Journal of Advanced Research in Electrical Engineering and Technology http://thejournalshouse.com/index.php/electrical-engg-technology Advanced Research Publications en-US Journal of Advanced Research in Electrical Engineering and Technology Model Predictive Control and Deep Reinforcement Learning for Energy Optimization in Battery Electric Vehicles: A Review http://thejournalshouse.com/index.php/electrical-engg-technology/article/view/2246 <p>The rising deployment of Battery Electric Vehicles (BEVs) has accentuated the need for energy-efficient driving strategies to ensure maximum vehicle range and battery longevity. Eco-driving, which intends to optimise energy consumption without compromising vehicle performance, has become an important research focus. This review investigates the use of Model Predictive Control (MPC) and DRL techniques for energy maintenance-orientated eco-driving in BEVs. MPC provides a structured approach to predicting and controlling the dynamic behaviour of the vehicle, considering constraints on battery parameters, regenerative braking, and energy recovery. DRL, conversely, employs a data-driven learning approach to create adaptive driving policies that optimise energy usage in real scenarios. The work investigates alternatives for forecasting maximum energy consumption variations using AI techniques and improvement of vehicle and battery operation. Also, it discusses performance comparison based on predicted results against measured operational data to verify how accurate and feasible these algorithms are. Their latest developments in integrating predictive control with learning-based methods for energy efficiency optimisation are reviewed, and some challenges related to computational burden, real-time implementation, and generalisation across different driving conditions are outlined. In line with this discussion, future research would be orientated toward hybrid methods integrating MPC and DRL for adaptive energy management, as well as the exploitation of promising AI techniques for enhanced prediction and control. This overall study will give good insight into designing intelligent energy-efficient BEV systems and provide a research direction of eco-driving optimisation.</p> <p><strong>How to cite this article:</strong></p> <p>Mustaf A A E, Maheshwari P, Kumar A. Model Predictive Control and Deep Reinforcement Learning for Energy Optimization in Battery Electric Vehicles: A Review. J Adv Res Electri Engg Tech 2026; 9(2): 1-10.</p> Ayman Adam Elzain Mustaf Priyanka Maheshwari Abhimanyu Kumar Copyright (c) 2026 Journal of Advanced Research in Electrical Engineering and Technology 2026-06-22 2026-06-22 9 2 1 10