Design of Robust Controllers for Flexible Linkage Mechanism

博士 === 國立中山大學 === 機械工程學系研究所 === 89 === The purpose of this dissertation is to study the robust control for the smart flexible linkage mechanism. The control of flexible linkage induced inertia force under high-speed rotation is taken into consideration with the system parameter uncertainties such as...

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Main Authors: Wen-Hwei Liao, 廖文煇
Other Authors: Ing-Rong Horng
Format: Others
Language:zh-TW
Published: 2001
Online Access:http://ndltd.ncl.edu.tw/handle/13745654528961794972
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spelling ndltd-TW-089NSYS54900012016-01-29T04:33:39Z http://ndltd.ncl.edu.tw/handle/13745654528961794972 Design of Robust Controllers for Flexible Linkage Mechanism 可撓性連桿機構之強健性控制器設計 Wen-Hwei Liao 廖文煇 博士 國立中山大學 機械工程學系研究所 89 The purpose of this dissertation is to study the robust control for the smart flexible linkage mechanism. The control of flexible linkage induced inertia force under high-speed rotation is taken into consideration with the system parameter uncertainties such as modeling error, truncation error, and both of control spillover and observation spillover due to the residual modes of structural control problem. Based on the principles of LQ, optimal model following (OMF) and frequency shaping, this study proposes some sufficient conditions of stability criteria for the design of robust controller, respectively. These techniques guarantee that the controlled plant, under both bounded parameter perturbations and model truncation, could remain stable. Meanwhile, searching for the optimal locating positions of sensor and actuator by applying Taguchi method and genetic algorithm (GA) combined technique is further studied. The system is modeled through employing finite element method (FEM), and the limited lower frequency part modes are separated into controlled modes and residual modes. In time domain, at first we design a Luenberger-observer-based robust controller for the finite-dimensional mode plant keeping stability in a specified region. And then, a robust controller with the OMF is designed for the controlled system to achieve the performance as those of the specified optimum model. From the view of frequency domain, the robust controller could also be deigned according to the frequency shaping principle to suppress the exciting effect of higher frequency residual modes, and similarly avoid that the system might be destabilized. Finally, the combination of Taguchi method and GA technique to search the optimal locations for placing actuator and sensor to coincide with the stability and performance requirement is also done. From the computer simulation, the middle point movement of the linkage is obviously well controlled; hence, the designed robust controllers can certainly suppress the affection of parameter uncertainties and the spillover stimulation of residual modes, and can produce satisfactory results. Ing-Rong Horng 洪英榮 2001 學位論文 ; thesis 121 zh-TW
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description 博士 === 國立中山大學 === 機械工程學系研究所 === 89 === The purpose of this dissertation is to study the robust control for the smart flexible linkage mechanism. The control of flexible linkage induced inertia force under high-speed rotation is taken into consideration with the system parameter uncertainties such as modeling error, truncation error, and both of control spillover and observation spillover due to the residual modes of structural control problem. Based on the principles of LQ, optimal model following (OMF) and frequency shaping, this study proposes some sufficient conditions of stability criteria for the design of robust controller, respectively. These techniques guarantee that the controlled plant, under both bounded parameter perturbations and model truncation, could remain stable. Meanwhile, searching for the optimal locating positions of sensor and actuator by applying Taguchi method and genetic algorithm (GA) combined technique is further studied. The system is modeled through employing finite element method (FEM), and the limited lower frequency part modes are separated into controlled modes and residual modes. In time domain, at first we design a Luenberger-observer-based robust controller for the finite-dimensional mode plant keeping stability in a specified region. And then, a robust controller with the OMF is designed for the controlled system to achieve the performance as those of the specified optimum model. From the view of frequency domain, the robust controller could also be deigned according to the frequency shaping principle to suppress the exciting effect of higher frequency residual modes, and similarly avoid that the system might be destabilized. Finally, the combination of Taguchi method and GA technique to search the optimal locations for placing actuator and sensor to coincide with the stability and performance requirement is also done. From the computer simulation, the middle point movement of the linkage is obviously well controlled; hence, the designed robust controllers can certainly suppress the affection of parameter uncertainties and the spillover stimulation of residual modes, and can produce satisfactory results.
author2 Ing-Rong Horng
author_facet Ing-Rong Horng
Wen-Hwei Liao
廖文煇
author Wen-Hwei Liao
廖文煇
spellingShingle Wen-Hwei Liao
廖文煇
Design of Robust Controllers for Flexible Linkage Mechanism
author_sort Wen-Hwei Liao
title Design of Robust Controllers for Flexible Linkage Mechanism
title_short Design of Robust Controllers for Flexible Linkage Mechanism
title_full Design of Robust Controllers for Flexible Linkage Mechanism
title_fullStr Design of Robust Controllers for Flexible Linkage Mechanism
title_full_unstemmed Design of Robust Controllers for Flexible Linkage Mechanism
title_sort design of robust controllers for flexible linkage mechanism
publishDate 2001
url http://ndltd.ncl.edu.tw/handle/13745654528961794972
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