Adaptive iterative learning reliable control for a class of non-linearly parameterised systems with unknown state delays and input saturation
An adaptive iterative learning reliable control (AILRC) strategy is developed in this study for a class of non-linearly parameterised systems subject to unknown time-varying state delays and input saturation as well as actuator faults. In regard to non-linearly parameterised uncertainties, not only...
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| Published in | IET control theory & applications Vol. 10; no. 17; pp. 2160 - 2174 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
The Institution of Engineering and Technology
21.11.2016
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1751-8644 1751-8652 |
| DOI | 10.1049/iet-cta.2016.0209 |
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| Abstract | An adaptive iterative learning reliable control (AILRC) strategy is developed in this study for a class of non-linearly parameterised systems subject to unknown time-varying state delays and input saturation as well as actuator faults. In regard to non-linearly parameterised uncertainties, not only the non-linearly parameterised controlled object, but also the non-linearly parameterised input distribution matrix is investigated in this technical note. Without the need for precise system parameters or analytically estimating bound on actuator faults variables, the novel data-driven AILRC is constructed by a non-linear feedback term and a robust term. The non-linear influence brought by actuator faults, input saturation and state delays can be compensated with the resultant algorithms. It is shown that the $L_{\lsqb 0\comma \, T\rsqb }^2 $L[0,T]2 convergence of single-input–single-output and multiple-input–multiple-output systems is proved through a new time-weighted Lyapunov–Krasovskii-like composite energy function. The validity of the proposed AILRC is further verified by simulation. |
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| AbstractList | An adaptive iterative learning reliable control (AILRC) strategy is developed in this study for a class of non‐linearly parameterised systems subject to unknown time‐varying state delays and input saturation as well as actuator faults. In regard to non‐linearly parameterised uncertainties, not only the non‐linearly parameterised controlled object, but also the non‐linearly parameterised input distribution matrix is investigated in this technical note. Without the need for precise system parameters or analytically estimating bound on actuator faults variables, the novel data‐driven AILRC is constructed by a non‐linear feedback term and a robust term. The non‐linear influence brought by actuator faults, input saturation and state delays can be compensated with the resultant algorithms. It is shown that the convergence of single‐input–single‐output and multiple‐input–multiple‐output systems is proved through a new time‐weighted Lyapunov–Krasovskii‐like composite energy function. The validity of the proposed AILRC is further verified by simulation. An adaptive iterative learning reliable control (AILRC) strategy is developed in this study for a class of non‐linearly parameterised systems subject to unknown time‐varying state delays and input saturation as well as actuator faults. In regard to non‐linearly parameterised uncertainties, not only the non‐linearly parameterised controlled object, but also the non‐linearly parameterised input distribution matrix is investigated in this technical note. Without the need for precise system parameters or analytically estimating bound on actuator faults variables, the novel data‐driven AILRC is constructed by a non‐linear feedback term and a robust term. The non‐linear influence brought by actuator faults, input saturation and state delays can be compensated with the resultant algorithms. It is shown that the L[0,T]2 convergence of single‐input–single‐output and multiple‐input–multiple‐output systems is proved through a new time‐weighted Lyapunov–Krasovskii‐like composite energy function. The validity of the proposed AILRC is further verified by simulation. An adaptive iterative learning reliable control (AILRC) strategy is developed in this study for a class of non-linearly parameterised systems subject to unknown time-varying state delays and input saturation as well as actuator faults. In regard to non-linearly parameterised uncertainties, not only the non-linearly parameterised controlled object, but also the non-linearly parameterised input distribution matrix is investigated in this technical note. Without the need for precise system parameters or analytically estimating bound on actuator faults variables, the novel data-driven AILRC is constructed by a non-linear feedback term and a robust term. The non-linear influence brought by actuator faults, input saturation and state delays can be compensated with the resultant algorithms. It is shown that the $L_{\lsqb 0\comma \, T\rsqb }^2 $L[0,T]2 convergence of single-input–single-output and multiple-input–multiple-output systems is proved through a new time-weighted Lyapunov–Krasovskii-like composite energy function. The validity of the proposed AILRC is further verified by simulation. |
| Author | Ji, Honghai Hou, Zhongsheng Lewis, Frank L Fan, Lingling |
| Author_xml | – sequence: 1 givenname: Honghai surname: Ji fullname: Ji, Honghai organization: 1Advanced Control Systems Laboratory, Beijing Jiaotong University, Beijing 100044, People's Republic of China – sequence: 2 givenname: Zhongsheng surname: Hou fullname: Hou, Zhongsheng email: zhshhou@bjtu.edu.cn organization: 1Advanced Control Systems Laboratory, Beijing Jiaotong University, Beijing 100044, People's Republic of China – sequence: 3 givenname: Lingling surname: Fan fullname: Fan, Lingling organization: 2School of Electronic and Information Engineering, Beijing Jiaotong University, Beijing 100044, People's Republic of China – sequence: 4 givenname: Frank L surname: Lewis fullname: Lewis, Frank L organization: 4State Key Laboratory of Synthetical Automation for Process Industries, Northeastern University, Shenyang, People's Republic of China |
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| Keywords | time-varying systems adaptive iterative learning reliable control single-input–single-output systems uncertain systems convergence data-driven AILRC adaptive control distribution matrix unknown time-varying state delays matrix algebra actuator faults variables MIMO systems actuators iterative learning control feedback term nonlinear control systems delays input saturation robust term time-weighted Lyapunov-Krasovskii-like composite energy function nonlinearly parameterised uncertainties multiple-input-multiple-output systems fault tolerant control Lyapunov methods |
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| Snippet | An adaptive iterative learning reliable control (AILRC) strategy is developed in this study for a class of non-linearly parameterised systems subject to... An adaptive iterative learning reliable control (AILRC) strategy is developed in this study for a class of non‐linearly parameterised systems subject to... |
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| SubjectTerms | actuator faults variables Actuators adaptive control Adaptive control systems adaptive iterative learning reliable control Control systems convergence data‐driven AILRC Delay delays distribution matrix fault tolerant control Faults feedback term input saturation iterative learning control Learning Lyapunov methods matrix algebra MIMO systems multiple‐input‐multiple‐output systems nonlinear control systems Nonlinearity nonlinearly parameterised uncertainties Research Article robust term Saturation single‐input–single‐output systems time‐varying systems time‐weighted Lyapunov‐Krasovskii‐like composite energy function uncertain systems unknown time‐varying state delays |
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| Title | Adaptive iterative learning reliable control for a class of non-linearly parameterised systems with unknown state delays and input saturation |
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