Company Filing History:
Years Active: 2001
Title: The Innovations of Margaret Reed Ennis
Introduction
Margaret Reed Ennis is a notable inventor based in Fountain Hills, AZ (US). She has made significant contributions to the field of communication technology. Her innovative work has led to the development of a patent that addresses critical issues in network communication.
Latest Patents
Margaret Reed Ennis holds a patent for a "Distributed packet communication network." This invention presents a multiple access and data channel scheme designed to reduce network communication collisions and enhance resistance to jamming signals in a distributed network. The patent aims to increase network connectivity and communication throughput. The system utilizes an order wire channel to gain access to a data channel. A source radio sends a transmit probe (TXP) over the order wire channel to the target radio. The target radio then senses its environment and responds with a receive probe (RXP), which includes essential data channel transmission parameters such as frequency, transmit power, spread code, and transit timing. The source radio then uses these parameters to communicate effectively with the target radio. In the event of a collision on the order wire channel, the source radio retransmits the transmit probe after a random time period.
Career Highlights
Margaret has had a distinguished career, working with Motorola Corporation, a leading company in communication technology. Her work has been instrumental in advancing the capabilities of distributed networks.
Collaborations
Throughout her career, Margaret has collaborated with talented individuals such as Jeffery Scott Chuprun and David Michael Harrison. These collaborations have contributed to her success and the development of innovative solutions in her field.
Conclusion
Margaret Reed Ennis is a pioneering inventor whose work in communication technology has made a lasting impact. Her patent for a distributed packet communication network exemplifies her commitment to enhancing network connectivity and efficiency.