اخبار و اعلانات

دانشگاه سیستان و بلوچستان

آمار

تعداد نشریات27
تعداد شماره‌ها565
تعداد مقالات5,820
تعداد مشاهده مقاله8,141,222
تعداد دریافت فایل اصل مقاله5,450,255
Li, Junmin, Zhang, Guo. (1391). NON-FRAGILE GUARANTEED COST CONTROL OF T-S FUZZY TIME-VARYING DELAY SYSTEMS WITH LOCAL BILINEAR MODELS. نشریه علمی دانشگاه سیستان و بلوچستان, 9(2), 43-62. doi: 10.22111/ijfs.2012.195
Junmin Li; Guo Zhang. "NON-FRAGILE GUARANTEED COST CONTROL OF T-S FUZZY TIME-VARYING DELAY SYSTEMS WITH LOCAL BILINEAR MODELS". نشریه علمی دانشگاه سیستان و بلوچستان, 9, 2, 1391, 43-62. doi: 10.22111/ijfs.2012.195
Li, Junmin, Zhang, Guo. (1391). 'NON-FRAGILE GUARANTEED COST CONTROL OF T-S FUZZY TIME-VARYING DELAY SYSTEMS WITH LOCAL BILINEAR MODELS', نشریه علمی دانشگاه سیستان و بلوچستان, 9(2), pp. 43-62. doi: 10.22111/ijfs.2012.195
Li, Junmin, Zhang, Guo. NON-FRAGILE GUARANTEED COST CONTROL OF T-S FUZZY TIME-VARYING DELAY SYSTEMS WITH LOCAL BILINEAR MODELS. نشریه علمی دانشگاه سیستان و بلوچستان, 1391; 9(2): 43-62. doi: 10.22111/ijfs.2012.195

NON-FRAGILE GUARANTEED COST CONTROL OF T-S FUZZY TIME-VARYING DELAY SYSTEMS WITH LOCAL BILINEAR MODELS

Iranian Journal of Fuzzy Systems
مقاله 5، دوره 9، شماره 2، شهریور 2012، صفحه 43-62  XML اصل مقاله (218.2 K)
نوع مقاله: Research Paper
شناسه دیجیتال (DOI): 10.22111/ijfs.2012.195
نویسندگان
Junmin Li email 1؛ Guo Zhang2
1Department of Mathematics, Xidian University, 710071, Xi'an, P.R. China
2Department of Electrical Engineering and Automation, Luoyang Insti- tute of Science and Technology, Luoyang, 471023, P.R. China
چکیده
This paper focuses on the non-fragile guaranteed cost control
problem for a class of T-S fuzzy time-varying delay systems with local bilinear
models. The objective is to design a non-fragile guaranteed cost state
feedback controller via the parallel distributed compensation (PDC) approach
such that the closed-loop system is delay-dependent asymptotically stable and
the closed-loop performance is no more than a certain upper bound in the
presence of the additive controller gain perturbations. A sufficient condition
for the existence of such non-fragile guaranteed cost controllers is derived via
the linear matrix inequality (LMI) approach and the design problem of the
fuzzy controller is formulated in term of LMIs. The simulation examples show
that the proposed approach is effective.
کلیدواژه‌ها
Fuzzy control؛ Non-fragile control؛ Guaranteed cost control؛ Delaydependent؛ Linear matrix inequality (LMI)؛ T-S fuzzy bilinear model
مراجع
[1] B. Chen and X. P. Liu, Delay-dependent robust H-in nite control for T-S fuzzy systems with
time delay, IEEE Trans. Fuzzy Systems, 13 (2005), 238-249.
[2] B. Chen, C. Lin, X. P. Liu and S. C. Tong, Guaranteed cost control of T{S fuzzy systems
with input delay, Int. J. Robust Nonlinear Control, 18 (2008), 1230-1256.
[3] B. Chen, X. P. Liu, S. C. Tong and C. Lin, Observer-based stabilization of T{S fuzzy systems
with input delay, IEEE Trans. Fuzzy Systems, 16 (2008), 652-663.
[4] B. Chen, X. Liu, S. Tong and C. Lin, guaranteed cost control of T-S fuzzy systems with state
and input delay, Fuzzy Sets and Systems, 158 (2007), 2251-2267.
[5] M. Chen, G. Feng, H. Ma and G. Chen, Delay-dependent H-in nite lter design for discrete-
time fuzzy systems with time-varying delays, IEEE Trans. Fuzzy Systems, 17 (2009), 604-616.
[6] W. H. Chen, Z. H. Guan and X. M. Lu, Delay-dependent output feedback guaranteed cost
control for uncertain time-delay systems, Automatica, 44 (2004), 1263-1268.
[7] J. Dong, Y. Wang and G. Yang, Control synthesis of continuous-time T-S fuzzy systems
with local nonlinear models, IEEE Trans. Systems, Man, Cybernetics-Part B, 39 (2009),
1245-1258.
[8] B. Z. Du, J. Lam and Z. Shu, Stabilization for state/input delay systems via static and
integral output feedback, Automatica, 46 (2010), 2000-2007.
[9] D. L. Elliott, Bilinear systems in Encyclopedia of Electrical Engineering, New York: Wiley,
1999.

