Company Filing History:
Years Active: 2025
Title: Innovations by Konstantinos Tokas in Optical Networks
Introduction
Konstantinos Tokas is an accomplished inventor based in Athens, Greece. He has made significant contributions to the field of optical networks, particularly in identifying fiber link failures. His innovative approach has the potential to enhance network reliability and efficiency.
Latest Patents
Tokas holds a patent for "Systems and methods for identifying fiber link failures in an optical network." This invention describes systems, computer program products, and methods for network discovery, port identification, and identifying fiber link failures. The invention is designed to sequentially connect each port of an optical switch to a network port of a server. It generates a network map based on information associated with network devices connected to the ports. This map identifies which network devices are connected to which ports of the optical switch, allowing for dynamic port mapping during network installation, upgrades, and repairs. Additionally, the invention can determine where a fiber link failure has occurred and reconfigure the optical switch to facilitate communication with an optical time-domain reflectometer for testing the fiber link.
Career Highlights
Konstantinos Tokas is currently employed at Mellanox Technologies, Ltd., where he continues to develop innovative solutions in the field of optical networking. His work focuses on enhancing the performance and reliability of optical networks, which are critical for modern communication systems.
Collaborations
Tokas has collaborated with notable colleagues, including Paraskevas Bakopoulos and Ioannis (Giannis) Patronas. These collaborations have contributed to the advancement of technologies in optical networking.
Conclusion
Konstantinos Tokas is a prominent inventor whose work in optical networks has led to significant advancements in identifying fiber link failures. His contributions are vital for improving network reliability and efficiency in modern communication systems.