1920

Practical stability analysis of perturbed fuzzy control system related to unperturbed fuzzy control system

The behavior of solutions of a perturbed fuzzy control system with respect to an original unperturbed fuzzy control system is investigated. Notions of practical stability, asymptotic stability and instability are introduced. Sufficient conditions of stability properties are given with the help of Lyapunov-like functions.

PDF

___

[1] Chang SL, Zadeh LA. On fuzzy mapping and control, IEEE Transactions on Systems. Man, and Cybernetics 1972; 2: 3302013340.
[2] Cheng J, Wang Y, Park JH, Cao J, Shi K. Static Output Feedback Quantized Control for Fuzzy Markovian Switching Singularly Perturbed Systems with Deception Attacks. IEEE Transactions on Fuzzy Systems 2021, doi: 10.1109/TFUZZ.2021.3052104.
[3] El Naschie MS. From experimental quantum optics to quantum gravity via a fuzzy Ka¨hler manifold. Chaos, Solitons & Fractals 2005; 25: 692013977.
[4] Hanss M. Applied Fuzzy Arithmetic: An Introduction with Engineering Applications. Berlin, Germany: SpringerVerlag, 2005.
[5] Hwang GC, Lin SC. A stability approach to fuzzy control design for nonlinear systems. Fuzzy sets and systems 1992; 48 (3): 279-287.
[6] Kaleva O. Fuzzy differential equations. Fuzzy Sets and Systems 1987; 24 (3): 3012013317.
[7] Kaleva O. The Cauchy problem for fuzzy differential equations. Fuzzy Sets and Systems 1990; 35: 3892013396
[8] Kandel A, Luo Y, Zhang Q. Stability analysis of fuzzy control systems. Fuzzy sets and systems 1999; 105 (1):33-48
[9] Lakshmikantham V, Leela S. Diferential and Integral Inequalities. New York, USA: Academic Press, 1969.
[10] Lakshmikantham V, Leela S. Fuzzy diferential systems and the new concept of stability. Nonlinear Dynamics and Systems Theory-1 2001; 2.
[11] Lakshmikantham V, Mohapatra RN. Theory of Fuzzy Diferential Equations and Inclusions. New York, USA: Taylor and Francis Inc., 2003.
[12] Lakshmikantham V, Leela S. Martynyuk AA. Practical Stability of Nonlinear System. NJ: World Scientific Publishing, 1990.
[13] Lakshmikantham V, Mohapatra R. Basic properties of solutions of fuzzy differential equations. Nonlinear Studies 2001; 8: 1132013124.
[14] Lakshmikantham V, Leela S. Stability theory of fuzzy differential equations via differential inequalities. Mathematical Inequalities and Applications 2 1999.
[15] Lakshmikantham V, Leela S. A new concept unifying Lyapunov and orbital stabilities. Communications in Applied Analysis 2002; 6 (2): 289.
[16] Lakshmikantham V, Leela S, Martynyuk AA. Stability Analysis of Nonlinear System. New York, USA: Marcel Dekker, 1989.
[17] Liu X, Shaw MD. Boundedness in terms of two measures for perturbed systems by generalized variation of parameters. Communications in Applied Analysis 2001; 5: 4352013444.
[18] Nijmeijer H, Schaft AVD. Nonlinear dynamical control systems. New York, USA: Springer, 1990.
[19] Tanaka K, Wang Ho. Fuzzy control systems design and analysis. New York, USA: John Wiley and sons,INC, 2001
[20] Phu ND, Dung LQ. On the stability and controllability of fuzzy control set diferential equations. IJRS (International Journal of Reliability and Safety) 2011; 5 (3/4): 41183. doi: 10.1504/IJRS.2011.041183
[21] Phu ND, Tri PV, Salahshour S, Ahmadian A, Baleanu D. Some kinds of controllable problems for fuzzy control dynamic systems.Journal of Dynamic Systems Measurement and Control 2018; 140 (9):
[22] Phu ND, Hung NN. Minimum stability control problem and time-optimal control problem for fuzzy linear control systems. Fuzzy Sets and Systems 2019; 371: 1-24.
[23] Wang J, Yang C, Xia J, Wu ZG, Shen H. Observer-based Sliding Mode Control for Networked Fuzzy Singularly Perturbed Systems Under Weighted Try-Once-Discard Protocol. IEEE Transactions on Fuzzy Systems 2021; doi: 10.1109/TFUZZ.2021.3070125
[24] Wang Y, Xie X, CHADLI M, Xie S, Peng Y. Sliding Mode Control of Fuzzy Singularly Perturbed Descriptor Systems. IEEE Transactions on Fuzzy Systems 2020; doi: 10.1109/TFUZZ.2020.2998519.
[25] Yakar C. Strict stability criteria of perturbed systems with respect to unperturbed systems in terms of initial time diference. Complex Analysis and Potential Theory 2007;
[26] Yakar C, Çiçek M, Gücen MB. Practical stability, boundedness criteria and Lagrange stability of fuzzy differential systems. Computers & Mathematics with Applications 2012; 64 (6): 2118-2127. doi: 10.1016/j.camwa.2012.04.008
[27] Yakar C, Çiçek M, Gücen MB. Boundedness and Lagrange stability of fractional order perturbed system related to unperturbed systems with initial time difference in Caputo’s sense. Advances in difference Equations 2011; 2011 (1): 54.
[28] Yakar C, Gücen MB. Strict Stability of Fuzzy Differential Equations by Lyapunov Functions. International Journal of Computer and Information Engineering 2018; 12 (5): 315-319.
[29] Yakar C, Shaw MD. Practical stability in terms of two measures with initial time difference. Nonlinear Analysis: Theory, Methods & Applications 2009; 71 (12): 7812013785.
[30] Zadeh LA, Fuzzy sets. Information and Control 1965; 8: 3382013353.