Location History:
- Tsukuba, JP (2008 - 2011)
- Tochigi, JP (2018)
Company Filing History:
Years Active: 2008-2018
Title: Innovations of Naoyuki Taketomi: Pioneering Optical Measurement Systems
Introduction
Naoyuki Taketomi, an accomplished inventor based in Tsukuba, Japan, has made significant strides in the field of optical measurement systems. With a remarkable portfolio of six patents, Taketomi's innovations have contributed greatly to advancements in measurement technology.
Latest Patents
Among his latest inventions, Taketomi has developed two notable patents. The first, titled "Measurement system using tracking-type laser interferometer and return method of the measurement system," focuses on enhancing the precision of measurement systems that employ tracking-type laser interferometers. This innovative system allows for the maintenance of accurate measurements even in the presence of light irregularities by storing and utilizing position data of displacement bodies and biaxial rotation mechanisms.
The second patent, "Tracking type laser interferometer and method for resetting the same," outlines a method for resetting a tracking-type laser interferometer automatically. This invention simplifies initial adjustments and enhances tracking capabilities when disruptions occur, ensuring seamless operation for users in various settings.
Career Highlights
Taketomi currently lends his expertise to Mitutoyo Corporation, a global leader in precision measuring instruments. His work revolves around improving measurement accuracy and operational efficiency in various industrial applications.
Collaborations
Throughout his career, Taketomi has collaborated with esteemed colleagues, including Makoto Abbe and Shinichi Hara. These partnerships have allowed for a rich exchange of ideas, fostering innovative approaches to optical measurement technologies.
Conclusion
Naoyuki Taketomi stands as an influential figure in the realm of invention and innovation. His continued contributions to the field of measurement technology not only push the boundaries of what is achievable but also pave the way for future developments that enhance precision and reliability in various industries.