首页|Reliable Control of Wind Power Systems Under Frequency-Based Deception Attacks: AMD Event-Triggered Strategy
Reliable Control of Wind Power Systems Under Frequency-Based Deception Attacks: AMD Event-Triggered Strategy
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NSTL
IEEE
A reliable adaptive-memory-derivative (AMD) event-triggered quantized sliding mode load frequency control (QSMLFC) method is proposed for the multiarea interconnected wind power system under frequency-based deception attacks. An AMD event-trigger scheme is proposed to promote the wind power system operation while saving the network resources, and the reliable AMD event-triggered QSMLFC method aims to reduce the frequency deviations of the interconnected wind power systems. A frequency-based deception attack model is developed for analyzing the security issues in network communications for wind power systems. The hysteresis quantizer is used to lower the communication rate. To validate the correctness of the control method, a sufficient reliability criterion is derived to prove the applicability of the AMD event-triggered QSMLFC. Three numerical examples and an IEEE 39-bus system simulation are presented to demonstrate that the reliable AMD event-triggered QSMLFC method can provide satisfactory stability performance for the wind power system under frequency-based deception attacks.
Wind power generationPower system stabilityGeneratorsFrequency controlReliabilityPower system reliabilityRenewable energy sources
Siwei Qiao、Xinghua Liu、Gaoxi Xiao、Peng Wang、Shuzhi Sam Ge
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School of Electrical Engineering, Xi'an University of Technology, Xi'an, China
School of Electrical and Electronic Engineering, Nanyang Technological University, Singapore
Department of Electrical and Computer Engineering, National University of Singapore, Singapore
NETL
NSTL
IEEE
