A Particle Swarm Optimization Based Fuzzy Flcpi-Pso Controller for Quadcopter System

Mohammed Baba; Fateh Bounaama; Sid Bennaceur; Aissa Benhammou; Mohammed Amine Soumeur

doi:10.26552/com.C.2024.027

Communications (Jul 2024)

A Particle Swarm Optimization Based Fuzzy Flcpi-Pso Controller for Quadcopter System

Mohammed Baba,
Fateh Bounaama,
Sid Bennaceur,
Aissa Benhammou,
Mohammed Amine Soumeur

Affiliations

Mohammed Baba: Laboratory of Smart Grids and Renewable Energies (SRGE), University Tahri Mohammed Bechar, Bechar, Algeria
Fateh Bounaama: Laboratory of Energy in Arid Zones (ENERGARID), University Tahri Mohammed Bechar, Bechar, Algeria
Sid Bennaceur: Laboratory of Renewable Energies and their Applications in Saharan areas (LDREAS), University Tahri Mohammed Bechar, Bechar, Algeria
Aissa Benhammou: Laboratory of Smart Grids and Renewable Energies (SRGE), University Tahri Mohammed Bechar, Bechar, Algeria
Mohammed Amine Soumeur: Laboratory of Smart Grids and Renewable Energies (SRGE), University Tahri Mohammed Bechar, Bechar, Algeria

DOI: https://doi.org/10.26552/com.C.2024.027
Journal volume & issue: Vol. 26, no. 3
pp. C9 – C20

Abstract

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The quadcopter persist as important roles across diverse applications, and the enhancement of their control efficacy has been the subject of extensive research. In this work, the authors proposed optimal Proportional Integral (PI) controller based Fuzzy Logic Control (FLC) for the roll, pitch, altitude, and yaw motions of the quadcopter system. The proposed technique uses the Particle Swarm Optimization (PSO) algorithm to tune the parameters of the FLC and enhance the quadcopter performance. The simulation results show that the proposed technique achieves smoothness of control and significant improvement over classical techniques, as the rise time and the settling time are reduced by 61 % and 66 %, respectively. These times are important for stabilizing the system's response speed and avoiding overshooting or oscillating. This indicates that the FLCPI-PSO can achieve the desired roll and altitude angles more rapidly and effectively.

Published in Communications

ISSN: 1335-4205 (Print); 2585-7878 (Online)
Publisher: University of Žilina
Country of publisher: Slovakia
LCC subjects: Social Sciences: Transportation and communications; Technology: Engineering (General). Civil engineering (General): Transportation engineering
Website: https://komunikacie.uniza.sk/

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