Company Filing History:
Years Active: 2025
Title: Zhenmei Wan: Innovator in Sensor Calibration Technology
Introduction
Zhenmei Wan is a notable inventor based in Shenzhen, China. He has made significant contributions to the field of sensor calibration, particularly through his innovative methods that enhance the efficiency of roadside sensing systems. His work is characterized by a focus on integrating radar and camera technologies to improve calibration processes.
Latest Patents
Zhenmei Wan holds a patent for a "Sensor calibration method and apparatus." This patent describes a method where location information of a target detected by a radar is matched against map information to determine a calibration value of the radar. Subsequently, the location information of a pixel of a target corresponding to the camera in a global coordinate system is determined based on calibrated radar measurement data. This innovative approach eliminates the need for manual field calibration in roadside sensing systems that utilize a single radar and a single camera.
Career Highlights
Zhenmei Wan is currently employed at Shenzhen Yinwang Intelligent Technologies Co., Ltd. His role at the company allows him to apply his expertise in sensor calibration and contribute to the development of advanced sensing technologies. His work has positioned him as a key figure in the field, particularly in the context of intelligent transportation systems.
Collaborations
Zhenmei Wan collaborates with talented individuals such as Bin Hu and Jing Yang, who contribute to the innovative environment at Shenzhen Yinwang Intelligent Technologies Co., Ltd. Their combined efforts foster a culture of creativity and technological advancement within the company.
Conclusion
Zhenmei Wan's contributions to sensor calibration technology exemplify the impact of innovative thinking in enhancing the functionality of sensing systems. His patent and work at Shenzhen Yinwang Intelligent Technologies Co., Ltd. highlight the importance of integrating advanced technologies for improved efficiency.