Mechanical Impedance Of The Human Body In Sitting And Standing Position At Low Frequencies
Report Number: ASD TR 61-492
Author(s): Coermann, Rolf R.
Corporate Author(s): Aerospace Medical Research Labs Wright-Patterson AFB Ohio
Laboratory: Biomedical Laboratory
Date of Publication: 1961-09
Pages: 45
Contract: AF 33(616)-5335
DoD Project: 7231
DoD Task: 71786
Identifier: AD0413478
Abstract:
The theory of the mechanical impedance of systems with one or more degrees of freedom is applied to the human body. A method of measuring mechanical impedance and determining the parameters of the vibrating systems is developed. Impedance curves for longitudinal vibrations of a sitting and standing subject are established for the frequency range of 1 to 20 cps. The influence of varied posture and restraining systems is investigated. Dynamic movements of body parts are measured, di rer indirectly, and compared with the im pedance curves. The responsible elements in the body for the apparent resonances are identified. Correlations between the impedance function of the body and the subjective tolerance curve to vibration are found and the reasons for the tolerance limits are elucidated. The variability of subjective tolerances due to varying posture, restraining systems, cushions, duration of ex posure and vibrations are discussed, and con clusions for the development of protective de vices are drawn. The correlation between the steady state response of the human body system and the effects of impact is discussed.
Provenance: Lockheed Martin Missiles & Fire Control
Author(s): Coermann, Rolf R.
Corporate Author(s): Aerospace Medical Research Labs Wright-Patterson AFB Ohio
Laboratory: Biomedical Laboratory
Date of Publication: 1961-09
Pages: 45
Contract: AF 33(616)-5335
DoD Project: 7231
DoD Task: 71786
Identifier: AD0413478
Abstract:
The theory of the mechanical impedance of systems with one or more degrees of freedom is applied to the human body. A method of measuring mechanical impedance and determining the parameters of the vibrating systems is developed. Impedance curves for longitudinal vibrations of a sitting and standing subject are established for the frequency range of 1 to 20 cps. The influence of varied posture and restraining systems is investigated. Dynamic movements of body parts are measured, di rer indirectly, and compared with the im pedance curves. The responsible elements in the body for the apparent resonances are identified. Correlations between the impedance function of the body and the subjective tolerance curve to vibration are found and the reasons for the tolerance limits are elucidated. The variability of subjective tolerances due to varying posture, restraining systems, cushions, duration of ex posure and vibrations are discussed, and con clusions for the development of protective de vices are drawn. The correlation between the steady state response of the human body system and the effects of impact is discussed.
Provenance: Lockheed Martin Missiles & Fire Control