Company Filing History:
Years Active: 2006-2010
Title: Inventor Profile: Laurent Labrunie
Introduction
Laurent Labrunie is an innovative inventor based in Paris, France. With a total of two patents to his name, Labrunie is recognized for his contributions to optical transmission technologies, particularly in the areas of dispersion compensation and safety procedures within optical fiber systems.
Latest Patents
Labrunie's latest patented inventions include a "System and method for automatic tuning of chromatic dispersion compensation for a WDM transmission system using Raman distributed co-pumping" and a "Safety procedure for optical fiber systems and safety interface to carry out such safety procedure." The first invention involves a tunable dispersion compensation module that operates closely to the transmitting end of an optical transmission line, utilizing a Raman pump to control dispersion compensation effectively. The second patent addresses safety protocols in optical fiber systems, which are vital for telecommunications, by automatically shutting off or reducing optical input power when unintended light escape is detected.
Career Highlights
Throughout his career, Laurent Labrunie has held positions at notable companies such as Alcatel and Alcatel Lucent. His experience in these organizations has undoubtedly contributed to his expertise in optical telecommunications and innovation in fiber optics technology.
Collaborations
Labrunie has had the opportunity to collaborate with esteemed colleagues in the field, including Eric Brandon and Philippe Bousselet. These partnerships have enriched his work and allowed for significant advancements in technology related to optical systems.
Conclusion
In summary, Laurent Labrunie is a distinguished inventor who has made impactful contributions to optical transmission technologies through his patents. His work not only enhances the effectiveness of telecommunications systems but also prioritizes safety within these essential infrastructures. As he continues to innovate, Labrunie's work is likely to have lasting effects on the industry.