Company Filing History:
Years Active: 2004-2006
Title: The Innovations of Joel Weissberger
Introduction
Joel Weissberger is a notable inventor based in Northridge, CA. He has made significant contributions to the field of data latency through his innovative patents. With a total of 2 patents, Weissberger has developed methods that enhance the efficiency of data transmission over networks.
Latest Patents
Weissberger's latest patents focus on determining round-trip time delay and real-time data latency. The first patent describes a method and apparatus for determining real-time data latency by creating outgoing data packets with timestamps and group identifiers. These packets are transmitted over a network, and incoming packets are analyzed to calculate round-trip time delays. The statistics for these packets are updated based on the calculated delays.
The second patent also addresses real-time data latency, detailing a method that includes validation information in the outgoing data packets. Similar to the first patent, this method involves receiving incoming packets, validating them, and calculating round-trip time delays for valid packets. The statistics are then updated accordingly, showcasing Weissberger's commitment to improving network performance.
Career Highlights
Joel Weissberger is currently associated with Ixia, a company known for its expertise in network testing and visibility solutions. His work at Ixia has allowed him to apply his innovative ideas in a practical setting, contributing to advancements in network technology.
Collaborations
Throughout his career, Weissberger has collaborated with talented individuals such as Manley Klassen and Errol Ginsberg. These collaborations have fostered an environment of innovation and creativity, leading to the development of impactful technologies.
Conclusion
Joel Weissberger's contributions to the field of data latency through his patents demonstrate his expertise and innovative spirit. His work continues to influence the way data is transmitted and analyzed in modern networks.