A Design of Asynchronous Sliding Mode Control for Markov Jump Systems Based on Dynamic Event-Triggered Protocol (original) (raw)

References

1. X. Chen, S. Hu, Y. Li, D. Yue, C. Dou, L. Ding, Co-Estimation of State and FDI Attacks and Attack Compensation Control for Multi-Area Load Frequency Control Systems Under FDI and DoS Attacks. IEEE Trans. Smart Grid 13(3), 2357–2368 (2022)
   Article Google Scholar
2. P. Cheng, H. Wang, V. Stojanovic, F. Liu, S. He, K. Shi, Dissipativity-based finite-time asynchronous output feedback control for wind turbine system via a hidden Markov model. Int. J. Syst. Sci. 53, 3177–3189 (2022)
   Article MathSciNet Google Scholar
3. S. Dong, M. Liu, Z.G. Wu, K. Shi, Observer-Based Sliding Mode Control for Markov Jump Systems With Actuator Failures and Asynchronous Modes. IEEE Trans. Circuits Syst. II, Exp. Briefs 68(6), 1967–1971 (2021)
4. Y. Gao, J. Liu, G. Sun, M. Liu, L. Wu, Fault deviation estimation and integral sliding mode control design for Lipschitz nonlinear systems. Syst. Control Lett. 123, 8–15 (2019)
   Article MathSciNet Google Scholar
5. C. Guan, Z. Fei, T. Yang, Necessary and sufficient criteria for asynchronous stabilization of Markovian jump systems. J. Frankl. Inst. 356(3), 1468–1483 (2019)
   Article MathSciNet Google Scholar
6. B. Jiang, H.R. Karimi, Y. Kao, C. Gao, Takagi-Sugeno Model Based Event-Triggered Fuzzy Sliding-Mode Control of Networked Control Systems With Semi-Markovian Switchings. IEEE Trans. Fuzzy Syst. 28(4), 673–683 (2020)
   Article Google Scholar
7. M. Kchaou, A. El-Hajjaji, State estimation and sliding mode control for non-linear singular systems with time-varying delay. IFAC-Papers OnLine 53(2), 4145–4150 (2020)
   Article Google Scholar
8. S. Kuppusamy, Y.H. Joo, H.S. Kim, Asynchronous Control for Discrete-Time Hidden Markov Jump Power Systems. IEEE Trans. Cybern. 52, 9943–9948 (2021)
   Article Google Scholar
9. F. Li, C. Du, C. Yang, L. Wu, W. Gui, Finite-time asynchronous sliding mode control for Markovian jump systems. Automatica 109(17), 108503 (2019)
   Article MathSciNet Google Scholar
10. M. Li, M. Liu, Y. Zhang, Asynchronous adaptive dynamic output feedback sliding mode control for singular markovian jump systems with actuator faults and uncertain transition rates. Appl. Math. Comput. 371, 124958 (2020)
    MathSciNet Google Scholar
11. T. Liang, S. Shi, Y. Ma, Asynchronous sliding mode control of continuous-time singular markov jump systems with time-varying delay under event-triggered strategy. Appl. Math. Comput. 448, 127947 (2023)
    MathSciNet Google Scholar
12. S. Padhan, A.K. Turuk, Design of False Data Injection Attacks in Cyber-Physical Systems. Inf. Sci. 608, 825–843 (2022)
    Article Google Scholar
13. Z.H. Pang, L.Z. Fan, Z. Dong, Q.L. Han, G.P. Liu, False Data Injection Attacks Against Partial Sensor Measurements of Networked Control Systems. IEEE Trans. Circuits Syst. II-Express Briefs 69(1), 149–153 (2022)
    Google Scholar
14. W. Qi, G. Zong, W.X. Zheng, Adaptive Event-Triggered SMC for Stochastic Switching Systems With Semi-Markov Process and Application to Boost Converter Circuit Model. IEEE Trans. Circuits Syst. I, Reg. 58, 786–796 (2021)
15. R. Sakthivel, O.M. Kwon, S.G. Choi, R. Sakthivel, Observer-based state estimation for discrete-time semi-Markovian jump neural networks with round-robin protocol against cyber attacks. Neural Netw. 165, 611–624 (2023)
