Moshe Benezra

Title: The Innovative Contributions of Moshe Benezra

Introduction

Moshe Benezra is a prominent inventor based in Beijing, China. He has made significant contributions to the field of imaging technology, holding a total of 5 patents. His work focuses on advanced imaging techniques that enhance the way we capture and process visual information.

Latest Patents

Benezra's latest patents include groundbreaking innovations such as "Time Interleaved Exposures and Multiplexed Illumination." This invention allows for the acquisition of scene samples in synchronization with varying conditions like lighting and aperture. The technology enables real-time applications while effectively managing motion blur. It also facilitates effects such as real-time video relighting and scene segmentation, allowing for advanced special effects.

Another notable patent is related to "Multi-Spectral Imaging." This technique employs an active imaging approach that utilizes wide-band illumination to obtain multi-spectral reflectance information. By capturing multiple images under different illumination spectra, Benezra's method computes the reflectance spectral distribution of a scene, enhancing the accuracy of image capture in varying ambient light conditions.

Career Highlights

Moshe Benezra is currently associated with Microsoft Technology Licensing, LLC, where he continues to innovate and develop new technologies. His expertise in imaging has positioned him as a key player in the field, contributing to advancements that have practical applications in various industries.

Collaborations

Benezra has collaborated with notable colleagues such as Chi Cui and Jiaping Wang. Their combined efforts have led to the development of cutting-edge technologies that push the boundaries of imaging science.

Conclusion

Moshe Benezra's contributions to imaging technology through his patents and collaborations highlight his role as an influential inventor. His work not only advances the field but also opens new possibilities for real-time imaging applications.