国家自然科学基金(61403185)
江苏省自然科学基金(BK20171481)
江苏省属高校自然科学研究重大项目(15KJA120001)
江苏高校优势学科建设工程资助项目(PAPD)
[1] Martinez-Mares A, Fuerte-Esquivel C R. A Robust Optimization Approach for the Interdependency Analysis of Integrated Energy Systems Considering Wind Power Uncertainty. IEEE Trans Power Syst, 2013, 28: 3964-3976 CrossRef ADS Google Scholar
[2] Deng S, Zhou A H, Yue D. Distributed intrusion detection based on hybrid gene expression programming and cloud computing in a cyber physical power system. IET Control Theor Appl, 2017, 11: 1822-1829 CrossRef Google Scholar
[3] Ma M, Zhang C, Liu X. Distributed Model Predictive Load Frequency Control of the Multi-Area Power System After Deregulation. IEEE Trans Ind Electron, 2017, 64: 5129-5139 CrossRef Google Scholar
[4] Zhang Y, Liu X J. Robust distributed model predictive control for load frequency control of uncertain power systems. Control Theory Appl, 2016, 33: 621--630. Google Scholar
[5] Jiang L, Yao W, Wu Q H. Delay-Dependent Stability for Load Frequency Control With Constant and Time-Varying Delays. IEEE Trans Power Syst, 2012, 27: 932-941 CrossRef ADS Google Scholar
[6] Zhang C K, Jiang L, Wu Q H. Further Results on Delay-Dependent Stability of Multi-Area Load Frequency Control. IEEE Trans Power Syst, 2013, 28: 4465-4474 CrossRef ADS Google Scholar
[7] Peng C, Zhang J. Delay-Distribution-Dependent Load Frequency Control of Power Systems With Probabilistic Interval Delays. IEEE Trans Power Syst, 2016, 31: 3309-3317 CrossRef ADS Google Scholar
[8] Liu J L, Tang J, Fei S M. Event-based state estimation for delayed neural network systems with quantization. Sci Sin Inform, 2016, 46: 1555--1568. Google Scholar
[9] Yue D, Tian E, Han Q L. A Delay System Method for Designing Event-Triggered Controllers of Networked Control Systems. IEEE Trans Automat Contr, 2013, 58: 475-481 CrossRef Google Scholar
[10] Su X, Liu X, Song Y D. Event-Triggered Sliding-Mode Control for Multi-Area Power Systems. IEEE Trans Ind Electron, 2017, 64: 6732-6741 CrossRef Google Scholar
[11] Dou C, Yue D, Guerrero J M. Multiagent System-Based Event-Triggered Hybrid Controls for High-Security Hybrid Energy Generation Systems. IEEE Trans Ind Inf, 2017, 13: 584-594 CrossRef Google Scholar
[12] Peng C, Li J, Fei M. Resilient Event-Triggering $H_{\infty~}$ Load Frequency Control for Multi-Area Power Systems With Energy-Limited DoS Attacks. IEEE Trans Power Syst, 2017, 32: 4110-4118 CrossRef ADS Google Scholar
[13] Yuan H, Xia Y. Secure filtering for stochastic non-linear systems under multiple missing measurements and deception attacks. IET Control Theor Appl, 2018, 12: 515-523 CrossRef Google Scholar
[14] Ding D, Wei G, Zhang S. On scheduling of deception attacks for discrete-time networked systems equipped with attack detectors. Neurocomputing, 2017, 219: 99-106 CrossRef Google Scholar
[15] Li Y, Zhang P, Zhang L. Active Synchronous Detection of Deception Attacks in Microgrid Control Systems. IEEE Trans Smart Grid, 2017, 8: 373-375 CrossRef Google Scholar
[16] Ma L, Wang Z, Han Q L. Variance-Constrained Distributed Filtering for Time-Varying Systems With Multiplicative Noises and Deception Attacks Over Sensor Networks. IEEE Senss J, 2017, 17: 2279-2288 CrossRef ADS Google Scholar
[17] Luo Y, Wang Z, Wei G. Robust ${\mathscr~{H}}_{\infty~}$ Filtering for a Class of Two-Dimensional Uncertain Fuzzy Systems With Randomly Occurring Mixed Delays. IEEE Trans Fuzzy Syst, 2017, 25: 70-83 CrossRef Google Scholar
[18] Tian E, Yue D. Reliable $H_\infty$ filter design for T-S fuzzy model-based networked control systems with random sensor failure. Int J Robust NOnlinear Control, 2013, 23: 15-32 CrossRef Google Scholar
[19] Yan H, Qian F, Yang F. H filtering for nonlinear networked systems with randomly occurring distributed delays, missing measurements and sensor saturation. Inf Sci, 2016, 370-371: 772-782 CrossRef Google Scholar
[20] Liu S, Liu P X. Distributed Model-Based Control and Scheduling for Load Frequency Regulation of Smart Grids Over Limited Bandwidth Networks. IEEE Trans Ind Inf, 2018, 14: 1814-1823 CrossRef Google Scholar
[21] Song Y, Ao W, Wen C. Adaptive cyber-physical system attack detection and reconstruction with application to power systems. IET Control Theor Appl, 2016, 10: 1458-1468 CrossRef Google Scholar
[22] An L, Yang G H. Improved adaptive resilient control against sensor and actuator attacks. Inf Sci, 2018, 423: 145-156 CrossRef Google Scholar
[23] Ding D, Wang Z, Ho D W C. Observer-Based Event-Triggering Consensus Control for Multiagent Systems With Lossy Sensors and Cyber-Attacks. IEEE Trans Cybern, 2017, 47: 1936-1947 CrossRef PubMed Google Scholar
[24] Liu J, Xia J, Tian E. Hybrid-driven-based H filter design for neural networks subject to deception attacks. Appl Math Computation, 2018, 320: 158-174 CrossRef Google Scholar
[25] Gao H, Meng X, Chen T. Stabilization of Networked Control Systems With a New Delay Characterization. IEEE Trans Automat Contr, 2008, 53: 2142-2148 CrossRef Google Scholar
[26]
Ge
X,
Han
Q L.
Distributed event-triggered
[27] Lin C, Wang Q G, Lee T H. $H_{\infty}~$ Filter Design for Nonlinear Systems With Time-Delay Through T-S Fuzzy Model Approach. IEEE Trans Fuzzy Syst, 2008, 16: 739-746 CrossRef Google Scholar
Figure 1
The scheme of one-area LFC (load frequency control) system
Figure 2
(Color online) The structure of event-based $H_\infty$ filter design for LFC systems with cyber-attacks
Figure 3
(Color online) The release instants and intervals under event-triggered scheme
Figure 4
(Color online) The response of cyber attacks signals $h(y(h-\theta(t)))$
Figure 5
(Color online) The Bernoulli sequence of $\alpha(t)$ when the occurring expectation of cyber attacks is given $\bar{\alpha}=0.1$
Figure 6
(Color online) The response of estimation error $\tilde{z}(t)$ for filtering error system (
Download PDF
