Company Filing History:
Years Active: 1977
Title: William Landesberg - Innovator in Switch Matrix Control
Introduction
William Landesberg, an innovative inventor based in Norwalk, CT, has made significant strides in the field of data processing systems. With one patent to his name, Landesberg has contributed to the efficient control and display of multiple devices through sophisticated switch matrix technology.
Latest Patents
Landesberg’s notable patent, titled "Switch matrix control and display," focuses on a complex system where various data systems are interconnected through a matrix of switches. This innovative design effectively allows the coordination of multiple peripheral devices with a central processing unit (CPU), enhancing functionality across various applications. The invention features a panel with indicator elements arranged in a matrix format, providing a clear visual representation of device connections. Manual switch elements activate specific devices, while the gating mechanism ensures seamless operation through simultaneous signals.
Career Highlights
As part of T-Bar Incorporated, Landesberg has been involved in developing cutting-edge technologies that integrate seamlessly in modern data systems. His work emphasizes the importance of intuitive design and efficient operation within technical environments, and it reflects his dedication to pushing the boundaries of innovation.
Collaborations
Throughout his career, Landesberg has collaborated with esteemed colleagues, including Lewis J. Seiden and Gladstone F. Young. Together, they have contributed to advancements in data communication and processing, illustrating the spirit of teamwork and creativity that drives innovation forward.
Conclusion
William Landesberg’s contributions to the field of switch matrix control highlight his role as a vital inventor in the technology landscape. His patented innovations lay the groundwork for advanced data processing systems, representing ongoing efforts to enhance device functionality and user interaction in complex networks.