In this paper, the internal human body impedance in the low frequency was measured in order to
obtain data of the current human body impedance. Further we performed three considerations shown
below. Relationships between human body impedance and Body Mass Index (BMI), comparisons of
distribution of human body impedance along the current path and numerical analysis result, and
change of human body impedance by the posture of the arm. Result, the human body impedance is
proportional to BMI conversely, the impedance of both arms accounted for about 95 % of the total
hand to hand impedance, and the impedance of the posture of arms which was bent 90 degrees was the
lowest, the impedance of the posture of arms which stretched was stretched upwards was the highest.
%0 Generic
%1 sakamoto2013measurement
%A SAKAMOTO, Y
%A HAYASHI, N
%A TARAO, H
%D 2013
%K Contact arm body current frequency human impedance index low mass posture
%T Measurement of Human Body Impedance in Low Frequency
%X In this paper, the internal human body impedance in the low frequency was measured in order to
obtain data of the current human body impedance. Further we performed three considerations shown
below. Relationships between human body impedance and Body Mass Index (BMI), comparisons of
distribution of human body impedance along the current path and numerical analysis result, and
change of human body impedance by the posture of the arm. Result, the human body impedance is
proportional to BMI conversely, the impedance of both arms accounted for about 95 % of the total
hand to hand impedance, and the impedance of the posture of arms which was bent 90 degrees was the
lowest, the impedance of the posture of arms which stretched was stretched upwards was the highest.
@conference{sakamoto2013measurement,
abstract = {In this paper, the internal human body impedance in the low frequency was measured in order to
obtain data of the current human body impedance. Further we performed three considerations shown
below. Relationships between human body impedance and Body Mass Index (BMI), comparisons of
distribution of human body impedance along the current path and numerical analysis result, and
change of human body impedance by the posture of the arm. Result, the human body impedance is
proportional to BMI conversely, the impedance of both arms accounted for about 95 % of the total
hand to hand impedance, and the impedance of the posture of arms which was bent 90 degrees was the
lowest, the impedance of the posture of arms which stretched was stretched upwards was the highest.},
added-at = {2021-02-12T12:20:50.000+0100},
author = {SAKAMOTO, Y and HAYASHI, N and TARAO, H},
biburl = {https://www.bibsonomy.org/bibtex/2a1e6ccb253097e841ae2db14362b7fbb/chkokalis},
interhash = {4f164360769efbae8b7b969f677b9c1a},
intrahash = {a1e6ccb253097e841ae2db14362b7fbb},
keywords = {Contact arm body current frequency human impedance index low mass posture},
timestamp = {2021-02-12T16:11:24.000+0100},
title = {Measurement of Human Body Impedance in Low Frequency},
year = 2013
}