Vibration control of rotor systems with noncollocated sensor/actuator by experimental design

研究成果: Chapter

1 引文 (Scopus)

摘要

This paper presents a controller design methodology for vibration suppression of rotor systems in noncollocated sensor/actuator configuration. The methodology combines the experimental design method of quality engineering and the active damping control technique such that their advantages in implementation feasibility and performance-robustness can be integrated together. Compared with LQ-based design, the controller order is smaller and it is applicable to systems in an operation speed range. In addition, neither preselected sensor/actuator location nor state measurement/estimation is needed. By using the locations of sensor/actuator and the feedback gains as design parameters, the controller is shown to achieve the best possible system performance while maintaining the closed loop system stability. Analyses also show that, contrary to common believe, the performance of a closed loop system with noncollocated sensor/actuator can be superior to that with a collocated one.

原文English
主出版物標題15th Biennial Conference on Mechanical Vibration and Noise
編輯K.W. Wang, B. Yang, J.Q. Sun, K. Seto, K. Yoshida, al et al
版本3 Pt B/1
出版狀態Published - 1995 十二月 1
事件Proceedings of the 1995 ASME Design Engineering Technical Conference. Part C - Boston, MA, USA
持續時間: 1995 九月 171995 九月 20

出版系列

名字American Society of Mechanical Engineers, Design Engineering Division (Publication) DE
號碼3 Pt B/1
84

Other

OtherProceedings of the 1995 ASME Design Engineering Technical Conference. Part C
城市Boston, MA, USA
期間95-09-1795-09-20

指紋

Vibration control
Design of experiments
Actuators
Rotors
Sensors
Closed loop systems
Controllers
System stability
Damping
Feedback

All Science Journal Classification (ASJC) codes

  • Engineering(all)

引用此文

Yang, S-M., Sheu, G. J., & Yang, C-D. (1995). Vibration control of rotor systems with noncollocated sensor/actuator by experimental design. 於 K. W. Wang, B. Yang, J. Q. Sun, K. Seto, K. Yoshida, & A. et al (編輯), 15th Biennial Conference on Mechanical Vibration and Noise (3 Pt B/1 編輯). (American Society of Mechanical Engineers, Design Engineering Division (Publication) DE; 卷 84, 編號 3 Pt B/1).
Yang, Shih-Ming ; Sheu, G. J. ; Yang, Ciann-Dong. / Vibration control of rotor systems with noncollocated sensor/actuator by experimental design. 15th Biennial Conference on Mechanical Vibration and Noise. 編輯 / K.W. Wang ; B. Yang ; J.Q. Sun ; K. Seto ; K. Yoshida ; al et al. 3 Pt B/1. 編輯 1995. (American Society of Mechanical Engineers, Design Engineering Division (Publication) DE; 3 Pt B/1).
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Yang, S-M, Sheu, GJ & Yang, C-D 1995, Vibration control of rotor systems with noncollocated sensor/actuator by experimental design. 於 KW Wang, B Yang, JQ Sun, K Seto, K Yoshida & A et al (編輯), 15th Biennial Conference on Mechanical Vibration and Noise. 3 Pt B/1 edn, American Society of Mechanical Engineers, Design Engineering Division (Publication) DE, 編號 3 Pt B/1, 卷 84, Proceedings of the 1995 ASME Design Engineering Technical Conference. Part C, Boston, MA, USA, 95-09-17.

Vibration control of rotor systems with noncollocated sensor/actuator by experimental design. / Yang, Shih-Ming; Sheu, G. J.; Yang, Ciann-Dong.

15th Biennial Conference on Mechanical Vibration and Noise. 編輯 / K.W. Wang; B. Yang; J.Q. Sun; K. Seto; K. Yoshida; al et al. 3 Pt B/1. 編輯 1995. (American Society of Mechanical Engineers, Design Engineering Division (Publication) DE; 卷 84, 編號 3 Pt B/1).

研究成果: Chapter

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AB - This paper presents a controller design methodology for vibration suppression of rotor systems in noncollocated sensor/actuator configuration. The methodology combines the experimental design method of quality engineering and the active damping control technique such that their advantages in implementation feasibility and performance-robustness can be integrated together. Compared with LQ-based design, the controller order is smaller and it is applicable to systems in an operation speed range. In addition, neither preselected sensor/actuator location nor state measurement/estimation is needed. By using the locations of sensor/actuator and the feedback gains as design parameters, the controller is shown to achieve the best possible system performance while maintaining the closed loop system stability. Analyses also show that, contrary to common believe, the performance of a closed loop system with noncollocated sensor/actuator can be superior to that with a collocated one.

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Yang S-M, Sheu GJ, Yang C-D. Vibration control of rotor systems with noncollocated sensor/actuator by experimental design. 於 Wang KW, Yang B, Sun JQ, Seto K, Yoshida K, et al A, 編輯, 15th Biennial Conference on Mechanical Vibration and Noise. 3 Pt B/1 編輯 1995. (American Society of Mechanical Engineers, Design Engineering Division (Publication) DE; 3 Pt B/1).