Company Filing History:
Years Active: 1978
Title: **Innovator Arthur D. Hause: Pioneering Multiprocessor Control Systems**
Introduction
Arthur D. Hause, an influential inventor based in Watchung, NJ, is recognized for his innovative contributions to control systems within telecommunications. With a singular patent to his name, he has made significant strides in the domain of multiprocessor control in switching networks.
Latest Patents
Hause's notable patent, titled "Multiprocessor control of a partitioned switching network," introduces a groundbreaking approach for managing a time division multiplex switching network. This invention enables the central stage of the network to be partitioned into blocks, each controlled by a dedicated processor. The innovative architecture extends control to adjacent equipment and parts of the network, enhancing overall communication efficiency. By separating translating, scanning, and service functions into specialized processors, the system promotes improved performance and reliability.
Career Highlights
Arthur D. Hause has spent a significant portion of his career at Bell Telephone Laboratories, where he has engaged in cutting-edge research and development. His contributions have helped define modern switching technologies, particularly in multiprocessor control systems. This role at one of the leading laboratories in telecommunications has allowed him to collaborate on various pioneering projects within the industry.
Collaborations
Throughout his career, Hause has worked alongside esteemed colleagues, including Carl Christensen and Henry S. McDonald. These collaborations have not only enriched his work but have also driven advancements in the field, reflecting the collective efforts of innovative minds in technology.
Conclusion
Arthur D. Hause has left a significant mark on the telecommunications sector through his inventive efforts and teamwork at Bell Telephone Laboratories. His pioneering patent stands as a testimony to the advancements made in the control of partitioned switching networks, showcasing the profound impact of his work on modern communication systems.