Practical and robust control for precision motion: AR-CM NCTF control of a linear motion mechanism with friction characteristics
This study presents the framework of the acceleration reference continuous motion nominal characteristic trajectory following (AR-CM NCTF) control system, and its effectiveness in a linear motion mechanism with friction characteristics is experimentally demonstrated in comparison with the other cont...
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The Institution of Engineering and Technology
2014
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my.utem.eprints.149122015-09-28T01:43:07Z http://eprints.utem.edu.my/id/eprint/14912/ Practical and robust control for precision motion: AR-CM NCTF control of a linear motion mechanism with friction characteristics Chong, Shin Horng Sato, Kaiji TJ Mechanical engineering and machinery TK Electrical engineering. Electronics Nuclear engineering This study presents the framework of the acceleration reference continuous motion nominal characteristic trajectory following (AR-CM NCTF) control system, and its effectiveness in a linear motion mechanism with friction characteristics is experimentally demonstrated in comparison with the other control methods. The overall control system comprises the feedback-loops for velocity reference and acceleration reference following controls. The AR-CM NCTF control is an enhanced continuous motion NCTF (CM NCTF) control that has been proposed for high-precision motion. It has the same structure as the CM NCTF controller with additional elements for high-precision motion. The design procedure of the AR-CM NCTF controller remains easy and is independent of friction characteristics. The usefulness and advantages of the proposed controller are shown in the experimental studies. Besides, this study also highlights the robustness of the AR-CM NCTF controller by examining its performances in point-to-point and tracking motions in the presence of mass and disturbance force variations. In the robust performance, the AR-CM NCTF controller is compared with two types of proportional derivative control systems with disturbance observers (PDDOs). The comparative experimental results illustrate that the AR-CM NCTF controller shows the higher motion performances the higher robustness to plant parameter variations than the PDDO controllers. The Institution of Engineering and Technology 2014-09-17 Article PeerReviewed text en http://eprints.utem.edu.my/id/eprint/14912/1/Practical%20and%20robust%20control%20for%20precision%20motion%20ARCM%20NCTF%20control.pdf Chong, Shin Horng and Sato, Kaiji (2014) Practical and robust control for precision motion: AR-CM NCTF control of a linear motion mechanism with friction characteristics. IET Control Theory and Applications, 9 (5). pp. 745-754. ISSN 1751-8644 doi: 10.1049/iet-cta.2014.0544 |
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TJ Mechanical engineering and machinery TK Electrical engineering. Electronics Nuclear engineering Chong, Shin Horng Sato, Kaiji Practical and robust control for precision motion: AR-CM NCTF control of a linear motion mechanism with friction characteristics |
| description |
This study presents the framework of the acceleration reference continuous motion nominal characteristic trajectory following (AR-CM NCTF) control system, and its effectiveness in a linear motion mechanism with friction characteristics is experimentally demonstrated in comparison with the other control methods. The overall control system comprises the feedback-loops for velocity reference and acceleration reference following controls. The AR-CM NCTF control is an enhanced continuous motion NCTF (CM NCTF) control that has been proposed for high-precision motion. It has the same structure as the CM NCTF controller with additional elements for high-precision motion. The design procedure of the AR-CM NCTF controller remains easy and is independent of friction characteristics. The usefulness and advantages of the proposed controller are shown in the experimental studies. Besides, this study also highlights the robustness of the AR-CM NCTF controller by examining its performances in point-to-point and tracking motions in the presence of mass and disturbance force variations. In
the robust performance, the AR-CM NCTF controller is compared with two types of proportional derivative control systems with disturbance observers (PDDOs). The comparative experimental results illustrate that the AR-CM NCTF controller shows the higher motion performances the higher robustness to plant parameter variations than the PDDO controllers. |
| format |
Article |
| author |
Chong, Shin Horng Sato, Kaiji |
| author_facet |
Chong, Shin Horng Sato, Kaiji |
| author_sort |
Chong, Shin Horng |
| title |
Practical and robust control for precision motion: AR-CM NCTF control of a linear motion mechanism with friction characteristics |
| title_short |
Practical and robust control for precision motion: AR-CM NCTF control of a linear motion mechanism with friction characteristics |
| title_full |
Practical and robust control for precision motion: AR-CM NCTF control of a linear motion mechanism with friction characteristics |
| title_fullStr |
Practical and robust control for precision motion: AR-CM NCTF control of a linear motion mechanism with friction characteristics |
| title_full_unstemmed |
Practical and robust control for precision motion: AR-CM NCTF control of a linear motion mechanism with friction characteristics |
| title_sort |
practical and robust control for precision motion: ar-cm nctf control of a linear motion mechanism with friction characteristics |
| publisher |
The Institution of Engineering and Technology |
| publishDate |
2014 |
| url |
http://eprints.utem.edu.my/id/eprint/14912/1/Practical%20and%20robust%20control%20for%20precision%20motion%20ARCM%20NCTF%20control.pdf http://eprints.utem.edu.my/id/eprint/14912/ |
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1665905619576553472 |
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13.160551 |