Company Filing History:
Years Active: 2006
Title: Innovator Kyoo J Lee: Pioneering Optical Network Solutions
Introduction
Kyoo J Lee, an accomplished inventor based in Westford, MA, has made significant contributions to the field of optical networking. His innovative work is encapsulated in a patent that focuses on enhancing the efficiency of path selection and wavelength assignment within optical networks. With a passion for technology and problem-solving, Lee is primed to lead advancements in this ever-evolving industry.
Latest Patents
Kyoo J Lee holds a patent titled "Method and apparatus for path selection and wavelength assignment in an optical network." This invention presents a groundbreaking method for determining the shortest path between a source node and a destination node in an optical network interconnected with optical transmission links. By utilizing a wavelength graph to model the network, comprising electronic nodes and optical channel nodes, the patent simplifies the process of path selection. It notably applies Dijkstra's algorithm to the wavelength graph, thereby enhancing computational efficiency by reducing the number of links involved in the process.
Career Highlights
Kyoo J Lee is currently working with Quantum Bridge Communications, Inc., where he applies his expertise in optical networking. His role involves innovating solutions that improve network performance and accessibility. His dedication to advancing the technology has earned him respect within the field.
Collaborations
Throughout his career, Lee has collaborated with notable colleagues, including Hongbiao Zhang and Frank J Effenberger. Together, they have explored various aspects of optical networking, contributing to collective growth and innovation within their field.
Conclusion
Kyoo J Lee stands out as a pivotal figure in the realm of optical networking. With a strong patent portfolio and a commitment to innovation, he continues to shape the future of networking technologies. His contributions are setting the stage for more efficient and effective optical communication systems, ultimately enhancing connectivity for users worldwide.