A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Semi‐active vibration control of structural systems based on a reference active control law: output emulation approach
A new semi‐active control strategy that approximates a predicted control output of a reference active control is proposed. A variable parameter of a semi‐active control device is selected at every time instant so that the predicted control output of the semi‐active control system becomes close to the corresponding predicted control output of the reference active control as much as possible. Parameters of the reference active control law are optimized in the premise of the aforementioned ‘output emulation’ strategy so that the control performance of the semi‐active control becomes good and the ‘error’ in the sense of achieved control performance between the reference active control and semi‐active control systems becomes small. A pole placement method based on a linear matrix inequality (LMI) framework is adopted as the reference active control law. Parameters to determine the domain in the complex plane where the closed‐loop poles are placed are searched so that control performance of the semi‐active control system based on the output emulation approach is optimized. Copyright © 2015 John Wiley & Sons, Ltd.
Semi‐active vibration control of structural systems based on a reference active control law: output emulation approach
A new semi‐active control strategy that approximates a predicted control output of a reference active control is proposed. A variable parameter of a semi‐active control device is selected at every time instant so that the predicted control output of the semi‐active control system becomes close to the corresponding predicted control output of the reference active control as much as possible. Parameters of the reference active control law are optimized in the premise of the aforementioned ‘output emulation’ strategy so that the control performance of the semi‐active control becomes good and the ‘error’ in the sense of achieved control performance between the reference active control and semi‐active control systems becomes small. A pole placement method based on a linear matrix inequality (LMI) framework is adopted as the reference active control law. Parameters to determine the domain in the complex plane where the closed‐loop poles are placed are searched so that control performance of the semi‐active control system based on the output emulation approach is optimized. Copyright © 2015 John Wiley & Sons, Ltd.
Semi‐active vibration control of structural systems based on a reference active control law: output emulation approach
Hiramoto, Kazuhiko (author) / Matsuoka, Taichi (author) / Sunakoda, Katsuaki (author)
Structural Control and Health Monitoring ; 23 ; 423-445
2016-03-01
23 pages
Article (Journal)
Electronic Resource
English
Decentralized semi‐active structural vibration control based on optimal system modelling
| Wiley | 2020
Semi-Active Structural Control Strategies
| British Library Conference Proceedings | 2014
Semi-active control of earthquake induced vibration
| British Library Conference Proceedings | 1996
Active control of bidirectional structural vibration
| TIBKAT | 2020