Company Filing History:
Years Active: 2003
Title: The Innovations of Charles P. DePlachett
Introduction
Charles P. DePlachett is an accomplished inventor based in Madison, AL (US). He holds a patent for a groundbreaking invention that enhances the capabilities of fiber optic technology. His work has significantly contributed to the field of optical imaging and data transmission.
Latest Patents
Charles P. DePlachett is the inventor of the patent titled "Robust incoherent fiber optic bundle decoder." This invention provides an apparatus and method for calibrating an incoherent fiber optic bundle for use in transmitting visual or infrared coherent images. The apparatus includes a computer, a computer video monitor, an objective lens adjacent to the input end of the bundle, a second lens adjacent to the output end of the bundle, and a CCD camera. The camera transmits video data to the monitor to produce an illuminated fiber optic image. The coordinates for the center of each fiber are found through an imaging process, and the output fibers' coordinates are related to the input fiber coordinates. This data is processed in the computer to produce a mapping lookup-table (LUT) unique to the specific fiber bundle. Additionally, remapping of the LUT due to changes in lens focus, CCD camera, or the addition of an infrared filter is accomplished by a software utility in the computer.
Career Highlights
Charles is currently employed at SRS Technologies, Inc., where he continues to innovate and develop advanced optical technologies. His work has been instrumental in improving the efficiency and effectiveness of fiber optic systems.
Collaborations
Some of his notable coworkers include Hilary E. Roberts and Brent E. Deason, who have collaborated with him on various projects within the company.
Conclusion
Charles P. DePlachett's contributions to the field of fiber optics exemplify the spirit of innovation and technological advancement. His patented invention not only showcases his expertise but also paves the way for future developments in optical imaging.