    Article Google Scholar
16. R. Sakthivel, V.T. Suveetha, V. Nithya, R. Sakthivel, Finite-time reliable filtering for Takagi-Sugeno fuzzy semi-Markovian jump systems. Math. Comput. Simul. 185, 403–418 (2021)
    Article MathSciNet Google Scholar
17. A. Seuret, F. Gouaisbaut, Wirtinger-based integral inequality: Application to time-delay systems. Automatica 49(9), 2860–2866 (2013)
    Article MathSciNet Google Scholar
18. M. Shen, G. Zhang, Y. Yuan, D. Ye, Relaxed \(H_\infty \) Controller Design for Continuous Markov Jump System with Incomplete Transition Probabilities. Circuits Syst. Signal Process. 33(5), 1393–1410 (2014)
    Article MathSciNet Google Scholar
19. L. Shu, S. Xu, Adaptive memory event-triggered observer-based pinning synchronization control for complex dynamical networks under asynchronous attacks. Inf. Sci. 665, 120399 (2024)
    Article Google Scholar
20. X. Su, C. Wang, H. Chang, Y. Yang, W, Assawinchaichote W., Event-triggered sliding mode control of networked control systems with Markovian jump parameters. Automatica 125, 109405 (2021)
21. H.-T. Sun, P. Zhang, C. Peng, Output-sensitive event-triggered path following control of autonomous ground vehicles under stochastic FDI attacks. J. Frankl. Inst. 360(3), 2307–2325 (2023)
    Article MathSciNet Google Scholar
22. S. Sun, X. Dai, Z. Wang, Y. Zhou, X. Xie, Robust finite-time \(H_\infty \) control for It\(\hat{o}\) stochastic semi-Markovian jump systems with delays. Appl. Math. Comput. 430, 127181 (2022)
    Google Scholar
23. C. Wang, Q. Ling, Dynamic event-triggered output feedback control for networked Markovian jump systems under hybrid attacks. J. Frankl. Inst. 360(18), 14614–14629 (2023)
    Article MathSciNet Google Scholar
24. Y. Wang, C. Wen, X. Li, Event-Based Model Reference Adaptive Tracking. IEEE Trans. Autom. Control 68(12), 8201–8207 (2023)
    Article MathSciNet Google Scholar
25. J. Wang, M.Z.Q. Chen, L. Zhang, Observer-based discrete-time sliding mode control for systems with unmatched uncertainties. J. Frankl. Inst. 358(16), 8470–8484 (2021)
    Article MathSciNet Google Scholar
26. J. Wang, F. Fang, X. Yi, Y. Liu, Dynamic event-triggered fault estimation and sliding mode fault-tolerant control for networked control systems with sensor faults. Appl. Math. Comput. 389, 125558 (2021)
    MathSciNet Google Scholar
27. J. Wang, T. Ru, J. Xia, H. Shen, V. Sreeram, Asynchronous Event-Triggered Sliding Mode Control for Semi-Markov Jump Systems Within a Finite-Time Interval. IEEE Trans. Circuits Syst. I, Reg. 68(1), 458–468 (2021)
28. Y. Wang, F. Chen, G. Zhuang, G. Yang, Dynamic event-based mixed \(H_\infty \) and dissipative asynchronous control for Markov jump singularly perturbed systems. Appl. Math. Comput. 386(13), 125443 (2020)
    MathSciNet Google Scholar
29. H. Wang, X. Chen, J. Wang, \(H_\infty \) sliding mode control for PDT-switched nonlinear systems under the dynamic event-triggered mechanism. Appl. Math. Comput. 412, 126474 (2022)
    MathSciNet Google Scholar
30. Y. Wang, G. Duan, P. Li, Event-Triggered Adaptive Sliding Mode Control of Uncertain Nonlinear Systems Based on Fully Actuated System Approach. IEEE Trans. Circuits Syst. II-Express Briefs 71(5), 2749–2753 (2024)
    Google Scholar
31. Y.C. Wang, P.Y. Su, Collaborative Defense Against Hybrid Network Attacks by SDN Controllers and P4 Switches. IEEE Trans. Netw. Sci. Eng. 11(2), 1480–1495 (2024)
