Year : 2025 | Volume : 03 | Issue : 02 | Page : 22 29

N. N. Shaikh,

I.R Kazi Kutubuddin Sayyad Liyakat,

Assistant Professor, Brahmdevdada Mane Institute of Technology, Solapur, Maharashtra, India
Professor and Head, Brahmdevdada Mane Institute of Technology, Solapur, Maharashtra, India

Abstract

DC motors remain the workhorse of industrial automation and mobile robotics, but achieving simultaneous high-speed transient response and negligible steady-state error under variable load conditions continues to challenge classical Proportional-Integral-Derivative (PID) controllers. These model-dependent systems often require extensive tuning and struggle to maintain optimal performance when confronted with parametric uncertainties, non-linear friction, or sudden voltage fluctuations. This study presents a novel, model-free control paradigm utilizing Deep Reinforcement Learning (DRL)—specifically, a Proximal Policy Optimization (PPO) agent—to govern the speed and torque of a brushed DC motor. The PPO agent interacts directly with a high-fidelity motor simulation environment, learning optimal control policies by maximizing a custom reward function that penalizes overshoot, settling time, and steady-state error. The resulting AI controller demonstrates exceptional adaptation and robustness. Experimental validation shows that the DRL-based system achieves a 60% reduction in peak overshoot and a 45% faster settling time compared to a meticulously fine-tuned cascaded PID controller, particularly during abrupt load application and removal. By bypassing the need for explicit mathematical modeling, this approach provides a scalable, intelligent solution that mitigates common control challenges, paving the way for truly autonomous, highly resilient electromechanical systems.

Keywords: Deep Learning, DC motor, Deep Reinforced Learning, Proximal Policy Optimization

[This article belongs to International Journal of Electrical Machine Analysis and Design ]

How to cite this article:
N. N. Shaikh, I.R Kazi Kutubuddin Sayyad Liyakat. DC Motor Control using Deep Reinforcement Learning for Enhanced Robustness and Precision. International Journal of Electrical Machine Analysis and Design. 2025; 03(02):22-29.

How to cite this URL:
N. N. Shaikh, I.R Kazi Kutubuddin Sayyad Liyakat. DC Motor Control using Deep Reinforcement Learning for Enhanced Robustness and Precision. International Journal of Electrical Machine Analysis and Design. 2025; 03(02):22-29. Available from: https://journals.stmjournals.com/ijemad/article=2025/view=235519

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Regular Issue Subscription Original Research

International Journal of Electrical Machine Analysis and Design

Volume	03
Issue	02
Received	17/11/2025
Accepted	19/11/2025
Published	31/12/2025
Publication Time	44 Days

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