ICIEA 2025 Special Session
SS08: Cutting-Edge Dynamic Wireless Power Transfer Technologies
Organized by:
Organizer 1: Kaiwen Chen
Affiliation: Hong Kong Polytechnic University, Hong Kong SAR, China
Organizer 2: Yun Yang
Affiliation: Nanyang Technological University, Singapore
Organizer 3: Wenxing Zhong
Affiliation: Ningbo University and Douch Power Technology Company, China
Dynamic Wireless Power Transfer (DWPT), as a revolutionary technology, enables continuous power supply to moving objects, eliminating the need for physical connections. Advanced control technologies play a crucial role in optimizing power transfer efficiency, ensuring stable operation, and enhancing system reliability. In this session, we will bring together leading researchers and industry experts to share the latest theoretical research, innovative control strategies, and practical applications. Attendees can expect to gain in - depth insights into the state-of-art in DWPT and advanced control, as well as explore potential future directions for this rapidly evolving field.
With the development of modern transportation, such as electric vehicles and automated guided vehicles, the demand for non - contact and continuous power supply has emerged. Traditional wired charging methods are inconvenient and limit the mobility of these devices. DWPT technology offers a solution by allowing power transfer while the object is in motion. In recent years, significant progress has been made in the magnetic coupling mechanism, coil design, and power electronics for DWPT. However, challenges still remain in terms of efficiency improvement, power regulation under dynamic conditions, and interference suppression. Advanced control technologies, including intelligent control algorithms and real - time monitoring systems, are essential to address these issues.
The study of DWPT and advanced control technologies is of great significance. In the transportation industry, DWPT can enable seamless charging of electric vehicles on the road, extending their driving range and reducing charging time. In industrial applications, it can power automated equipment continuously, improving production efficiency. By organizing this session, we aim to promote in - depth discussions among researchers and practitioners. The exchange of ideas and experiences will accelerate the development and application of DWPT and advanced control technologies, leading to more efficient, reliable, and sustainable power transfer solutions for various fields.
We invite high-quality research papers and contributions on, but not limited to, the following topics: