Company Filing History:
Years Active: 2019
Title: Richard William Guthrie: Innovator in Threat Detection Technology
Introduction
Richard William Guthrie is an accomplished inventor based in Orlando, Florida. He has made significant contributions to the field of threat detection technology, particularly through his innovative patent. His work focuses on identifying reflective surfaces that may pose optical threats, showcasing his expertise in laser systems and polarization.
Latest Patents
Guthrie holds a patent titled "Identification of a reflective surface as being associated with a threat optic." This patent discloses a method for detecting reflective surfaces associated with optical threats. The process involves emitting a first laser signal from a laser system at a specific wavelength and circular polarization orientation. The system detects the reflection of this signal from a reflective surface, which has a different return circular polarization orientation. By quantifying the return signal based on the amount of circular polarization, it can be determined whether the reflective surface is associated with a threat optic.
Career Highlights
Richard William Guthrie is currently employed at Lockheed Martin Corporation, a leading aerospace and defense company. His role involves applying his innovative ideas to enhance security technologies. His work has contributed to advancements in threat detection systems, making them more effective and reliable.
Collaborations
Guthrie has collaborated with notable colleagues, including David R. Twede and Suresh Subramanian. These collaborations have fostered a creative environment that encourages the development of cutting-edge technologies in the field of threat detection.
Conclusion
Richard William Guthrie is a prominent inventor whose work in threat detection technology has made a significant impact. His innovative patent and contributions at Lockheed Martin Corporation highlight his expertise and dedication to enhancing security measures. His ongoing efforts continue to shape the future of optical threat identification.