Company Filing History:
Years Active: 1982
Title: Innovations in Communication: The Work of Kenneth T. Coit
Introduction
Kenneth T. Coit, an inventor based in Milford, NH, is recognized for his contributions to communication technologies. With a focus on enhancing the efficiency of communication lines, Coit has developed a unique patented technique that addresses the complexities of managing multiple information transfer channels.
Latest Patents
Kenneth T. Coit holds one patent titled "Communication line service interrupt technique for a communications." This innovation features a programmable communications processor that executes instructions aimed at facilitating the transfer of information between several communication channels and the system’s main memory. A standout element of this invention is a software-implemented pause counter that manages the execution of service requests based on their priority. This ensures that higher priority requests are processed promptly, thereby increasing the overall effective throughput rate of communication systems.
Career Highlights
Coit’s professional journey includes his role at Honeywell Information Systems Inc., a prominent company in the field of information technology and services. His work revolves around advancing communication technologies and enhancing the performance of systems that manage data transfer.
Collaborations
Throughout his career, Kenneth T. Coit has collaborated with notable coworkers such as Robert J. Farrell and John H. Vernon. These collaborations have helped foster an environment of innovation and progress within their projects, contributing to the development of cutting-edge solutions in communication.
Conclusion
Kenneth T. Coit represents the spirit of innovation through his patented techniques in the communication sector. His dedication to improving system efficiency not only enhances the capabilities of communication technologies but also serves as an inspiration for future inventors in the industry. As technology continues to evolve, contributions like his remain integral to shaping the future of communication systems.