A New Methodology for Tuning PID‐Type Fuzzy Logic Controllers Scaling Factors Using Genetic Algorithm of a Discrete‐Time System ( Modern Fuzzy Control Systems and Its Applications )

Publication series ： Modern Fuzzy Control Systems and Its Applications

Author： Wafa Gritli Hajer Gharsallaoui and Mohamed Benrejeb

Publisher： IntechOpen‎

Publication year： 2017

E-ISBN: INT6583469604

P-ISBN(Paperback): 9789535133896

P-ISBN(Hardback): 9789535133902

Subject： O29 applied mathematics

Keyword：应用数学

Language： ENG

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A New Methodology for Tuning PID‐Type Fuzzy Logic Controllers Scaling Factors Using Genetic Algorithm of a Discrete‐Time System

Description

In this chapter, a proportional‐integral derivative (PID)‐type fuzzy logic controller (FLC) is proposed for a discrete‐time system in order to track a desired trajectory generated using the flatness property. In order to improve the performance of the proposed controller, genetic algorithm (GA) based on minimizing the integral of the squared error (ISE) is used for tuning the input and output PID‐type FLC scaling factors online. The considered controller is applied to an electronic throttle valve (ETV). GA tuning shows a better and robust performance compared to Simulink design optimization (SDO) algorithm in terms of tracking a desired trajectory with disturbances rejection.

Chapter

Chapter 5 A New Methodology for Tuning PID‐Type Fuzzy Logic Controllers Scaling Factors Using Genetic Algorithm of a Discrete‐Time System

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