Company Filing History:
7 out of 3,032 
1 out of 164,197 
Years Active: 1983-2011
Title: The Innovations of Robert L. Paterson
Introduction
Robert L. Paterson is a notable inventor based in Nicholasville, KY (US). He has made significant contributions to the field of measurement technology, particularly in the area of doctor blade geometric deviations. With a total of 8 patents to his name, Paterson's work has had a considerable impact on manufacturing processes.
Latest Patents
Among his latest patents is a "Method for measuring doctor blade geometric deviations." This innovative method involves using an apparatus to measure geometric deviations of a doctor blade. The process includes initializing the apparatus, mounting the doctor blade to a holding device, illuminating it with light, and capturing image signals to generate geometry values. This allows for the determination of whether the geometric deviations are within acceptable tolerances.
Another significant patent is the "Apparatus for measuring doctor blade geometric deviations." This apparatus features a camera that defines an optical axis and utilizes multiple light sources to accurately measure the geometric deviations of a doctor blade. The design ensures that the portion of the blade being measured is positioned precisely at the intersection point of the optical axis.
Career Highlights
Throughout his career, Robert L. Paterson has worked with prominent companies such as Lexmark International, Inc. and IBM. His experience in these organizations has contributed to his expertise in the field of measurement technology and innovation.
Collaborations
Paterson has collaborated with notable individuals in his field, including Roger Steven Cannon and Christopher Gregory Chee. These collaborations have likely enriched his work and led to further advancements in his inventions.
Conclusion
Robert L. Paterson's contributions to the field of measurement technology are noteworthy. His innovative patents and career achievements reflect his dedication to advancing the industry. His work continues to influence the way geometric deviations are measured in manufacturing processes.