/0000-0003-3553-6887Zhenjiang Zhao1School of Automation, Nanjing University of Posts and Telecommunications, Nanjing, ChinaInstitute of Shipping and Mechanics Engineering, Taizhou University, Taizhou, ChinaPower cyber-physical systems (PCPSs) are becoming increasingly complex and diverse, benefitting from all aspects of societal issues. A PCPS is a next-generation system that is a tight conjunction of computation, communication, control, and power systems. The integration of Internet of Things and PCPS generates a novel energy system, the Internet of Energy, which is the future of the energy system. In the same way, the connection of bulk components and the extensive communications among them has brought many insecurities, uncertainties, and security challenges. Thus, a study of the analysis and synthesis of the reliability and security of PCPS is presented in this paper. By considering the unsafe uncertainties, models are formulated for a general cyber-attack, and a double-loop architecture for security defense is designed. According to this framework, security control scenarios are obtained from the character of each kind of cyber-attack. Finally, a separately excited dc motor with uncertainty is used as an example to demonstrate the problem.https://ieeexplore.ieee.org/document/8294058/Energy InternetInternet of Thingspower cyber-physical systemcyber securitysystem uncertainty |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Hui Ge Zhenjiang Zhao |
spellingShingle |
Hui Ge Zhenjiang Zhao Security Analysis of Energy Internet With Robust Control Approaches and Defense Design IEEE Access Energy Internet Internet of Things power cyber-physical system cyber security system uncertainty |
author_facet |
Hui Ge Zhenjiang Zhao |
author_sort |
Hui Ge |
title |
Security Analysis of Energy Internet With Robust Control Approaches and Defense Design |
title_short |
Security Analysis of Energy Internet With Robust Control Approaches and Defense Design |
title_full |
Security Analysis of Energy Internet With Robust Control Approaches and Defense Design |
title_fullStr |
Security Analysis of Energy Internet With Robust Control Approaches and Defense Design |
title_full_unstemmed |
Security Analysis of Energy Internet With Robust Control Approaches and Defense Design |
title_sort |
security analysis of energy internet with robust control approaches and defense design |
publisher |
IEEE |
series |
IEEE Access |
issn |
2169-3536 |
publishDate |
2018-01-01 |
description |
Power cyber-physical systems (PCPSs) are becoming increasingly complex and diverse, benefitting from all aspects of societal issues. A PCPS is a next-generation system that is a tight conjunction of computation, communication, control, and power systems. The integration of Internet of Things and PCPS generates a novel energy system, the Internet of Energy, which is the future of the energy system. In the same way, the connection of bulk components and the extensive communications among them has brought many insecurities, uncertainties, and security challenges. Thus, a study of the analysis and synthesis of the reliability and security of PCPS is presented in this paper. By considering the unsafe uncertainties, models are formulated for a general cyber-attack, and a double-loop architecture for security defense is designed. According to this framework, security control scenarios are obtained from the character of each kind of cyber-attack. Finally, a separately excited dc motor with uncertainty is used as an example to demonstrate the problem. |
topic |
Energy Internet Internet of Things power cyber-physical system cyber security system uncertainty |
url |
https://ieeexplore.ieee.org/document/8294058/ |
work_keys_str_mv |
AT huige securityanalysisofenergyinternetwithrobustcontrolapproachesanddefensedesign AT zhenjiangzhao securityanalysisofenergyinternetwithrobustcontrolapproachesanddefensedesign |
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1724194390723788800 |