Company Filing History:
Years Active: 2018
Title: Cécile Faure: Innovating Contention Transmission Channels
Introduction
Cécile Faure is an innovative inventor based in Toulouse, France, recognized for his contributions to the field of communication technologies. His work focuses on developing methods to optimize transmission channels in contention-based networks, which is critical for improving data communication efficiency.
Latest Patents
Cécile Faure holds a patent for a "Method for dynamically adapting the capacity of a contention transmission channel." This patent describes a sophisticated method of adapting the capacity of communication channels between terminals and a connection station. The approach involves continuous estimation of probabilities related to data bursts, which allows for adjustments to the channel capacity based on real-time conditions. By utilizing metrics such as the probability of receiving empty bursts or those affected by collisions, the method effectively enhances channel management, ensuring optimal performance.
Career Highlights
As a key player at Thales, a prominent technology company specializing in various high-tech sectors including aerospace and telecommunications, Cécile has made significant strides in network communication efficiency. His patent reflects his expertise and commitment to advancing technological solutions that meet contemporary demands.
Collaborations
During his career, Cécile Faure has collaborated with notable colleagues such as David Niddam and Mathieu Gineste. Together, they have contributed to the development of innovative technologies that push the boundaries of existing communication systems.
Conclusion
Cécile Faure's work exemplifies the spirit of innovation in the field of communication technologies. His patent not only signifies his individual achievements but also highlights the collaborative efforts within Thales to enhance the capabilities of contention transmission channels. As technology continues to evolve, contributions like those of Faure will play a pivotal role in shaping more efficient communication infrastructures.