Company Filing History:
Years Active: 2023
Title: Innovations by Yueyue Su in Unmanned Aerial Vehicle Technology
Introduction
Yueyue Su is an accomplished inventor based in Nanjing, China. He has made significant contributions to the field of unmanned aerial vehicles (UAVs). His innovative work focuses on optimizing task cooperation methods for UAVs, which is crucial for enhancing their operational efficiency.
Latest Patents
Yueyue Su holds a patent for an "Unmanned aerial vehicle (UAV) task cooperation method based on overlapping coalition formation (OCF) game." This patent outlines a method that constructs a sequential OCF game model for multi-task cooperation among UAVs. The method employs a bilateral mutual benefit transfer (BMBT) order to evaluate UAV preferences for coalitional structures. It also optimizes task resource allocation using a preference gravity-guided Tabu Search algorithm, ensuring a stable coalitional structure. Furthermore, it enhances transmission strategies based on current conditions to maximize task execution utility within a UAV network. This innovative approach quantifies resource properties and optimizes task allocation under overlapping coalitional structures.
Career Highlights
Yueyue Su is affiliated with the Nanjing University of Aeronautics and Astronautics. His work at this prestigious institution has allowed him to explore advanced concepts in UAV technology. His research has garnered attention for its practical applications in various fields, including defense and logistics.
Collaborations
Yueyue Su has collaborated with notable colleagues such as Nan Qi and Zanqi Huang. Their joint efforts have contributed to the advancement of UAV technologies and methodologies.
Conclusion
Yueyue Su's innovative contributions to UAV technology demonstrate his expertise and commitment to advancing this field. His patent on task cooperation methods showcases the potential for improved efficiency in UAV operations. His work continues to influence the development of cutting-edge solutions in unmanned aerial systems.