Personal Information

My research mainly focuses on two areas: the theory and engineering of low-power ultra-wideband (UWB) radar, and the integrated testing technology for electromagnetic equipment performance.          

1. Low-Power Ultra-Wideband (UWB) Radar Theory and Engineering: I have established a solid theoretical foundation and gained extensive engineering experience in the field of low-power UWB radar. The series of civilian low-power UWB radar systems I developed, including radar life locators, through-the-wall radars, ground-penetrating radars (GPR), and miniature synthetic aperture radars (Mini-SAR) have been successfully industrialized. These systems played a critical role in rescue missions during major disasters, such as the Yushu earthquake, Ya'an earthquake, Shenzhen Guangming New District landslide, and Quanzhou building collapse.

2. Integrated Testing Technology for Electromagnetic Equipment Performance: Based on electromagnetic field theories and methodologies, I designed and developed an automated electromagnetic performance testing system integrating both hardware and software, achieving highly efficient and automated measurements. This work has significantly advanced the development of integrated testing technologies for electromagnetic equipment in China.

Research Grants and Outputs (Past 5 Years): As the principal investigator (PI), I have managed 23 national, provincial, and ministerial-level research projects within the past five years, with total funded research grants exceeding 16 million RMB. During this period, I have published over 10 high-level peer-reviewed papers, authored 2 monographs, and holds over 20 authorized patents.