Digital Control of Nonlinear Control Systems using a PIM Based Fuzzy Method

Document Type : Research Article

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Abstract

A new approach for digital control of a class of nonlinear systems is proposed. For this purpose, a combination of the well-known Parallel Distributed Compensation (PDC) method, and a particular linear digital redesign approach, namely, the plant-input mapping (PIM) method, is employed. In this methodology, a group of linear continuous-time controllers for fuzzy blending using the PDC method is designed and using the PIM method, every linear controller is discretised using the PIM method, with a unique property of guaranteeing the closed-loop stability of every subsystem for all non-pathological sampling periods. Closed loop stability of the resulting digital control system is studied, using the second Lyapunov stability theorem, extended for fuzzy-switching systems. The superiority of the resulting nonlinear digital control system is demonstrated through an example.

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References

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Amirkabir Journal of Mechanical Engineering
Volume 44, Issue 2 - Serial Number 2
February 2013
Pages 71-81

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