Company Filing History:
Years Active: 2002-2007
Title: Thomas Brady: Innovator in Imaging Technology
Introduction
Thomas Brady is a notable inventor based in Methuen, MA (US), recognized for his contributions to imaging technology. He holds a total of 4 patents, showcasing his innovative approach to solving complex problems in image processing.
Latest Patents
One of his latest patents is titled "Method of generating medium resolution proofs from high resolution image data." This method provides a solution for determining an optimal sample dimension when descreening high-resolution image data. It allows for the creation of a lower resolution image color proof without the typical issues associated with oversampling. The method enables the generation of a single set of image data to create either a medium resolution color proof or a high-resolution printed image without the need to RIP the data twice.
Another significant patent is "Flexible networked image processing." This invention describes a networked imaging system that includes first and second communications networks and respective storage devices. The system features first and second image processors that generate image data representing different images. It also includes print drivers that write the image data to storage devices and generate drive instructions for image makers, facilitating efficient image processing.
Career Highlights
Thomas Brady is currently employed at Agfa Corporation, where he continues to innovate in the field of imaging technology. His work has significantly impacted the way images are processed and printed, enhancing efficiency and quality in the industry.
Collaborations
Throughout his career, Thomas has collaborated with talented individuals such as Timothy E. Neale and Dean E. Demers. These collaborations have contributed to the development of advanced imaging solutions.
Conclusion
Thomas Brady's innovative work in imaging technology, particularly through his patents, has made a lasting impact on the industry. His contributions continue to shape the future of image processing and printing.