V. Feliú scite author profile

This paper deals with the design of fractional order PI l D m controllers, in which the orders of the integral and derivative parts, l and m, respectively, are fractional. The purpose is to take advantage of the introduction of these two parameters and fulfill additional specifications of design, ensuring a robust performance of the controlled system with respect to gain variations and noise. A method for tuning the PI l D m controller is proposed in this paper to fulfill five different design specifications. Experimental results show that the requirements are totally met for the platform to be controlled. Besides, this paper proposes an auto-tuning method for this kind of controller. Specifications of gain crossover frequency and phase margin are fulfilled, together with the iso-damping property of the time response of the system. Experimental results are given to illustrate the effectiveness of this method. r

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Fractional order control strategies for power electronic buck converters

Martín

2006

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On Fractional PI? Controllers: Some Tuning Rules for Robustness to Plant Uncertainties

et al. 2004

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The objective of this work is to find out optimum settings for a fractional PI λ controller in order to fulfill three different robustness specifications of design for the compensated system, taking advantage of the fractional order, λ. Since this fractional controller has one parameter more than the conventional PI controller, one more specification can be fulfilled, improving the performance of the system and making it more robust to plant uncertainties, such as gain and time constant changes. For the tuning of the controller an iterative optimization method has been used, based on a nonlinear function minimization. Two real examples of application are presented and simulation results are shown to illustrate the effectiveness of this kind of unconventional controllers.

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Equivalent circuit for modelling the steel-concrete interface. I. experimental evidence and theoretical predictions

et al. 1998

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V. Feliú

Fractional-order Systems and Controls

Tuning and auto-tuning of fractional order controllers for industry applications

Fractional order control strategies for power electronic buck converters

On Fractional PI? Controllers: Some Tuning Rules for Robustness to Plant Uncertainties

Equivalent circuit for modelling the steel-concrete interface. I. experimental evidence and theoretical predictions

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