Locally Optimal Takagi-Sugeno Fuzzy Controllers Amir massoud Farahmand Mohammad javad Yazdanpanah Department of Electrical.

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Locally Optimal Takagi-Sugeno Fuzzy Controllers Amir massoud Farahmand Mohammad javad Yazdanpanah Department of Electrical and Computer Engineering University of Tehran Tehran, Iran

Department of Electrical and Computer Engineering University of Tehran Fuzzy Control Successful in many applications Ease of use Intuitive and interpretable Powerful nonlinear controller

Department of Electrical and Computer Engineering University of Tehran Takagi-Sugeno Plant Model, Theorem 1. The continuous uncontrolled T-S fuzzy system is globally quadratically stable if there exists a common positive definite matrix P such that

Department of Electrical and Computer Engineering University of Tehran Parallel Distributed Compensation Stability condition:

Department of Electrical and Computer Engineering University of Tehran Locally Optimal Design Linearization Locally optimal design

Department of Electrical and Computer Engineering University of Tehran Experiments: Problem description Nonlinear Mass-Spring- Damper system

Department of Electrical and Computer Engineering University of Tehran Experiments : Fuzzy Settings The dynamics of the plant is approximated using Gaussian membership function Approximation error

Department of Electrical and Computer Engineering University of Tehran Experiments: Stabilization (I) Comparison of T-S controller (bold) and linear controller (dotted) with different initial conditions Both TS and linear controller are stable in this case. However, the behavior of fuzzy controller is smoother and with lower overshoot.

Department of Electrical and Computer Engineering University of Tehran Experiments: Stabilization (II) Response of T-S controller to (10 0)' The linear controller is not stable in this case, but the fuzzy controller can handle it easily.

Department of Electrical and Computer Engineering University of Tehran Experiments: Performance Comparison LinearTS Q=I, R= Q=10I,R= Q=I, R= ,,

Department of Electrical and Computer Engineering University of Tehran Experiments: Performance Comparison Fig. 3. Performance region comparison for different performance indices: (Q=1, R=1), (Q=10, R=1), and (Q=1, R=10), from left to right, respectively (dark region means linear one has better performance).

Department of Electrical and Computer Engineering University of Tehran Conclusions and Suggestions Conclusions Stable Fuzzy Controller Local Optimality How close is it to the global optimal solution?! Suggestions Comparison with other T-S controllers Modeling error and stability (polytopic systems) Considering the effect of membership functions explicitly