Company Filing History:
Years Active: 2025
Title: Innovations of Qi Hao in Multilayer Satellite Networks
Introduction
Qi Hao is an accomplished inventor based in Xi'an, China. He has made significant contributions to the field of satellite communications, particularly through his innovative patent that enhances service coverage capabilities in multilayer satellite networks. His work is vital for improving connectivity and service delivery in various applications.
Latest Patents
Qi Hao holds a patent titled "Inter-layer link design method of multilayer constellations with enhanced service coverage capability." This patent outlines a method that includes establishing a multilayer satellite network with a spinning time slot, obtaining coordinates for each satellite in a geocentric coordinate system, and creating an adjacency matrix for each constellation. The method also involves establishing a feasible set of inter-layer links between adjacent layers, developing a globally non-uniform service model based on geographical population distribution, and optimizing the inter-layer link set to achieve a target configuration. This innovative approach significantly enhances the service coverage of multilayer satellite networks.
Career Highlights
Qi Hao is affiliated with Xidian University, where he continues to engage in research and development in satellite technology. His academic background and expertise have positioned him as a key figure in advancing satellite communication methodologies. His contributions are recognized within the academic community and beyond.
Collaborations
Qi Hao collaborates with notable colleagues, including Min Sheng and Di Zhou. Their combined efforts contribute to the advancement of research in satellite networks and related technologies.
Conclusion
Qi Hao's innovative work in multilayer satellite networks exemplifies the importance of research and development in enhancing communication technologies. His patent and collaborations reflect a commitment to improving service coverage and connectivity in the modern world.