Company Filing History:
Years Active: 2023-2025
Title: Gidi Lasovski: Innovator in Optoelectronics
Introduction
Gidi Lasovski is a notable inventor based in Ramat Hasharon, Israel. He has made significant contributions to the field of optoelectronics, holding 2 patents that showcase his innovative spirit and technical expertise.
Latest Patents
One of Gidi's latest patents is the MOE-based illumination projector. This optoelectronic apparatus features an array of emitters designed to emit beams of optical radiation. An optical substrate is mounted over the array, and an optical metasurface is positioned on the optical substrate. This metasurface is configured to collimate and split each emitted beam into respective groups of collimated sub-beams, directing them toward a target to create a pattern of spots.
Another significant patent involves systems and methods for performing temperature-dependent reference image correction for light projectors. This embodiment includes techniques for correcting reference images in structured light projectors, which are essential for generating three-dimensional (3D) scene depth maps. The process involves receiving temperature indications related to projector components and determining necessary adjustments to correct reference pattern images based on effective focal length changes caused by temperature variations.
Career Highlights
Gidi Lasovski is currently employed at Apple Inc., where he continues to push the boundaries of technology through his innovative work. His contributions to the field have been recognized and valued within the company.
Collaborations
Gidi has collaborated with talented individuals such as Assaf Avraham and Refael Della Pergola. These partnerships have fostered a creative environment that encourages the development of groundbreaking technologies.
Conclusion
Gidi Lasovski is a prominent figure in the realm of optoelectronics, with a focus on innovative solutions that enhance projector technology. His patents reflect a commitment to advancing the field and improving the accuracy of 3D imaging.