Company Filing History:
Years Active: 2024
Title: The Innovations of Connor Mckenzie Layton Rowe
Introduction
Connor Mckenzie Layton Rowe is an accomplished inventor based in Mont-Saint-Hilaire, Canada. He has made significant contributions to the field of signal processing, particularly through his innovative patent. His work exemplifies the intersection of technology and creativity, showcasing the potential for advancements in this area.
Latest Patents
Connor holds a patent for a "Method and system for generating the spectrogram of a signal." This invention provides a system designed to generate a spectrogram signal that represents the spectrogram of an initial signal. The system includes a temporal phase modulator that receives the initial signal and quadratically modulates its temporal phase. This modulation occurs in a periodic series of consecutive quadratic time lenses, resulting in a temporal phase modulated signal. Additionally, a spectral phase modulator quadratically modulates the spectral phase of the temporal phase modulated signal to produce a signal representative of a series of consecutive spectra. A sensor detects this signal in the temporal domain, outputting a sensed signal that represents the spectrogram of the initial signal. Connor's innovative approach has led to the development of this unique technology.
Career Highlights
Connor is affiliated with the Institut National de la Recherche Scientifique, where he continues to explore advancements in his field. His dedication to research and development has positioned him as a notable figure in the realm of signal processing.
Collaborations
Connor collaborates with Benjamin Crockett, working together to push the boundaries of their research and innovations. Their partnership exemplifies the importance of teamwork in achieving groundbreaking results.
Conclusion
Connor Mckenzie Layton Rowe's contributions to the field of signal processing through his patent demonstrate his innovative spirit and commitment to advancing technology. His work continues to inspire future developments in this area.