Company Filing History:
Years Active: 2018
Title: Toshiaki Kawano: Innovator in X-ray Diagnosis Technology
Introduction
Toshiaki Kawano is a prominent inventor based in Otawara, Japan. He has made significant contributions to the field of medical imaging, particularly in X-ray diagnosis technology. With a total of 2 patents to his name, Kawano's work has advanced the capabilities of diagnostic equipment used in healthcare.
Latest Patents
Kawano's latest patents include an innovative X-ray diagnosis apparatus that features processing circuitry designed to select a roadmap image based on pixel values. This apparatus consists of an X-ray tube that generates X-rays and an X-ray detector that captures the X-rays that have passed through a subject. The processing circuitry calculates the average of pixel values for multiple X-ray images acquired chronologically and extracts images with significant differences in pixel values.
Another notable patent is an X-ray image diagnostic apparatus that acquires position information associated with a movable top table. This apparatus includes an X-ray irradiation unit, a detection unit, and a position information acquisition unit that gathers relative position data. The drive control unit operates the X-ray irradiation and detection units based on the displacement of the top table, enhancing the precision of diagnostic imaging.
Career Highlights
Kawano is currently employed at Toshiba Medical Systems Corporation, where he continues to innovate in the field of medical technology. His work has been instrumental in improving the efficiency and accuracy of X-ray diagnostic systems, which are crucial for patient care.
Collaborations
Kawano has collaborated with notable colleagues such as Hisayasu Yumiza and Makoto Takanaka. Their combined expertise has contributed to the development of advanced medical imaging technologies.
Conclusion
Toshiaki Kawano's contributions to X-ray diagnosis technology exemplify the impact of innovation in healthcare. His patents reflect a commitment to enhancing medical imaging, ultimately benefiting patient outcomes.