Location History:
- Peabody, MA (US) (2016)
- Wenham, MA (US) (2018)
- Hamilton, MA (US) (2012 - 2019)
Company Filing History:
Years Active: 2012-2019
Title: Innovations by Charles H. Shaughnessy
Introduction
Charles H. Shaughnessy is a notable inventor based in Hamilton, MA (US). He has made significant contributions to the field of radiation systems, holding a total of 11 patents. His work focuses on improving calibration and noise reduction techniques in radiation imaging.
Latest Patents
One of his latest patents is titled "Gain calibration and correction in radiation system." This invention provides techniques and systems for calibrating a radiation system to compute gain corrections. The calibration procedure involves shadowing a portion of the detector array, which leads to non-uniform exposure to radiation. By separating portions of the projection indicative of radiation that did and did not traverse an object, gain corrections can be computed effectively.
Another significant patent is "Noise reduction in radiation image." This invention describes techniques for processing images obtained from radiation examinations to reduce visible noise. After reconstructing an image, the noise contribution is estimated to determine a target noise level. The image is then filtered using various techniques to generate a filtered image, which is combined with the reconstructed image to create a blended image when the noise contribution meets the target.
Career Highlights
Charles H. Shaughnessy is currently employed at Analogic Corporation, where he continues to innovate in the field of radiation technology. His work has had a profound impact on the accuracy and quality of radiation imaging.
Collaborations
Throughout his career, he has collaborated with notable colleagues such as John P. O'Connor and David Rozas. These collaborations have contributed to the advancement of technology in their respective fields.
Conclusion
Charles H. Shaughnessy is a distinguished inventor whose work in radiation systems has led to significant advancements in calibration and noise reduction techniques. His contributions continue to influence the field and improve imaging technologies.