CONTROL OF ELECTRIC MOTORS USING FUZZY LOGIC THROUGH VIBRATION, SOUND FREQUENCY, AND ELECTROMAGNETIC FLUX PARAMETERS

To’xtasinov Davronbek Xoshimjon o’g’li

CONTROL OF ELECTRIC MOTORS USING FUZZY LOGIC THROUGH VIBRATION, SOUND FREQUENCY, AND ELECTROMAGNETIC FLUX PARAMETERS

Authors

To’xtasinov Davronbek Xoshimjon o’g’li Namangan Engineering Technological Institute. Senior Lecturer

Abstract

This study explores the application of fuzzy logic for controlling electric motors by analyzing key parameters such as vibration, sound frequency, and electromagnetic flux. Traditional motor control systems often struggle to efficiently handle the uncertain and nonlinear conditions that affect motor performance. By employing fuzzy logic, which models human-like decision-making with uncertainty, we can achieve a more responsive and adaptive control system for electric motors. Our research builds on recent advancements in fuzzy logic systems, illustrating the effectiveness of this approach through a rule-based model, simulated performance results, and specific control scenarios.

Downloads

Published

2024-11-23

Issue

Vol. 2 No. 11 (2024): WOT

Section

Articles

License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

How to Cite

CONTROL OF ELECTRIC MOTORS USING FUZZY LOGIC THROUGH VIBRATION, SOUND FREQUENCY, AND ELECTROMAGNETIC FLUX PARAMETERS. (2024). Web of Technology: Multidimensional Research Journal, 2(11), 246-253. https://webofjournals.com/index.php/4/article/view/2257