Company Filing History:
Years Active: 1991
Title: William E Schaffer, Jr: Innovator in Imaging Device Technology
Introduction
William E Schaffer, Jr. is a notable inventor based in Webster, NY (US). He has made significant contributions to the field of imaging technology, particularly through his innovative methods for correcting distortions in imaging devices. With a focus on enhancing optical performance, Schaffer has developed techniques that are crucial for various applications in imaging.
Latest Patents
Schaffer holds 1 patent for his invention titled "Method for correction of distortions of an imaging device." This patent outlines a method for providing corrections to distortions that may occur in imaging devices. The initial corrections can be achieved using active optics, which apply forces to the imaging device or a compensator device within the same optical path. This innovative approach aims to introduce deformations that counteract the distortions, although it may also lead to secondary aberrations. Schaffer’s method includes steps for identifying, isolating, and removing these undesirable secondary aberrations, as well as computing new applied forces that do not induce them.
Career Highlights
William E Schaffer, Jr. has had a distinguished career, primarily associated with Eastman Kodak Company. His work has focused on advancing imaging technologies, making significant strides in the correction of optical distortions. His expertise in this area has positioned him as a valuable contributor to the field.
Collaborations
Throughout his career, Schaffer has collaborated with notable colleagues, including Donald A Jacques and Donald E Vandenberg. These collaborations have further enriched his work and contributed to advancements in imaging technology.
Conclusion
William E Schaffer, Jr. is a prominent inventor whose work in imaging device technology has made a lasting impact. His innovative methods for correcting distortions demonstrate his commitment to enhancing optical performance. Schaffer’s contributions continue to influence the field of imaging technology.