Robust LQG controller design for lightly damped uncertain linear systems |
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Authors: | Kyung-Soo Kim Youngjin Park |
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Affiliation: | (1) Center for Noise and Vibration Control (NoVIC), Dept of Mech. Eng., Korea Advanced Institute of Science and Technology (KAIST), Korea |
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Abstract: | In this note, we consider lightly damped uncertain linear systems with natural frequency variations. This type of uncertainty has multiple uncertain parameters with multiple rank structure. It is well known that the conventional LQG or LQG/LTR methods can not be applied to such system bccause of the instability and the design conservatism. To overcome such shortcomings, we propose a systematic method to design robust LQG controllers. The proposed method requires only the LQG tuning parameters and the structure information of uncertainty. It will be shown that our approach can be effectively applied to flexible structure control design problems. Center for Noise and Vibration Control (NoViC), Dept. of Mech Eng., Korea Advanced Institute of Science and Technology (KAIST) |
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Keywords: | Lightly Damped Uncertain Systems Robust LQG Controller Real Parameter Uncertainty Quadratic Stability General I/O Decomposition |
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