Location History:
- Shijounawate, JP (1998)
- Shijonawate, JP (2001 - 2008)
Company Filing History:
5 out of 27,375 
1 out of 115 Years Active: 1998-2008
Title: Kiyoko Oshima: Innovator in Optical Measurement Technologies
Introduction
Kiyoko Oshima is a prominent inventor based in Shijonawate, Japan. She has made significant contributions to the field of optical measurement technologies, particularly in the noninvasive measurement of biological information. With a total of 6 patents to her name, Oshima's work has the potential to revolutionize how we understand and measure biological components in living organisms.
Latest Patents
Oshima's latest patents include an "Optical element for measuring information of living body" and a "Device for measuring information of living body using the optical element." These inventions provide innovative solutions for noninvasively measuring body fluid components with high accuracy and stability. The optical element features a light incident surface, a contact surface with a groove for better interaction with the living body, and a light emission surface. This design allows for effective light application and detection, enhancing the precision of biological measurements. Additionally, her "Method and device for measuring biological information" focuses on determining stable measuring regions for accurate biological information assessment, utilizing advanced light detection techniques.
Career Highlights
Throughout her career, Kiyoko Oshima has worked with notable companies, including Matsushita Electric Industrial Co., Ltd. and Matsushita Electrical Industrial Co., Ltd. Her experience in these organizations has contributed to her expertise in optical technologies and biological measurements.
Collaborations
Oshima has collaborated with esteemed colleagues such as Shinji Uchida and Masahiko Shioi. These partnerships have fostered innovation and development in her field, leading to groundbreaking advancements in optical measurement technologies.
Conclusion
Kiyoko Oshima's contributions to the field of optical measurement are noteworthy and impactful. Her inventions not only enhance our understanding of biological information but also pave the way for future innovations in noninvasive measurement techniques.