    Article MathSciNet Google Scholar
32. S. Weng, P. Weng, B. Chen, S. Liu, L. Yu, Distributed Secure Estimation Against Unknown FDI Attacks and Load Deviation in Multi-Area Power Systems. IEEE Trans. Circuits Syst. II-Express Briefs 69(6), 3007–3011 (2022)
    Google Scholar
33. T. Wu, J. Liu, L. Xue, Y. Wu, Fixed-Time Synchronization of Multilayer Complex Networks Under Denial-of-Service Attacks. IEEE Trans. Circuits Syst. II, Exp. Briefs 70(9), 3519–3523 (2023)
34. W. Xia, S. Xu, J. Lu, Y. Li, Y. Chu, Z. Zhang, Event-triggered filtering for discrete-time Markovian jump systems with additive time-varying delays. Appl. Math. Comput. 391, 125630 (2021)
    MathSciNet Google Scholar
35. T. Xu, X. Gao, W. Qi, Y. Wei, Disturbance-observer-based control for semi-Markovian jump systems with generally uncertain transition rate and saturation nonlinearity. Appl. Math. Comput. 362, 124569 (2019)
    MathSciNet Google Scholar
36. H. Yan, H. Zhang, X. Zhan, Y. Wang, S. Chen, F. Yang, Event-Triggered Sliding Mode Control of Switched Neural Networks With Mode-Dependent Average Dwell Time. IEEE Trans. Syst. Man Cybern. Syst. 51(2), 1233–1243 (2021)
    Article Google Scholar
37. H. Yang, Z. Wang, Y. Shen, F.E. Alsaadi, Self-triggered filter design for a class of nonlinear stochastic systems with Markovian jumping parameters. Nonlinear Anal. Hybrid Syst. 40, 101022 (2021)
    Article MathSciNet Google Scholar
38. X. Yao, Y. Lian, J.H. Park, Disturbance-observer-based event-triggered control for semi-Markovian jump nonlinear systems. Appl. Math. Comput. 363, 124597 (2019)
    MathSciNet Google Scholar
39. H. Yi, L. Cui, N. Balakrishnan, New reliability indices for first- and second-order discrete-time aggregated semi-Markov systems with an application to TT &C system. Reliab. Eng. Syst. Saf. 215, 107882 (2021)
    Article Google Scholar
40. D. Zhang, Y. Chen, Design of Event-Triggered Asynchronous Sliding Mode Controller for Markov Jump Systems Based on Dynamic Output Feedback. Circuits Syst. Signal Process. (2024). https://doi.org/10.1007/s00034-024-02888-8
41. X. Zhang, Y. Yi, M. Shen, Q. Wang, Event-triggered anti-disturbance tracking control for semi-Markovian jump systems with exogenous disturbances and input saturation. Appl. Math. Comput. 424, 127029 (2022)
    MathSciNet Google Scholar
42. J. Zhang, Q. Zhang, Y. Wang, A new design of sliding mode control for Markovian jump systems based on stochastic sliding surface Inf. Sci. 391–392, 9–27 (2017)
    Google Scholar
43. D. Zhang, X. Yang, Y. Wang, Event-Triggered Sliding Mode Control for Singular Markovian Jump Systems. Circuits Syst. Signal Process. 42(5), 2675–2697 (2023)
    Article Google Scholar
44. H. Zhao, Y. Niu, J. Zhao, Event-triggered sliding mode control of uncertain switched systems under denial-of-service attacks. J. Frankl. Inst. 356(18), 11414–11433 (2019)
    Article MathSciNet Google Scholar
45. Y. Zhao, X. Li, P. Duan, Observer-based sliding mode control for synchronization of delayed chaotic neural networks with unknown disturbance. Neural Netw. 117, 268–273 (2019)
    Article Google Scholar
46. L. Zhou, J. Yin, F. Tan, H. Liao, Robustness analysis of edge-coupled interdependent networks under different attack strategies. Physica A 632, 129338 (2023)
    Article Google Scholar

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