Location History:
- Ellicott City, MD (US) (2009 - 2020)
- Ellicot City, MD (US) (2021)
Company Filing History:
Years Active: 2009-2021
Title: The Innovations of Jeffrey Dunn: A Pioneer in Timing Architectures
Introduction
Jeffrey Dunn, an inventor based in Ellicott City, MD, has made significant contributions to the field of synchronized timing systems. With a total of three patents to his name, Dunn has developed innovative technologies that enhance the reliability and robustness of critical infrastructure.
Latest Patents
One of his most recent patents is titled "Robust and Resilient Timing Architecture for Critical Infrastructure." This invention consists of a device that transmits synchronized timing, encompassing a receiver, a transmitter, one or more processors, memory, and multiple programs. The programs are designed to be executed by the processors, and include instructions for receiving timing signals that are synchronized to a time standard. The device determines additional time information based on the synchronized signal, composes a message according to global navigation satellite system (GNSS) standards, and transmits this message through the transmitter via a radio signal within the frequency modulation (FM) band.
Career Highlights
Throughout his career, Jeffrey Dunn has held important positions in esteemed organizations, notably at The Mitre Corporation and Alcatel-Lucent USA Inc. His work in these companies has allowed him to advance his expertise in timing technologies and systems integration, contributing to his inventive successes.
Collaborations
Dunn has collaborated with talented individuals in the field, including Cynthia E. Martin and Sean J. McKenna. These partnerships have facilitated the exchange of ideas and fostered an environment conducive to innovation.
Conclusion
Jeffrey Dunn exemplifies the spirit of innovation, with his patented inventions improving the accuracy and reliability of timing infrastructure. His ongoing contributions to the field serve as a cornerstone for developments in synchronized timing systems, ensuring that critical infrastructure can operate seamlessly in an increasingly interconnected world.