Company Filing History:
Years Active: 1980-1987
Title: Michael R Gambini: Innovator in Scintillation Camera Technology
Introduction
Michael R Gambini is a notable inventor based in Wallingford, CT (US). He has made significant contributions to the field of imaging technology, particularly in the development of scintillation cameras. With a total of 2 patents, Gambini's work focuses on enhancing the accuracy and uniformity of radiation detection systems.
Latest Patents
One of Gambini's latest patents is titled "Emissive Computed Tomography - Scintillation Camera Uniformity Correction." This invention presents a two-stage system designed to improve the imaging uniformity of scintillation cameras. The system includes mechanisms for detecting radiation events and generating radiation count signals that indicate the location and energy level of individual detected events. The uniformity correction system addresses inaccuracies in the camera's indication of both regional image count density and event energy levels. The first stage of the system corrects energy indication errors, while the second stage focuses on correcting residual nonuniformity in regional image count density. Both stages operate in real-time for each radiation count, ensuring precise imaging.
Career Highlights
Throughout his career, Michael R Gambini has worked with prominent companies in the imaging technology sector, including Picker Corporation and Picker International, Inc. His experience in these organizations has contributed to his expertise in developing advanced imaging solutions.
Collaborations
Gambini has collaborated with notable professionals in his field, including Gary Benenson and Ronald J Martone. These partnerships have likely enriched his work and led to innovative advancements in scintillation camera technology.
Conclusion
Michael R Gambini's contributions to the field of imaging technology, particularly through his patents and collaborations, highlight his role as an influential inventor. His work continues to impact the accuracy and effectiveness of radiation detection systems.