Company Filing History:
Years Active: 2014
Title: **The Innovative Mind of Dexter Grant Travis**
Introduction
Dexter Grant Travis, located in Kyle, TX, has made notable contributions to the field of sensor networks. With a single patent to his name, he showcases the innovative spirit that drives advancements in technology. His work not only reflects his technical acumen but also highlights the importance of collaboration in the realm of inventions.
Latest Patents
Travis holds a patent for a "System and method for multiple access sensor networks." This innovative method allows a radio receiver to effectively distinguish between different sensor probes supplying data over an extended period. Each probe generates a random number to identify itself to the receiver. Furthermore, both the probes and the receiver utilize a pseudo-random process to determine transmission times, ensuring clarity in communication even amidst potential oscillator drift. In the event of a transmission collision, the receiver is designed to ignore all colliding probes, patiently waiting for the pseudo-random process to reestablish clear transmission channels.
Career Highlights
Dexter Grant Travis is currently employed at Robert Bosch GmbH, a prominent company known for its expertise in technology and engineering. His role there demonstrates his commitment to advancing innovations in sensor networks and contributing to the broader field of engineering solutions.
Collaborations
Throughout his career, Travis has had the pleasure of working alongside talented colleagues, including Scott William Jacobs and Karl W. Kleimenhagen. Their collaborations likely foster an environment of creativity and innovation, encouraging the development of cutting-edge technologies.
Conclusion
Dexter Grant Travis exemplifies the spirit of innovation in the technology sector. His contributions to sensor networks through his patent are a testament to his vision and dedication to improving communication technologies. With continued collaboration and innovation, the future holds great promise for advancements in this critical field.