Memory Output-Feedback Integral Sliding Mode Control for Furuta Pendulum Systems
This paper studies the memory output-feedback integral sliding mode control for Furuta pendulum systems subject to unmatched harmonic disturbances and measurement noise. By introducing an artificial time delay, the derivatives of angular positions are approximated via Taylor's expansion on the...
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| Published in | IEEE transactions on circuits and systems. I, Regular papers Vol. 67; no. 6; pp. 2042 - 2052 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.06.2020
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
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| Online Access | Get full text |
| ISSN | 1549-8328 1558-0806 |
| DOI | 10.1109/TCSI.2020.2970090 |
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| Abstract | This paper studies the memory output-feedback integral sliding mode control for Furuta pendulum systems subject to unmatched harmonic disturbances and measurement noise. By introducing an artificial time delay, the derivatives of angular positions are approximated via Taylor's expansion on the integral remainder. On this basis, a novel delay-dependent output-based sliding surface is constructed for state estimation and performance analysis, which inherits the appealing properties of the state-feedback integral sliding surface such as the elimination of reaching phase. Wherein, the artificial delay is regarded as a flexible design parameter ranging between 0 and its upper bound, with the bound determined by solving linear matrix inequalities. As a result, an integral sliding mode controller (ISMC) consisting of a static output-feedback part and a switching part is designed based on the descriptor system representation of the original system to control the pendulum in a noisy environment. Comparative simulation studies with <inline-formula> <tex-math notation="LaTeX">H_\infty </tex-math></inline-formula> control, state-feedback ISMC, and high-order ISMC demonstrate the effectiveness of the design method. |
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| AbstractList | This paper studies the memory output-feedback integral sliding mode control for Furuta pendulum systems subject to unmatched harmonic disturbances and measurement noise. By introducing an artificial time delay, the derivatives of angular positions are approximated via Taylor's expansion on the integral remainder. On this basis, a novel delay-dependent output-based sliding surface is constructed for state estimation and performance analysis, which inherits the appealing properties of the state-feedback integral sliding surface such as the elimination of reaching phase. Wherein, the artificial delay is regarded as a flexible design parameter ranging between 0 and its upper bound, with the bound determined by solving linear matrix inequalities. As a result, an integral sliding mode controller (ISMC) consisting of a static output-feedback part and a switching part is designed based on the descriptor system representation of the original system to control the pendulum in a noisy environment. Comparative simulation studies with <inline-formula> <tex-math notation="LaTeX">H_\infty </tex-math></inline-formula> control, state-feedback ISMC, and high-order ISMC demonstrate the effectiveness of the design method. This paper studies the memory output-feedback integral sliding mode control for Furuta pendulum systems subject to unmatched harmonic disturbances and measurement noise. By introducing an artificial time delay, the derivatives of angular positions are approximated via Taylor’s expansion on the integral remainder. On this basis, a novel delay-dependent output-based sliding surface is constructed for state estimation and performance analysis, which inherits the appealing properties of the state-feedback integral sliding surface such as the elimination of reaching phase. Wherein, the artificial delay is regarded as a flexible design parameter ranging between 0 and its upper bound, with the bound determined by solving linear matrix inequalities. As a result, an integral sliding mode controller (ISMC) consisting of a static output-feedback part and a switching part is designed based on the descriptor system representation of the original system to control the pendulum in a noisy environment. Comparative simulation studies with [Formula Omitted] control, state-feedback ISMC, and high-order ISMC demonstrate the effectiveness of the design method. |
| Author | Shi, Peng Xu, Jing Lim, Cheng-Chew Niu, Yugang |
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| SubjectTerms | Angular position Attenuation Control systems Delays Design parameters Furuta pendulum Harmonic analysis Integrals Linear matrix inequalities Mathematical analysis Noise measurement Output feedback Pendulums Sliding mode control State estimation Switches System performance time delay Time lag Upper bounds |
| Title | Memory Output-Feedback Integral Sliding Mode Control for Furuta Pendulum Systems |
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