Company Filing History:
Years Active: 2009-2013
Title: **The Innovative Mind of Tsutomu Takata**
Introduction
Tsutomu Takata, a prominent inventor from Yokohama, Japan, has made significant contributions to the field of imaging technology. With a portfolio of five patents, his work has notably impacted the way color images are formed and processed.
Latest Patents
Among his latest inventions is a groundbreaking patent for an image forming apparatus and its control method for correction amounts based on selected rotational speeds. This innovative technology focuses on color shifting correction, addressing the shifting amounts with respect to the scanning direction on image carriers. The design includes mechanisms that suppress the generation of moiré while forming high-quality images. The apparatus employs color shifting amount storage units for cyan, magenta, yellow, and black, which are essential for accurate color reproduction. It features color shifting correction amount arithmetic units, color shifting correction units, and halftone processors, all working in harmony to enhance image quality.
Career Highlights
Tsutomu Takata has dedicated his career to Canon Inc., a prominent multinational company renowned for its imaging and optical products. His innovative efforts and deep understanding of imaging technology have significantly advanced the company's offerings in color printing and imaging solutions.
Collaborations
Throughout his professional journey, Takata has collaborated with notable colleagues such as Hiroki Kitamura and Yoshiyuki Akiba. Their joint efforts have fostered an environment of innovation, allowing them to tackle complex challenges and improve imaging technology.
Conclusion
In conclusion, Tsutomu Takata's contributions to imaging technology have solidified his reputation as an influential inventor. His latest patents not only showcase his expertise but also demonstrate his commitment to enhancing image quality and processing in the industry. As technology continues to evolve, Takata's innovations will likely remain at the forefront, shaping the future of image formation.