Abstract
This paper presents an inclusive review of the cyber-physical (CP) attacks, vulnerabilities, mitigation approaches on the power electronics and the security challenges for the smart grid applications. With the rapid evolution of the physical systems in the power electronics applications for interfacing renewable energy sources that incorporate with cyber frameworks, the cyber threats have a critical impact on the smart grid performance. Due to the existence of electronic devices in the smart grid applications, which are interconnected through communication networks, these networks may be subjected to severe cyber-attacks by hackers. If this occurs, the digital controllers can be physically isolated from the control loop. Therefore, the cyber-physical systems (CPSs) in the power electronic systems employed in the smart grid need special treatment and security. In this paper, an overview of the power electronics systems security on the networked smart grid from the CP perception, as well as then emphases on prominent CP attack patterns with substantial influence on the power electronics components operation along with analogous defense solutions. Furthermore, appraisal of the CPS threats attacks mitigation approaches, and encounters along the smart grid applications are discussed. Finally, the paper concludes with upcoming trends and challenges in CP security in the smart grid applications.
Highlights
Cyber-physical system (CPS) is considered a significant type of digital technology in power systems, medical, industrial control, communication, energy system, transportation, as well as precarious infrastructures
The main scopes of this paper are: presenting a comprehensive background on the CPS security in the power electronic systems applications, potential threat sources and their motivations are extensively surveyed, existing vulnerabilities in the networked smart grid are presented with highlighting the main reasons with real examples, introducing the impact along with vulnerability analysis of the control, communication as well as physical layer employed for handling the voltage source converters, existing control mechanisms for the networked smart grid are summarized by identifying the unsolved issues, introducing research trends and challenges in securing the CPS in the networked smart grid, according to this review, further research problems are addressed and their early solutions as future directions
DEFENSE MECHANISMS Attacks have been investigated in numerous applications that are intensively reliant on distribution systems with solar farms [184] and power electronics converters
Summary
Cyber-physical system (CPS) is considered a significant type of digital technology in power systems, medical, industrial control, communication, energy system, transportation, as well as precarious infrastructures. The main scopes of this paper are: presenting a comprehensive background on the CPS security in the power electronic systems applications, potential threat sources and their motivations are extensively surveyed, existing vulnerabilities in the networked smart grid are presented with highlighting the main reasons with real examples, introducing the impact along with vulnerability analysis of the control, communication as well as physical layer employed for handling the voltage source converters, existing control mechanisms for the networked smart grid are summarized by identifying the unsolved issues, introducing research trends and challenges in securing the CPS in the networked smart grid, according to this review, further research problems are addressed and their early solutions as future directions. The control loops are illustrated next to each other for operating simultaneously (i.e., DC-link voltage control along with synchronization [29], fault-ride through (FRT) along with AC current control [30], or active damping as well as virtual impedance/admittance control [31])
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