TY - JOUR AU - Kumar, R. S. AU - Reddy, C. S. R. AU - Chandra, B. M. PY - 2023/03/05 Y2 - 2024/03/29 TI - Optimal performance assessment of intelligent controllers used in solar-powered electric vehicle JF - Electrical Engineering & Electromechanics JA - Electrical Engineering & Electromechanics VL - IS - 2 SE - Electrotechnical complexes and Systems DO - 10.20998/2074-272X.2023.2.04 UR - http://eie.khpi.edu.ua/article/view/259046 SP - 20-26 AB - <p><strong><em>Introduction</em></strong><em>. Increasing vehicle numbers, coupled with their increased consumption of fossil fuels, have drawn great concern about their detrimental environmental impacts. Alternative energy sources have been the subject of extensive research and development. Due to its high energy density, zero emissions, and use of sustainable fuels, the battery is widely considered one of the most promising solutions for automobile applications.</em> <em>A major obstacle to its commercialization is the battery's high cost and low power density. <strong>Purpose</strong>. Implementing a control system is the primary objective of this work, which is employed to change the energy sources in hybrid energy storage system about the load applied to the drive. <strong>Novelty.</strong> To meet the control objective, a speed condition-based controller is designed by considering four separate math functions and is programmed based on different speed ranges. On the other hand, the conventional/intelligent controller is also considered to develop the switching signals related to the DC-DC converter’s output and applied the actual value.<strong> Methods.</strong> According to the proposed control strategy, the adopted speed condition based controller is a combined conventional/intelligent controller to meet the control object. <strong>Practical value.</strong> In this work, three different hybrid controllers adopted speed condition based controller with artificial neural network controller, adopted speed condition based controller with fuzzy logic controller, and adopted speed condition based controller with proportional-integral derivative controller are designed and applied separately and obtain the results at different load conditions in MATLAB/Simulink environment. Three hybrid controller’s execution is assessed based on time-domain specifications.</em></p> ER -