Nanosheet for detecting deformation and motion of biological tissue (soft materials)
2018-1026-02
- researcher's name
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about researcher FUJIE, Toshinori Guest Researcher (retired)
- affiliation
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- keyword
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background
● Development of motion or deformation detection technology for biological tissue(soft material).
● Marking directly on skin is burdensome for subjects.
● Designated suit is necessary when using motion capture.
● Marking directly on skin is burdensome for subjects.
● Designated suit is necessary when using motion capture.
summary
● Polymer nanosheets for the substrate has high flexibility.
● Dots were marked on nanosheet at regular intervals.
● Motion or deformation were estimated from position information of dots.
● Dots were marked on nanosheet at regular intervals.
● Motion or deformation were estimated from position information of dots.
predominance
● Dot nanosheet is pasted on biological tissue without any glue.
● Polymer nanosheets little interfere the deformation of biological tissues.
● Easy to remove from the skin after and no signs of marking left.
● Polymer nanosheets little interfere the deformation of biological tissues.
● Easy to remove from the skin after and no signs of marking left.
application/development
● Measurement deformation of biological tissue deformation for soft robots etc..
● Motion capture of human body for the application of sports science etc..
● Mapping biological tissue (surgical operation).
● Motion capture of human body for the application of sports science etc..
● Mapping biological tissue (surgical operation).
collaborative researchers
鉄 祐磨 , TAKEOKA, Shinji Professor (Faculty of Science and Engineering School of Advanced Science and Engineering)
same researcher's seeds
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Electronic devices composed of polymer nanosheets -
Ultra-Thin Film Luminescence Sensor
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Flexible antenna coil for biological tissues
posted:
2018/10/30