Company Filing History:
Years Active: 2025
Title: Innovations in Space Debris Detection by Inventor Jianli DU
Introduction
Jianli DU, an esteemed inventor based in Nanjing, China, has made significant contributions to the field of space debris detection. With a focus on innovative techniques and methodologies, DU has developed a groundbreaking patent that enhances the tracking and detection of space debris using full-time domain laser technology.
Latest Patents
DU holds a patent titled "Search and tracking method for full time-domain laser detection of space debris, storage medium, and electronic device." In this inventive approach, a set of the latest precision orbital parameters of debris objects is obtained alongside the start and end moments of a current transit. The method generates search-specific guidance data, which is utilized by a DLR system to perform multi-elevation searches. This process involves detecting the object, gathering detection data, determining an along-track error of its orbital parameters, and correcting these parameters in real-time to optimize subsequent tracking efforts.
Career Highlights
Jianli DU is associated with the Purple Mountain Observatory, which is part of the Chinese Academy of Sciences. Her work focuses on enhancing the capabilities of space observation and detection technologies, thereby contributing to the safety and sustainability of space activities.
Collaborations
Throughout her career, DU has collaborated with talented individuals like Jin Xu and Zhibin CAO, contributing to a collaborative environment that fosters innovation and development in space technology. These partnerships have played a vital role in the success of her inventive endeavors.
Conclusion
Jianli DU stands out as a dedicated inventor, pushing the boundaries of technology in space debris detection. Her innovative methodologies not only address current challenges but also pave the way for future advancements in the field. As the need for effective space debris management grows, inventions like DU's become increasingly vital to maintaining the safety and integrity of space exploration.