Company Filing History:
Years Active: 2024
Title: Innovator Shuping Song: A Pioneer in UAV Positioning Technologies
Introduction
Shuping Song is an innovative inventor based in Shanghai, China, known for her contributions to the field of unmanned aerial vehicle (UAV) technology. With a notable patent to her name, she has made significant strides in improving the positioning methods of UAVs using advanced radar technologies.
Latest Patents
Shuping Song holds a patent for an "Unmanned aerial vehicle positioning method based on millimeter-wave radar." This inventive method encompasses both a calibration stage and a positioning stage. During the calibration stage, ground coordinates of the UAV are acquired, and feature points are extracted from radar point cloud data to obtain the ground coordinates of these features. The positioning stage involves acquiring radar point cloud data of the current frame along with pre-processing, fusing this data with UAV motion data, and extracting characteristic line segments from the radar data. By registering these characteristic segments, the method finds matching feature points and newly added ones, ultimately determining the ground coordinates of both the UAV and the newly added features based on the matched points' coordinates on a map.
Career Highlights
Song is affiliated with Tongji University, where she applies her expertise in radar technology and UAV systems. Her innovative work has not only advanced research in UAV positioning but has also set new benchmarks in the field, showcasing her dedication to pushing the boundaries of technology.
Collaborations
Throughout her career, Shuping Song has collaborated with esteemed colleagues such as Bin He and Yong Wang. These partnerships have fostered a dynamic research environment, allowing for the exchange of ideas and promoting further advancements in UAV technologies.
Conclusion
With a dedicated approach to innovation, Shuping Song stands out as a remarkable inventor in UAV positioning technologies. Her patent on millimeter-wave radar methods is a testament to her ingenuity and contributions to the field. As technologies advance, her work will undoubtedly continue to inspire and pave the way for future developments in UAV systems.