Litcius/Paper detail

Real-Time Fuzzy-PID for Mobile Robot Control and Vision-Based Obstacle Avoidance

Sabrina Mohand Saidi, Rabah Mellah, Arezki Fekik, Ahmad Taher Azar

2022International Journal of Service Science Management Engineering and Technology26 citationsDOIOpen Access PDF

Abstract

In this work, the differential mobile robot is controlled utilizing fuzzy PID speed control, which combines fuzzy control with conventional PID control in real time. The path may be convoluted, and the surrounding environment may contain a range of arbitrary shape and size obstacles. A monocular camera is used to detect obstacles during the navigation process. To enable a robot to travel within an indoor space while avoiding obstacles, a basic image processing approach based on area of interest was used. The goal of this research is to develop a fuzzy PID speed controller on a real robot, as well as a simple and efficient visual obstacle avoidance system. MATLAB is used to implement the control system. GUIDE (graphical user interface development environment) has enabled the creation of graphical user interfaces. These interfaces make it easy to manipulate the system in real time and capture live video. The proposed methodologies are tested on a non-holonomic dr robot i90 mobile robot, and the results are satisfactory.

Topics & Concepts

Obstacle avoidanceMobile robotPID controllerComputer scienceRobotFuzzy control systemArtificial intelligenceProcess (computing)Controller (irrigation)Robot controlFuzzy logicMonocular visionComputer visionControl engineeringEngineeringTemperature controlBiologyOperating systemAgronomyVideo Surveillance and Tracking MethodsIoT-based Smart Home SystemsFire Detection and Safety Systems