Company Filing History:
Years Active: 2024-2025
Title: Saurabh Kumar: Innovator in Network Technology
Introduction
Saurabh Kumar is a notable inventor based in Newark, California. He has made significant contributions to the field of network technology, particularly in the area of Forward Error Correction (FEC) processing. With two patents to his name, Kumar's work is recognized for its innovative approach to enhancing network performance.
Latest Patents
Kumar's latest patents focus on systems and methods for activating FEC processing per application probe class. In one embodiment, a method includes configuring a first application probe class and a second application probe class. The first application probe class may be associated with a first Differentiated Services Code Point (DSCP), while the second application probe class may be associated with a second DSCP. The method also involves determining an adaptive FEC data policy for both application probe classes, calculating a first loss value associated with the first application probe class for a link between a first network node and a second network node, and comparing this loss value to a first loss threshold. Furthermore, the method includes determining whether to activate FEC processing for the first application probe class based on the comparison of the first loss value to the first loss threshold.
Career Highlights
Saurabh Kumar is currently employed at Cisco Technology, Inc., where he continues to develop innovative solutions in network technology. His work has contributed to the advancement of network reliability and efficiency, making him a valuable asset to his team and the industry.
Collaborations
Kumar collaborates with talented professionals such as Vishali Somaskanthan and Satyajit Das. Their combined expertise fosters a creative environment that drives innovation within their projects.
Conclusion
Saurabh Kumar's contributions to network technology through his patents and collaborations highlight his role as a leading inventor in the field. His work continues to influence advancements in network performance and reliability.