Company Filing History:
Years Active: 2015
Title: The Innovations of Michael Smith
Introduction
Michael Smith is an accomplished inventor based in Port Moody, Canada. He has made significant contributions to the field of telecommunications, particularly in the area of optical transport networks. His innovative work has led to the development of a patent that addresses the challenges of transporting constant bit rate clients across packet interfaces.
Latest Patents
Michael Smith holds a patent titled "Method and system for transporting constant bit rate clients across a packet interface." This patent describes a method and apparatus for signaling the phase and frequency of Optical Transport Network (OTN) and Constant Bit Rate (CBR) clients in an OTN network. The principles discussed in this patent are applicable when multiple stages of OTN multiplexing and demultiplexing are utilized. Additionally, they are relevant for use with the Generic Mapping Procedure (GMP) and Asynchronous Mapping Procedure (AMP). The patent also outlines a method to use the phase and frequency of an ODUk/ODUflex to adjust a local reference clock, enabling the recovery of the phase and frequency of a CBR client demapped from the ODUk/ODUflex. Michael Smith has 1 patent to his name.
Career Highlights
Michael Smith is currently employed at PMC-Sierra US, Inc., where he continues to innovate and contribute to advancements in telecommunications technology. His work has been instrumental in enhancing the efficiency and reliability of data transport systems.
Collaborations
Michael has collaborated with notable colleagues, including Winston Ki-Cheong Mok and Karl Scheffer. Their combined expertise has fostered a productive environment for innovation and development within their field.
Conclusion
Michael Smith's contributions to the field of telecommunications through his patent and work at PMC-Sierra US, Inc. highlight his role as a significant inventor. His innovative methods for transporting constant bit rate clients are paving the way for advancements in optical transport networks.