Contraction Mapping-Based Robust Convergence of Iterative Learning Control With Uncertain, Locally Lipschitz Nonlinearity
This paper studies the output tracking control problems for multiple-input, multiple-output (MIMO) locally Lipschitz nonlinear (LLNL) systems subject to iterative operation and uncertain, iteration-varying external disturbances and initial conditions. Under the assumption of a linear, P-type iterati...
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| Published in | IEEE transactions on systems, man, and cybernetics. Systems Vol. 50; no. 2; pp. 442 - 454 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.02.2020
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2168-2216 2168-2232 |
| DOI | 10.1109/TSMC.2017.2780131 |
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| Abstract | This paper studies the output tracking control problems for multiple-input, multiple-output (MIMO) locally Lipschitz nonlinear (LLNL) systems subject to iterative operation and uncertain, iteration-varying external disturbances and initial conditions. Under the assumption of a linear, P-type iterative learning control (ILC) update law, a double-dynamics analysis (DDA) approach is proposed to show the convergence of the ILC process in the presence of the locally Lipschitz nonlinearities and iteration-varying uncertainties. The DDA approach results in a contraction mapping-based convergence condition that guarantees both: 1) the boundedness of all system trajectories and 2) the robust convergence of the output tracking error. Further, a basic system relative degree condition is given that provides a necessary and sufficient (NAS) guarantee of the convergence of the ILC process. As a corollary, it is noted that in the absence of iteration-varying uncertainties, the results likewise provide an NAS convergence guarantee for MIMO LLNL systems. The simulations are presented to illustrate the ideas. |
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| AbstractList | This paper studies the output tracking control problems for multiple-input, multiple-output (MIMO) locally Lipschitz nonlinear (LLNL) systems subject to iterative operation and uncertain, iteration-varying external disturbances and initial conditions. Under the assumption of a linear, P-type iterative learning control (ILC) update law, a double-dynamics analysis (DDA) approach is proposed to show the convergence of the ILC process in the presence of the locally Lipschitz nonlinearities and iteration-varying uncertainties. The DDA approach results in a contraction mapping-based convergence condition that guarantees both: 1) the boundedness of all system trajectories and 2) the robust convergence of the output tracking error. Further, a basic system relative degree condition is given that provides a necessary and sufficient (NAS) guarantee of the convergence of the ILC process. As a corollary, it is noted that in the absence of iteration-varying uncertainties, the results likewise provide an NAS convergence guarantee for MIMO LLNL systems. The simulations are presented to illustrate the ideas. |
| Author | Moore, Kevin L. Meng, Deyuan |
| Author_xml | – sequence: 1 givenname: Deyuan orcidid: 0000-0002-0990-0166 surname: Meng fullname: Meng, Deyuan email: dymeng@buaa.edu.cn organization: Seventh Research Division, Beihang University (BUAA), Beijing, China – sequence: 2 givenname: Kevin L. orcidid: 0000-0003-1371-4793 surname: Moore fullname: Moore, Kevin L. email: kmoore@mines.edu organization: Department of Electrical Engineering and Computer Science, Colorado School of Mines, Golden, CO, USA |
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| SubjectTerms | Basic converters Contraction mapping Convergence Ear Initial conditions iteration-varying uncertainty iterative learning control (ILC) Learning locally Lipschitz condition Mapping MIMO (control systems) MIMO communication Nonlinear dynamical systems nonlinear system Nonlinear systems Nonlinearity Robots robust convergence Robustness Tracking control Tracking errors Trajectory Uncertainty |
| Title | Contraction Mapping-Based Robust Convergence of Iterative Learning Control With Uncertain, Locally Lipschitz Nonlinearity |
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