Company Filing History:
Years Active: 2021-2023
Title: Arnaud Guerin: Innovator in Non-Geostationary Satellite Systems
Introduction
Arnaud Guerin is a prominent inventor based in Toulouse, France. He has made significant contributions to the field of satellite technology, particularly in non-geostationary systems. With a total of 3 patents to his name, Guerin's work focuses on optimizing satellite communication and operational constraints.
Latest Patents
Guerin's latest patents include a method for determining constraints of a non-geostationary system with respect to another non-geostationary system. This innovative method outlines how to determine operational constraints for a first constellation of non-geostationary satellites transmitting towards a terrestrial station, considering a second constellation linked with the station. The method involves calculating triplets of limit values for angles and interference-to-noise ratios to ensure optimal signal distribution.
Another notable patent is a method for determining the maximum transmission power of a non-geostationary satellite. This method includes steps to assess the topocentric angle formed between the satellite and the ground station, allowing for the definition of maximum transmission power based on specific threshold values. This approach aims to minimize deviations in power levels received by the ground station.
Career Highlights
Arnaud Guerin is currently employed at Thales, a leading company in aerospace, defense, and security. His work at Thales has allowed him to apply his innovative ideas in practical applications, contributing to advancements in satellite technology.
Collaborations
Guerin collaborates with notable colleagues, including Jean-Christophe Levy and Alexandre Guerin. Their combined expertise fosters a creative environment that drives innovation in their projects.
Conclusion
Arnaud Guerin's contributions to the field of satellite technology exemplify the importance of innovation in modern communication systems. His patents reflect a deep understanding of the complexities involved in non-geostationary satellite operations.