Company Filing History:
Years Active: 1990
Title: Norihiro Wakui: Innovator in Color Image Reading Technology
Introduction
Norihiro Wakui, an inventor based in Hachioji, Japan, has made significant contributions to the field of color image reading technology. With a patented invention that enhances the way color images are processed, his work has implications for various applications, particularly in imaging and document handling.
Latest Patents
Wakui holds a patent for a "Color image reader having a lens and prism incorporated into a single unit." This innovative invention improves the efficiency of color image reading by employing a light source that moves relative to a document containing a color original image. The reflected light is captured by a sophisticated setup featuring a lens and a color separator, allowing for the separation of the color original image into multiple color component images. These images are then read and converted into electrical signals by CCDs, ensuring a high level of detail and accuracy in image capture.
Career Highlights
Norihiro Wakui is associated with Konica Corporation, a leading name in imaging technology. His work within the company has been vital in developing advanced imaging solutions that meet the demanding needs of various industries. With one patent to his name, he showcases a commitment to innovation and excellence.
Collaborations
Throughout his career, Wakui has collaborated with talented professionals, including Yoshiyuki Ichihara and Kunio Ito. This collaboration has helped in the refinement and implementation of his innovative concepts, allowing for the successful advancement of imaging technologies.
Conclusion
In summary, Norihiro Wakui has established himself as a notable inventor in the realm of color image reading. His patented technology not only reflects his ingenuity but also signifies the potential for further advancements in imaging solutions. As part of Konica Corporation, Wakui continues to contribute to the evolution of technology that plays an essential role in our increasingly visual world.