Company Filing History:
Years Active: 2004
Title: The Innovations of Stuart J. Swerdloff
Introduction
Stuart J. Swerdloff is an accomplished inventor based in Mountain View, California. He is known for his significant contributions to the field of imaging technology, particularly through his innovative patent related to the Compton deconvolution camera.
Latest Patents
Swerdloff holds a patent for the Compton Deconvolution Camera (CDC). This advanced camera comprises multiple detection layers, position sensing logic to determine the positions of events in each detection layer, and a coincidence detector to detect pairs of coincident events resulting from Compton scattering. The processing logic in the CDC associates data representing detected events with a distribution of corresponding events in another detection layer. It applies a deconvolution function to localize probable source locations of incident photons, computes probable Compton scattering angles for event pairs, and uses the probable source locations to reconstruct an image. Each detection layer may consist of an array of solid-state ionization detectors or a scintillator paired with an array of solid-state photodetectors. A hybrid detector may include one layer of solid-state ionization detectors and another layer with a scintillator and an array of solid-state or photomultiplier photodetectors.
Career Highlights
Stuart J. Swerdloff has made notable advancements in imaging technology during his career. He is currently associated with Koninklijke Philips Corporation N.V., where he continues to innovate and develop new technologies.
Collaborations
Swerdloff has collaborated with Gregory Sharat Lin, contributing to the advancement of imaging technologies and enhancing the capabilities of the Compton deconvolution camera.
Conclusion
Stuart J. Swerdloff's work in developing the Compton deconvolution camera showcases his innovative spirit and dedication to advancing imaging technology. His contributions have the potential to significantly impact various fields that rely on precise imaging techniques.