Rotor-blade vibration control using a periodic LQR controller
DOI:
https://doi.org/10.5540/03.2013.001.01.0011Resumo
This paper presents an active control strategy based on the periodic time varying linear quadratic regulator problem to attenuate the vibration of a coupled rotor-blade system via shaft actuation. For this system, a periodic modal decomposition method is applied to decouple part of the system dynamics, which ultimately provides a reduced order model. Then, a periodic LQR controller obtained as the solution of a periodic Riccati differential equation is designed. For comparison purpose, three others controllers are also designed. A proportional derivative controller, an LQR controller based on a single LTI model, and an LQR controller based on multiple LTI models. Numerical simulations show the superior performance of the proposed technique.Downloads
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