medical
Wave information systems Laboratory
Wave information systems Laboratory
We are studying methods to obtain information inside our body by using high-frequency sound waves, which cannot be heard by the human ear. At hospital, doctors frequently make a diagnosis by using ultrasonic diagnosis apparatuses. Our main goal is to establish the basis for next-generation diagnosis apparatuses, in addition to ultrasonic microscopes for diagnosing biological tissues with sound waves. Studying this field requires a broad knowledge of software and hardware, but it makes our study all the 欧洲杯足彩app下载_欧洲杯下注平台-【直播*网站】 interesting.
College of Systems Engineering and Science Department of Electronic Information Systems
/ Graduate School of Engineering and Science(Master's Program) Systems Engineering and Science
/ Graduate School of Engineering and Science(Doctor's Program) Functional Control Systems Course
- Faculty Name
- TANAKA, Naohiko
- Keyword
- Medical care,Ultrasonic,Signal processing,Acoustics,Biological information,Electronic circuits
- Laboratory location
- No.5 Building OMIYA Campus 4F 5413-1
This lab is for this SDG activity:
STUDY FIELDS
- Communication engineering
- Electronic engineering
- Medical bioengineering
- Ultrasonic engineering
FOR SOCIETY
Ultrasonic Doppler flowmeters, used at hospitals for observing blood flows, often erroneously detect high-speed blood flows. The broadband Doppler method that our laboratory developed can solve this problem. We are in the midst of our efforts to make it for practical use.
RESEARCH THEMES
- Research on broadband Doppler method for blood flow imaging
- Research on low MI broadband Doppler method
- Research on MTI processing for broadband Doppler method
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