[10] H. J. Gao, J. Lam and Z. D. Wang, Discrete bilinear stochastic systems with time-varying
delay: stability analysis and control synthesis, Chaos, Solitons and Fractals, 34 (2007), 394-
404.
[11] H. J. Gao, X. Liu and J. Lam, Stability analysis and stabilization for discrete-time fuzzy
systems with time-varying delay, IEEE Trans. Systems, Man, Cybernetics-Part B, 39 (2009),
306-316.
[12] D. W. C. Ho and Y. Niu, Robust fuzzy design for nonlinear uncertain stochastic systems via
sliding-mode control, IEEE Trans Fuzzy Systems, 15 (2007), 350-358.
[13] H. L. Huang and F. G. Shi, Robust H1 control for TCS time-varying delay systems with
norm bounded uncertainty based on LMI approach, Iranian Journal of Fuzzy Systems, 6
(2009), 1-14.
[14] L. H. Keel and S. P. Bhattacharryya, Robust, fragile, or optimal, IEEE Trans. Automatic
Control, 42 (1997), 1098-1105.
[15] J. H. Kim, Delay-dependent robust and non-fragile guaranteed cost control for uncertain
singular systems with time-varying state and input delays, International Journal of Control,
Automation and Systems, 7 (2009), 357-364.
[16] F. Leibfritz, An LMI-based algorithm for designing suboptimal static H2/H-in nite output-
feedback controllers, SIAM J Control Optimization, 57 (2001), 1711-1735.
[17] J. M. Li, G. Zhang and C. Du, Robust H-in nity control for a class of multiple input fuzzy
bilinear systems with uncertainties, Control Theory and Applications, 26 (2009), 1298-1302.
[18] L. Li and X. D. Liu, New approach on robust stability for uncertain T{S fuzzy systems with
state and input delays, Chaos, Solitons and Fractals, 40 (2009), 2329-2339.
[19] T. H. S. Li and S. H. Tsai, T-S fuzzy bilinear model and fuzzy controller design for a class
of nonlinear systems, IEEE Trans. Fuzzy Systems, 15 (2007), 494-505.
[20] T. H. S. Li, S. H. Tsai and et al, Robust H-in nite fuzzy control for a class of uncertain
discrete fuzzy bilinear systems, IEEE Trans. Systems, Man, Cybernetics-Part B, 38 (2008),
510-526.
[21] R. R. Mohler, Bilinear control processes, New York: Academic, 1973.
[22] C. T. Pang and Y. Y. Lur, On the stability of Takagi-Sugeno fuzzy systems with time-varying
uncertainties, IEEE Trans. Fuzzy Systems, 16 (2008), 162-170.
[23] R. E. Precup, S. Preitl, J. K. Tar, M. L. Tomescu, M. Takacs, P. Korondi and P. Baranyi,
Fuzzy control systems performance enhancement by iterative learning control, IEEE Trans.
Industrial Electronics, 55 (2008), 3461-3475.
[24] K. Tanaka and H. O. Wang, Fuzzy control systems design and analysis: a linear matrix
inequality approach, John Wiley and Sons, 2001.
[25] S. H. Tsai and T. H. S. Li, Robust fuzzy control of a class of fuzzy bilinear systems with
time-delay, Chaos, Solitons and Fractals, 39 (2007), 2028-2040.
[26] R. J. Wang, W. W. Lin and W. J. Wang, Stabilizability of linear quadratic state feedback
for uncertain fuzzy time-delay systems, IEEE Trans. Systems, Man, Cybernetics-Part B, 34
(2004), 1288-1292.
[27] H. N. Wu and H. X. Li, New approach to delay-dependent stability analysis and stabilization
for continuous-time fuzzy systems with time-varying delay, IEEE Trans. Fuzzy Systems, 15
(2007), 482-493.
[28] D. D. Yang and K. Y. Cai, Reliable guaranteed cost sampling control for nonlinear time-delay
systems, Mathematics and Computers in Simulation, 80 (2010), 2005-2018.
[29] G. H. Yang and J. L. Wang, Non-fragile H-in nite control for linear systems with multiplica-
tive controller gain variations, Automatica, 37 (2001), 727-737.
[30] G. H. Yang, J. L. Wang and C. Lin, H-in nite control for linear systems with additive
controller gain variations, Int. J Control, 73 (2000), 1500-1506.
[31] J. S. Yee, G. H. Yang and J. L. Wang, Non-fragile guaranteed cost control for discrete-time
uncertain linear systems, Int. J Systems Science, 32 (2001), 845-853.
[32] K. W. Yu and C. H. Lien, Robust H-in nite control for uncertain T{S fuzzy systems with
state and input delays, Chaos, Solitons and Fractals, 37 (2008), 150-156.
[33] D. Yue and J. Lam, Non-fragile guaranteed cost control for uncertain descriptor systems with
time-varying state and input delays, Optimal Control Applications and Methods, 26 (2005),
85-105.
[34] B. Y. Zhang, S. S. Zhou and T. Li, A new approach to robust and non-fragile H-in nitecontrol
for uncertain fuzzy systems, Information Sciences, 177 (2007), 5118-5133.
[35] J. Zhang, Y. Xia and R. Tao, New results on H-in nite ltering for fuzzy time-delay systems,
IEEE Trans. Fuzzy Systems, 17 (2009), 128-137.
[36] J. H. Zhang, P. Shi and J. Q. Qiu, Non-fragile guaranteed cost control for uncertain stochastic
nonlinear time-delay systems, Journal of the Franklin Institute, 3462009676-690.
[37] S. S. Zhou, J. Lam and W. X. Zheng, Control design for fuzzy systems based on relaxed
non-quadratic stability and H-in nite performance conditions, IEEE Trans. Fuzzy Systems,
15 (2007), 188-198.
[38] S. S. Zhou and T. Li, Robust stabilization for delayed discrete-time fuzzy systems via basis-
dependent Lyapunov-Krasovskii function, Fuzzy Sets and Systems, 151 (2005), 139-153.

آمار
تعداد مشاهده مقاله: 2,207
تعداد دریافت فایل اصل مقاله: 1,590


Contact Us | Help & Support | Site Map

Journal Management System. Designed by sinaweb.