Company Filing History:
Years Active: 2025
Title: Chihiro Kishi: Innovator in Biological Information Acquisition
Introduction
Chihiro Kishi is a prominent inventor based in Tokyo, Japan. She has made significant contributions to the field of biological information acquisition. Her innovative work has led to the development of advanced technologies that enhance the understanding of vital signs and personal identification.
Latest Patents
Chihiro Kishi holds a patent for a "Biological information acquisition device and biological information acquisition method." This device includes a detection-value acquisition unit that acquires detection values from a non-contact biometric sensor. It also features a vital measurement unit that measures the vital signs of a target person using the detection value. Additionally, the device has an image-data acquisition unit that captures image data through a camera. The image processing unit performs various processes, including state estimation, attribute estimation, and personal identification. A parameter setting unit is also included to adjust the measurement parameters based on the results of the image processing. Kishi's patent represents a significant advancement in the field, with 1 patent to her name.
Career Highlights
Chihiro Kishi is currently employed at Mitsubishi Electric Corporation, where she continues to innovate and develop new technologies. Her work at the company has positioned her as a leader in her field. Kishi's dedication to research and development has contributed to the advancement of biometric technologies.
Collaborations
Chihiro Kishi has collaborated with notable colleagues, including Hirotaka Sakamoto and Atsushi Matsumoto. These collaborations have fostered a creative environment that encourages innovation and the sharing of ideas.
Conclusion
Chihiro Kishi is a trailblazer in the realm of biological information acquisition. Her innovative patent and contributions to Mitsubishi Electric Corporation highlight her commitment to advancing technology in this critical field. Her work continues to inspire future innovations in biometric systems.