Company Filing History:
Years Active: 1993
Title: Marion K Vaughn, Jr: A Pioneer in Limited Bandwidth Communications
Introduction
Marion K Vaughn, Jr., an inventive mind from Dallas, TX, is recognized for his significant contribution to the field of communications technology. With a noteworthy patent to his name, Vaughn has demonstrated a strong commitment to innovation. His work has the potential to revolutionize how we utilize limited bandwidth in communication systems.
Latest Patents
Vaughn holds a patent for a “Method and system network for providing an area with limited bandwidth.” This innovative technology presents a unique combination of frequency and time division multiplexed communications, enabling bi-directional burst communications between a vast number of users over a single radio frequency channel. The essence of his invention lies in organizing service areas into cells and clusters, enhancing the efficiency of communication by allowing time slots to be reused across the service area.
Career Highlights
Working at Network Access Corporation, Vaughn has actively participated in advancing communication technologies. His patent demonstrates his ability to tackle challenges associated with bandwidth limitations, showcasing his role as a forward-thinking inventor in the industry.
Collaborations
During his career, Vaughn has collaborated with esteemed colleagues, including Abdolreza S Naeini and Rajendra Patel. These partnerships reflect a team-oriented approach to innovation, examining complex communication environments and developing solutions tailored to the needs of many users.
Conclusion
Marion K Vaughn, Jr. stands out as a notable inventor whose work on limited bandwidth communications has the potential to impact various industries significantly. His innovative methods and collaboration with colleagues highlight the importance of teamwork in pioneering advancements in technology. As he continues his work, the contributions of Vaughn and similar innovators pave the way for future developments in communication systems.