Company Filing History:
Years Active: 2018-2025
Title: Innovations of Thomas Pattison in RF Ranging Technologies
Introduction
Thomas Pattison is an accomplished inventor based in Kamuela, HI (US), known for his significant contributions to radio frequency (RF) ranging technologies. With a total of 8 patents to his name, Pattison has developed innovative solutions that address challenges in RF-opaque environments, such as jungles, where traditional GPS and laser systems are ineffective.
Latest Patents
Pattison's latest patents include groundbreaking technologies that enhance ranging capabilities in RF-limited environments. One notable patent focuses on utilizing aerial vehicles to provide ranging capabilities in RF-opaque environments. This invention employs transponders and GPS receivers on aerial vehicles that operate above the RF-opaque environment. The aerial vehicles communicate with a ranging device within the RF-opaque environment, allowing for accurate distance calculations to property lines and coordinate locations. Another significant patent involves dual frequency ranging with calculated integer wavelength delays, which determines distances to property lines using transponders located on the property line itself. This innovative approach utilizes RF signals transmitted and received at different frequencies to calculate distances accurately.
Career Highlights
Throughout his career, Pattison has worked with notable companies such as Rtr Technologies, Inc. and Aerial Surveying, Inc. His experience in these organizations has contributed to his expertise in RF technologies and ranging systems.
Collaborations
Pattison has collaborated with various professionals in the field, including his coworker David Farrell, to further advance his innovative projects and patents.
Conclusion
Thomas Pattison's work in RF ranging technologies showcases his dedication to solving complex problems in challenging environments. His patents reflect a commitment to innovation and the advancement of technology in the field of radio frequency applications.