Adaptive Optimal Terminal Sliding Mode Control for T-S Fuzzy-Based Nonlinear Systems

被引：0

作者：

Soltanian, Farzad ^{[1
,2
]}

Valadbeigi, Amir Parviz ^{[1
,3
]}

Tavoosi, Jafar ^{[4
]}

Aazami, Rahmat ^{[4
]}

Shasadeghi, Mokhtar ^{[2
]}

Shirkhani, Mohammadamin ^{[4
]}

Azizi, Amirreza ^{[5
]}

机构：

[1] Department of Electrical and Computer Engineering, University of Alberta, Edmonton,AB,T6G 2M9, Canada

[2] Electrical Engineering Faculty, Shiraz University of Technology, Shiraz,715555-313, Iran

[3] Department of Electrical Engineering, Islamic Azad University, Khorramabad Branch, Khorramabad, Iran

[4] Department of Electrical Engineering, Ilam University, Ilam, Iran

[5] Department of Electrical Engineering, Shahed University of Tehran, Tehran, Iran

来源：

Complexity | 2024年 / 2024卷

关键词：

This study utilizes the Takagi-Sugeno fuzzy model to represent a subset of nonlinear systems and presents an innovative adaptive approach for optimal dynamic terminal sliding mode control (TSMC). The systems under consideration encompass bounded uncertainties in parameters and actuators; as well as susceptibility to external disturbances. Performance evaluation entails the design of an adaptive terminal sliding surface through a two-step process. Initially; a state feedback gain and controller are developed using Linear Matrix Inequality (LMI) techniques; grounded on H2-performance and partial eigenstructure assignment. Dynamic sliding gain is subsequently attained via convex optimization; leveraging the derived state feedback gain and the designed terminal sliding mode (TSM) controller. This approach diverges from conventional methods by incorporating control effort and estimating actuator uncertainty bounds; while also addressing sliding surface and TSM controller design intricacies. The TSM controller is redefined into a strict feedback form; rendering it suitable for addressing output-tracking challenges in nonlinear systems. Comparative simulations validate the effectiveness of the proposed TSM controller; emphasizing its practical applicability. © 2024 Farzad Soltanian et al;

D O I：

10.1155/2024/7126978

中图分类号：

学科分类号：

摘要：

引用

共 50 条

[21] Adaptive Fuzzy Control of Nonlinear Systems Based on T-S fuzzy Hyperbolic Model
Shi, Naizheng
Li, Junmin
Li, Pei
An, Haitao
Wang, Chong
[J]. PROCEEDINGS OF 2018 IEEE 7TH DATA DRIVEN CONTROL AND LEARNING SYSTEMS CONFERENCE (DDCLS), 2018, : 452 - 457
[22] Neural Network-Based Adaptive Sliding Mode Control for T-S Fuzzy Fractional Order Systems
Li, Bingxin
Zhao, Xin
[J]. IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS II-EXPRESS BRIEFS, 2023, 70 (12) : 4549 - 4553
[23] Adaptive fuzzy sliding-mode control for a class of T-S fuzzy models
[J]. Han, H., 1600, Institute of Electrical Engineers of Japan (133):
[24] Piecewise Sliding-Mode Control for T-S Fuzzy Systems
Xi, Zhiyu
Feng, Gang
Hesketh, Tim
[J]. IEEE TRANSACTIONS ON FUZZY SYSTEMS, 2011, 19 (04) : 707 - 716
[25] Integral sliding mode control for T-S fuzzy descriptor systems
Mani, Prakash
Rajan, Rakkiyappan
Joo, Young Hoon
[J]. NONLINEAR ANALYSIS-HYBRID SYSTEMS, 2021, 39
[26] T-S Fuzzy Model and Optimal Reaching Law-based Sliding Mode Control for Nonlinear Trajectory Tracking
Wang, Junxia
Zhu, Qunxiong
[J]. MECHATRONICS AND INDUSTRIAL INFORMATICS, PTS 1-4, 2013, 321-324 : 1854 - 1857
[27] Synchronization of chaotic systems using adaptive T-S fuzzy terminal sliding-function control
Huang, Yun-Cheng
Li, Tzuu-Hseng S.
[J]. International Journal of Control and Automation, 2014, 7 (02): : 263 - 282
[28] H∞ Robust T-S Fuzzy Design for Uncertain Nonlinear Systems with State Delays Based on Sliding Mode Control
Zhang, X. Z.
Wang, Y. N.
Yuan, X. F.
[J]. INTERNATIONAL JOURNAL OF COMPUTERS COMMUNICATIONS & CONTROL, 2010, 5 (04) : 592 - 602
[29] Sliding Mode Control for Nonlinear System Based on T-S Model
WU Zhong-qiangCollege of Electrical Engineering
[J]. Journal of Systems Science and Systems Engineering, 2002, (04) : 425 - 430
[30] Adaptive fuzzy sliding mode control for nonlinear systems
Tong, SC
Chai, TY
Shao, C
[J]. FUZZ-IEEE '96 - PROCEEDINGS OF THE FIFTH IEEE INTERNATIONAL CONFERENCE ON FUZZY SYSTEMS, VOLS 1-3, 1996, : 49 - 54

← 1 2 3 4 5 →