Cheng-Wu Chen, K. Yeh, Chung-Hung Tsai, Chen-Yuan Chen, Deh-Juan Wu
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Applying the Linear Matrix Inequality for Hybrid Fuzzy/H-infinity Control of Active Structural Damping
This paper proposes a design method of Hinfin control performance for structural systems using Takagi-Sugeno (T-S) fuzzy model. The structural system with tuned mass damper is modeled by T-S type fuzzy model. By using parallel distributed compensation (PDC) scheme, we design a nonlinear fuzzy controller for the tuned mass damper system. According to the control system, a sufficient stability condition is derived in terms of Lyapunov theory and this control problem is reformulated into solving linear matrix inequalities (LMI) problem.
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