Company Filing History:
Years Active: 2024-2025
Title: **Innovator Spotlight: Wan-Chun Ma**
Introduction
Wan-Chun Ma, based in Culver City, California, is an innovative inventor known for his advancements in high-dynamic range (HDR) lighting technology. With a keen eye for detail and a strong background in computer science, Ma has contributed significantly to the field of image processing.
Latest Patents
Ma holds a patent for a pioneering invention titled “Deep Light Design.” This technology provides a method, apparatus, and computer-readable storage medium to predict HDR lighting from low-dynamic range (LDR) background images. The patent outlines a process that involves receiving LDR background images, which include scenes captured with various reference objects exhibiting different reflectance properties. It also details the training of a lighting estimation model based on these images, allowing for the prediction of HDR lighting. Furthermore, the technology enables the capturing of LDR background images from LDR videos and utilizes a trained model to render virtual objects based on the predicted HDR lighting.
Career Highlights
Wan-Chun Ma currently works at Google Inc., where he leverages his expertise to push the boundaries of visual technology. His work focuses on integrating innovative lighting techniques into various applications, enhancing user experiences across digital platforms.
Collaborations
While at Google, Ma collaborates with talented individuals such as Chloe LeGendre and Graham Fyffe. These partnerships foster creativity and drive advancements in the projects they undertake together, contributing to the dynamic environment of innovation at Google.
Conclusion
Wan-Chun Ma exemplifies the spirit of innovation through his work in HDR lighting technology. His contributions not only reflect a commitment to enhancing image processing techniques but also underscore the importance of collaboration in achieving groundbreaking results in the tech industry. As advancements in visual technology continue, Ma's efforts will undoubtedly play a crucial role in shaping the future of digital imaging.