Litcius/Paper detail

Development and Experimental Implementation of Optimized PI-ANFIS Controller for Speed Control of a Brushless DC Motor in Fuel Cell Electric Vehicles

Abdessamad Intidam, Hassan El Fadil, Halima Housny, Zakariae El Idrissi, Abdellah Lassioui, Soukaina Nady, Abdeslam Jabal Laafou

2023Energies29 citationsDOIOpen Access PDF

Abstract

This paper compares the performance of different control techniques applied to a high-performance brushless DC (BLDC) motor. The first controller is a classical proportional integral (PI) controller. In contrast, the second one is based on adaptive neuro-fuzzy inference systems (proportional integral-adaptive neuro-fuzzy inference system (PI-ANFIS) and particle swarm optimization-proportional integral-adaptive neuro-fuzzy inference system (PSO-PI-ANFIS)). The control objective is to regulate the rotor speed to its desired reference value in the presence of load torque disturbance and parameter variations. The proposed controller uses a dSPACE platform (MicroLabBox controller board). The experimental prototype comprises a PEMFC system (the Nexa Ballard FC power generator: 1.2 kW, 52 A) and a brushless DC motor BLDC of 1 kW 1000 rpm. The PSO-PI-ANFIS controller presents better performance than the PI-ANFIS and classical PI controllers due to its ability to optimize the PI-ANFIS controller’s parameters using the particle swarm optimization (PSO) algorithm. This optimization results in improved tracking accuracy and reduced overshoot and settling time.

Topics & Concepts

Adaptive neuro fuzzy inference systemControl theory (sociology)Settling timePID controllerOvershoot (microwave communication)Particle swarm optimizationController (irrigation)DC motorComputer scienceElectronic speed controlControl engineeringEngineeringFuzzy control systemFuzzy logicStep responseAlgorithmArtificial intelligenceTemperature controlControl (management)AgronomyElectrical engineeringBiologyTelecommunicationsElectric and Hybrid Vehicle TechnologiesSensorless Control of Electric MotorsAdvanced Battery Technologies Research