Company Filing History:
Years Active: 2013-2025
Title: Innovations by Tsuyoshi Sempuku: Pioneering Tactile Presentation Technology
Introduction
Tsuyoshi Sempuku is a distinguished inventor based in Tokyo, Japan, known for his contributions to tactile presentation technologies. With 25 patents to his name, his innovations reflect a deep understanding of user experience and intuitive operation interfaces.
Latest Patents
Sempuku's latest patents include a series of groundbreaking inventions: the tactile presentation control apparatus, tactile presentation panel, tactile presentation touch panel, and tactile presentation touch display. These devices aim to provide users with an enhanced operational feeling of dial knobs, promoting an intuitive experience through tactile feedback. The tactile presentation control apparatus features a tactile presentation knob allowing users to feel a frictional force during operation, thereby creating a user-friendly interface.
Career Highlights
As a key member of Mitsubishi Electric Corporation, Tsuyoshi Sempuku has played a vital role in advancing technologies that blend both functionality and user engagement. His portfolio reflects a commitment to enhancing human-computer interaction through innovative design and engineering.
Collaborations
Throughout his career, Sempuku has collaborated with talented individuals such as Akiko Imaishi and Shinsaku Fukutaka, leveraging their diverse skills and expertise to further develop his inventions and ideas. Together, they work on integrating advanced technology into everyday devices, aiming to revolutionize the way users interact with their surroundings.
Conclusion
With a focus on tactile presentation technologies, Tsuyoshi Sempuku continues to push the boundaries of innovation at Mitsubishi Electric Corporation. His work not only emphasizes the importance of user experience but also marks a significant advancement in the field of human-computer interaction. His contributions pave the way for future developments in intuitive technology, showcasing the potential of tactile feedback systems.