Company Filing History:
Years Active: 2008-2010
Title: Shuyun Wu: Innovator in Thermal Imaging Technology
Introduction
Shuyun Wu is a prominent inventor based in Acton, MA (US). She has made significant contributions to the field of thermal imaging technology, holding a total of 4 patents. Her innovative work focuses on enhancing the capabilities of thermal imaging devices through advanced pixel architecture and methods for wavelength separation.
Latest Patents
One of her latest patents is titled "Pixel architecture for thermal imaging system." This invention includes a substrate and an array of thermally tunable pixel elements designed to generate thermal images. Each pixel element features multiple thermally tunable filter islands, each equipped with a thermally tunable optical filter. These islands are thermally isolated from one another, allowing for improved thermal imaging performance. Another notable patent is "Method of spatially separating wavelengths of multi-wavelength signal using electronically controlled thermal structure." This invention involves a thin-film interference filter structure that responds to incident optical energy in a predetermined wavelength range. The structure includes a thermally tunable layer that adjusts its optical characteristics based on thermal conditions, enabling spatially varying patterns of thermal energy to be processed effectively.
Career Highlights
Shuyun Wu is currently employed at Redshift Systems Corporation, where she continues to develop innovative technologies in thermal imaging. Her work has positioned her as a key figure in the advancement of thermal imaging systems.
Collaborations
Shuyun has collaborated with notable colleagues, including Matthias Wagner and Eugene Y Ma. These partnerships have contributed to her success and the development of cutting-edge technologies in her field.
Conclusion
Shuyun Wu's contributions to thermal imaging technology through her patents and work at Redshift Systems Corporation highlight her role as an influential inventor. Her innovative approaches continue to shape the future of thermal imaging systems.