Company Filing History:
Years Active: 2006
Title: Innovations by Mitchell L Watson
Introduction
Mitchell L Watson is an accomplished inventor based in Clackamas, Oregon. He has made significant contributions to the field of positioning systems, holding a total of 2 patents. His work focuses on enhancing the accuracy and efficiency of local area positioning technologies.
Latest Patents
One of his latest patents is a Local Area Positioning System. This innovative system includes a command signal generator, a subject module, a plurality of sensor modules, and counters. A comparator is utilized to compare the increments and generate counter differential values. A correlator then uses these values to determine the subject's location within a defined space. The method for locating a subject involves transmitting signals to both the subject unit and slave units within a three-dimensional space, allowing for precise location determination.
Another notable patent is the Local Area Positioning System Slave Receiver. This receiver operates in the 900 MHz to 1.6 GHz frequency range and is designed for high sensitivity and low noise. It is capable of detecting and switching high-speed short-duration pulses, which are essential for controlling a highly stable 1.0 GHz start/stop event counter. The combination of this receiver and counter allows for measuring RF propagation distances with an impressive accuracy of 12 inches.
Career Highlights
Mitchell L Watson is currently employed at WCR Company, where he continues to develop innovative technologies in positioning systems. His expertise and dedication to his work have made him a valuable asset to the company.
Collaborations
Mitchell collaborates with Victor B Numbers, a fellow innovator, to further enhance their projects and share insights in their field.
Conclusion
Mitchell L Watson's contributions to the field of positioning systems demonstrate his commitment to innovation and technology. His patents reflect a deep understanding of complex systems and a drive to improve accuracy in location determination.