Design of Internet of Things Based Controller for Direct Current Motors

TL;DR

This paper presents an IoT-based control system for a DC motor that maintains a fixed speed despite pressure variations, using modeling and simulation to approximate real-world performance.

Contribution

It introduces a novel IoT application for controlling a DC motor's speed with a focus on pressure-based adjustments and simulation modeling.

Findings

Successful implementation of IoT-based speed control

Simulation results closely match real system behavior

Effective pressure-based speed regulation achieved

Abstract

It is known that internet have been widespread in many areas of life and enabled machines to communicate each other. The terms of Internet of Things (IoT) has emerged as a result of networks consist of machines and equipment that work independent of operator and communicate each other. Sensors, embedded systems, communication technologies and data storage systems like clouds create wide area networks that can communicate and share data. In this study, the application of the IoT on a low speed mechanical benchmark driven by a direct current motor has been designed. It is aimed to keep the motor speed fixed at desired value according to the changings occurs depending on varying the pressure acting on the actuators. In presented study, a speed control is performed by establishing a modeling and simulation mechanism that will give the closest results to the real system.