Location History:
- Ichihara, JP (1998)
- Yokohama, JP (1999 - 2000)
Company Filing History:
Years Active: 1998-2000
Title: Kazuyoshi Tateishi: Innovator in Pattern Recognition Technology
Introduction
Kazuyoshi Tateishi is a notable inventor based in Yokohama, Japan. He has contributed significantly to the field of pattern recognition technology and holds three patents to his name. His work primarily focuses on developing advanced apparatuses that enhance the capabilities of machine vision and robotics.
Latest Patents
Tateishi's recent invention is an apparatus for extracting pattern features, designed to extract configurational features of objects formed by multiple surfaces using a two-dimensional laser pattern. This innovative device enables tracking of changes in shape and facilitates rapid three-dimensional measurements in a compact memory space without the need for parameter adjustment. Key components of this apparatus include a two-dimensional laser pattern generating device, a three-dimensional position calculating device, and a pattern recognition device that coordinates robot movements based on the identified features of surfaces.
Career Highlights
Kazuyoshi Tateishi is currently associated with Nippon Telegraph and Telephone Corporation, where he continues to push the boundaries of technology through innovation. His body of work reflects a strong commitment to advancing automation and enhancing the functionality of robotic systems through smarter pattern recognition methods.
Collaborations
Throughout his career, Tateishi has collaborated with esteemed colleagues such as Tomoichi Takahashi and Akinori Watabe. These partnerships have enriched his research and development efforts, allowing for the sharing of ideas and fostering inventive solutions in the industry.
Conclusion
Kazuyoshi Tateishi stands out as a significant figure in the realm of pattern recognition technology. His inventions not only contribute to advancements in robotics but also demonstrate the potential for continuous innovation within the field. As technology progresses, his work will likely serve as a foundation for future developments in automated systems.