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Liu, Y. King
1
; Wickstrom, Jack K.
1
Estimation of the inertial property distribution of the human torso from segmented cadaveric data
Perspectives in Biomedical Engineering: Proceedings of a Symposium Organised in Association With the Biological Engineering Society and Held in the University of Strathclyde, Glasgow, June 1972
Affiliations
1
Biomechanics Laboratory, Tulane University School of Medicine, New Orleans, Louisiana, U.S.A.
Cited Works (2)
Year
Entry
1969
Clauser CE, McConville JT, Young JW.
Weight, Volume, and Center of Mass of Segments of the Human Body
. Wright-Patterson AFB, Ohio: Aerospace Medical Research Laboratory; August 1969. Report No. AFRL-TR-69-70.
1971
Orne D, Liu YK. A mathematical model of spinal response to impact.
J Biomech
. 1971;4(1):49-71.
Cited By (19)
Year
Entry
1975
Chandler RF, Clauser CE, McConville JT, Reynolds HM, Young JW.
Investigation of Inertial Properties of the Human Body
. Wright-Patterson AFB, Ohio: Air Force Aerospace Medical Research Laboratory; March 1975. Report No. AMRL-TR-74-137.
1980
McConville JT, Churchill TD, Kaleps I, Clauser CE, Cuzzi J.
Anthropometric Relationships of Body and Body Segment Moments of Inertia
. Wright-Patterson AFB, Ohio: Air Force Aerospace Medical Research Laboratory; December 1980. Report No. AFAMRL-TR-80-119.
1975
Reynolds HM, Clauser CE, McConville J, Chandler R, Young JW. Mass distribution properties of the male cadaver. 1975. SAE 750424.
2001
Matsumoto Y, Griffin MJ. Modelling the dynamic mechanisms associated with the principal resonance of the seated human body.
Clin Biomech
(Bristol, Avon). 2001;16(suppl 1):S31-S44.
1974
Prasad P, King AI. An experimentally validated dynamic model of the spine.
J Appl Mech
. September 1974;41(3):546-550.
1997
Kitazaki S, Griffin MJ. A modal analysis of whole-body vertical vibration, using a finite element model of the human body.
J Sound Vibrat
. February 13, 1997;200(1):83-103.
1991
Crisco JJ III, Panjabi MM. The intersegmental and multisegmental muscles of the lumbar spine: a biomechanical model comparing lateral stabilizing potential.
Spine
. July 1991;16(7):793-799.
1985
Yoganandan N.
Mechanical Factors and the Threshold of Trauma of the Intervertebral Joint: A Finite Element Analysis With Experimental Validation
[PhD thesis]. Marquette University; December 1985.
1981
Williams JL.
A Three-Dimensional Head-Neck Model for Impact Acceleration Studies
[PhD thesis]. Evanston, IL: Northwestern University; August 1981.
1997
Kiefer A.
Synergy of Human Spine in Neutral Posture
[PhD thesis]. École polytechnique de Montréal; December 1997.
2006
Arjmand N.
Computational Biomechanics of the Human Spine in Static Lifting Tasks
[PhD thesis]. École polytechnique de Montréal; October 2006.
2007
Bazrgari B.
Biodynamic of the Human Spine
[PhD thesis]. École polytechnique de Montréal; February 2007.
2015
Kudzia P.
Estimating Body Segment Inertial Parameters of the Human Body Using a Microsoft Kinect
[Master's thesis]. Queen's University; October 2015.
1974
Reynolds HM.
Measurement of the Inertial Properties of the Segmented Savannah Baboon
Southern Methodist University; 1974.
1999
Matsumoto Y.
Dynamic Response of Standing and Seated Persons to Whole-Body Vibration: Principal Resonance of the Body
[PhD thesis]. Southampton, England: University of Southampton; June 1999.
2012
Vette A-H.
Trunk Stability During Postural Control: Tool Development and Analysis
[PhD thesis]. University of Toronto; 2012.
1973
Prasad P.
The Dynamic Response of the Spine During +G
Z
Acceleration
[PhD thesis]. Detroit, MI: Wayne State University; 1973.
1976
Tennyson SA.
The Response of Spinal Musculature During +G
Z
Acceleration
[PhD thesis]. Detroit, MI: Wayne State University; 1976.
1989
Crisco JJ III.
The Biomechanical Stability of the Human Lumbar Spine: Experimental and Theoretical Investigations
[PhD thesis]. Yale University; May 1989.