• Title/Summary/Keyword: 최적 루프전달회복기법

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Robust Control of Vibration Using shape memory alloy actuator (형상기억합금 액추에이터를 이용한 강건한 진동제어)

  • ;Koval, L. R.
    • Transactions of the Korean Society of Mechanical Engineers
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    • v.19 no.1
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    • pp.263-270
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    • 1995
  • The use of the shape memory alloy, Nitinol wire, is investigated as an actuator for enhancing the damping in structural vibration systems. The first-order mathematical model of the Nitinol wire is obtained from the experimental data for an actuator. Finite element method is utilized for the strain gage sensor model, which is installed at the root of cantilever beam. A simple system, cantilever beam, is built as a flexible structural system to implement a control law with the Nitinol wire actuator. The system model including sensor and actuator is derived, which agrees with the experimental results. The actuator dynamics is augmented with the system so as to design PI controller and the one of robust controllers, LQG/LTR controller, and the control laws are implemented experimentally. The experimental study shows the feasibility of utilizing the Nitinol wire as an actuator for the purpose of vibration control.

An Application of LTR Method in a DUOX System to Control a MDOF Structure Subjected to the Seismic Excitations (루프전달회복법(Loop Transfer Recovery: LTR)을 이용한 다자유도 DUOX 시스템의 지진동 제어)

  • Lee, Jin-Ho
    • Journal of the Korea institute for structural maintenance and inspection
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    • v.12 no.5
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    • pp.65-73
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    • 2008
  • Retaining large stability margin is essential in designing a feedback control system to deal with the uncertainties inherently existing in the mathematical model and the control apparatus. The LQG controller in general loses the stability margin due to the embed Kalman filter. The performance of a control system called LTR with a DUOX structure(LTR/DOUX) to overcome the demerit of LQG controller is to be investigated from the responses in both the time and the frequency domain. The results indicated that the LTR/DOUX recovered the gain margin of 30dB approximately 20 times more than that of LQG/DOUX, resulting in a robust stable control system.