Oscillation control of cantilevers via smart materials technology and optimal feedback control: Actuator location and power consumption issues

Sungsoo Na; Liviu Librescu

doi:10.1088/0964-1726/7/6/011

Oscillation control of cantilevers via smart materials technology and optimal feedback control: Actuator location and power consumption issues

Sungsoo Na, Liviu Librescu

Research output: Contribution to journal › Article › peer-review

49 Citations (Scopus)

Abstract

A study of the vibration control of cantilevers exposed to blast loading is presented. Whereas the structure used in this analysis is in the form of a thin-walled beam of closed cross-section contour, the control is based upon the simultaneous implementation of adaptive materials technology and of optimal feedback control. Issues related to the the influence upon dynamic response of size and location along the beam span of piezoactuator patches are investigated, and the efficiency of this combined control methodology is outlined. Other issues related to the minimization of the input power required in the control process, maximization of the sensing voltage output and implications of the limitation of control input voltage on dynamic response are also addressed and pertinent conclusions are outlined.

Original language	English
Pages (from-to)	833-842
Number of pages	10
Journal	Smart Materials and Structures
Volume	7
Issue number	6
DOIs	https://doi.org/10.1088/0964-1726/7/6/011
Publication status	Published - 1998 Dec
Externally published	Yes

ASJC Scopus subject areas

Signal Processing
Civil and Structural Engineering
Atomic and Molecular Physics, and Optics
General Materials Science
Condensed Matter Physics
Mechanics of Materials
Electrical and Electronic Engineering

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10.1088/0964-1726/7/6/011

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abstract = "A study of the vibration control of cantilevers exposed to blast loading is presented. Whereas the structure used in this analysis is in the form of a thin-walled beam of closed cross-section contour, the control is based upon the simultaneous implementation of adaptive materials technology and of optimal feedback control. Issues related to the the influence upon dynamic response of size and location along the beam span of piezoactuator patches are investigated, and the efficiency of this combined control methodology is outlined. Other issues related to the minimization of the input power required in the control process, maximization of the sensing voltage output and implications of the limitation of control input voltage on dynamic response are also addressed and pertinent conclusions are outlined.",

author = "Sungsoo Na and Liviu Librescu",

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N2 - A study of the vibration control of cantilevers exposed to blast loading is presented. Whereas the structure used in this analysis is in the form of a thin-walled beam of closed cross-section contour, the control is based upon the simultaneous implementation of adaptive materials technology and of optimal feedback control. Issues related to the the influence upon dynamic response of size and location along the beam span of piezoactuator patches are investigated, and the efficiency of this combined control methodology is outlined. Other issues related to the minimization of the input power required in the control process, maximization of the sensing voltage output and implications of the limitation of control input voltage on dynamic response are also addressed and pertinent conclusions are outlined.

AB - A study of the vibration control of cantilevers exposed to blast loading is presented. Whereas the structure used in this analysis is in the form of a thin-walled beam of closed cross-section contour, the control is based upon the simultaneous implementation of adaptive materials technology and of optimal feedback control. Issues related to the the influence upon dynamic response of size and location along the beam span of piezoactuator patches are investigated, and the efficiency of this combined control methodology is outlined. Other issues related to the minimization of the input power required in the control process, maximization of the sensing voltage output and implications of the limitation of control input voltage on dynamic response are also addressed and pertinent conclusions are outlined.

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Oscillation control of cantilevers via smart materials technology and optimal feedback control: Actuator location and power consumption issues

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