Company Filing History:
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Years Active: 2016-2020
Title: Misato Abe: Innovator in Retinal Display Technology
Introduction
Misato Abe is a prominent inventor based in Tokyo, Japan. She has made significant contributions to the field of display technology, particularly in retinal scanning devices. With a total of 3 patents to her name, her work focuses on enhancing visual experiences through innovative solutions.
Latest Patents
One of her latest patents is a retinal scan display device designed for correcting distortion and inverting images. This device includes a projection optical system that projects images onto the retina of the eye. It features a distortion correcting unit that rectifies image distortions and an image inverting unit that inverts the image. Additionally, it has a storage unit that retains correction data for both the left and right eyes. The device intelligently switches between correction data based on a signal indicating which eye is being projected upon.
Another notable patent is a display apparatus that utilizes a low output laser with an operational current lower than that of standard output lasers. This apparatus includes a shunting element connected in parallel with the low output laser and a drive circuit that supplies current to both components. The drive circuit is capable of adjusting the current value on a discrete basis, ensuring optimal performance.
Career Highlights
Misato Abe has worked with several reputable companies, including Mitsumi Electric Company Ltd. and QD Laser, Inc. Her experience in these organizations has allowed her to refine her skills and contribute to groundbreaking technologies in the field of display systems.
Collaborations
Throughout her career, Misato has collaborated with notable colleagues such as Kimiyuki Ohba and Mitsuru Sugawara. These partnerships have fostered innovation and creativity in her projects.
Conclusion
Misato Abe is a trailblazer in retinal display technology, with a focus on improving visual experiences through her innovative patents. Her contributions to the field continue to influence advancements in display systems.