Company Filing History:
Years Active: 2003-2011
Title: The Innovative Contributions of Matthew Phillips
Introduction
Matthew Phillips is a notable inventor based in Mill Creek, WA (US). He has made significant contributions to the field of color representation in digital media. With a total of 2 patents to his name, Phillips has developed innovative processes that enhance the accuracy of color depiction on screens.
Latest Patents
Phillips' latest patents focus on a process and system for defining and visually depicting colors from the components of arbitrary color models. This invention allows for the depiction of a combination of process colors and spot colors on radiant light sources, such as computer monitors. The system introduces a user-definable "meta-ink" color, which is composed of the components of both process and spot colors. Shade values are assigned to these components to create the meta-ink color, which then replaces the document color for visual representation. This advancement provides a more accurate depiction of printed images, enhancing the overall user experience.
Career Highlights
Matthew Phillips has established himself as a key figure in the field of color technology. His work at Quark, Inc. has allowed him to explore and develop innovative solutions that address the challenges of color representation in digital formats. His patents reflect his commitment to improving the accuracy and quality of visual media.
Collaborations
Phillips has collaborated with notable colleagues, including Timothy Earl Gill and Parviz Banki. These partnerships have contributed to the development of his innovative ideas and have helped to advance the field of color technology.
Conclusion
Matthew Phillips is a distinguished inventor whose work has significantly impacted the way colors are represented in digital media. His innovative patents and contributions to Quark, Inc. demonstrate his dedication to enhancing the accuracy of color depiction. His efforts continue to influence the industry and improve user experiences in visual representation.