The field of DC attraction-type levitation systems (DCALS) faces challenges that hinder its optimal performance in various industrial applications. The inherent instability, nonlinearity, and unmodeled dynamics of DCALS make achieving precise control and stability a complex task. Moreover, there are unexplored aspects within the field that require interdisciplinary research and development to unlock its full potential.
Studies on Single and Double Actuator Based DC Attraction Type Levitation Systems: Optimization Techniques, authored by Dr. Rupam Bhaduri provides a comprehensive solution to the challenges faced by DCALS. This book offers an in-depth analysis, design, and optimization of DCALS, focusing on single and double actuator systems. It equips academic scholars with the knowledge and tools to overcome system complexities through advanced optimization techniques. Dr. Bhaduri explores interdisciplinary approaches, integrating concepts from electromagnetism, electronics, power electronics, mechanical engineering, and control systems to achieve stability and precise control in levitation systems.
The book is an invaluable resource for academic scholars, researchers, and engineering professionals specializing in electromagnetism, electronics, power electronics, mechanical engineering, and control systems. This book caters to individuals seeking a deeper understanding of DC attraction-type levitation systems and provides interdisciplinary approaches to address their challenges. By leveraging the insights and advanced optimization techniques presented in this book, scholars can contribute to the advancement of DCALS through innovative research and development, unlocking its full potential and enabling precise control and stability in industrial applications.