The simulation of aerial movement, II:​ a mathematical inertia model of the human body

Yeadon, M. R.

Affiliations

¹Biomechanics Laboratory, Faculty of Physical Education, University of Calgary, Canada

Abstract

A mathematical inertia model which permits the determination of personalized segmental inertia parameter values from anthropometric measurements is described. The human body is modelled using 40 geometric solids which are specified by 95 anthropometric measurements. A ‘stadium’ solid is introduced for modelling the torso segments using perimeter and width measurements. This procedure is more accurate than the use of elliptical discs of given width and depth and permits a smaller number of such solids to be used. Inertia parameter values may be obtained for body models of up to 20 segments. Errors in total body mass estimates from this and other models are discussed with reference to the unknown lung volumes.

Links

DOI: 10.1016/0021-9290(90)90370-I

PubMed: 2307693

WoS: A1990CQ50200008

History

Revised: 1989-02

Cited Works (4)

Year	Entry
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1964	Hanavan EP Jr. A Mathematical Model of the Human Body. Wright-Patterson AFB, OH: Air Force Aerospace Medical Research Lab; October 1964. Technical Report AMRL-TR-64-100.
1984	Yeadon MR. The Mechanics of Twisting Somersaults [PhD thesis]. Loughborough University; December 1984.

Cited By (16)

Year	Entry
2012	El Helou A, Gracies JM, Decq P, Skalli W. Estimating foot inertial parameters: a new regression approach. Clin Biomech (Bristol, Avon). March 2012;27(3):299-305.
2005	Krosshaug T, Bahr R. A model-based image-matching technique for three-dimensional reconstruction of human motion from uncalibrated video sequences. J Biomech. April 2005;38(4):919-929.
2012	Kristianslund E, Krosshaug T, van den Bogert AJ. Effect of low pass filtering on joint moments from inverse dynamics: implications for injury prevention. J Biomech. February 23, 2012;45(4):666-671.
2020	Derrick TR, van den Bogert AJ, Cereatti A, Dumas R, Fantozzi S, Leardini A. ISB recommendations on the reporting of intersegmental forces and moments during human motion analysis. J Biomech. January 23, 2020;99:109533.
2023	Yeadon MR, Pain MTG. Fifty years of performance‐related sports biomechanics research. J Biomech. June 2023;155:111666.
2023	Felton PJ, Shine KJ, Yeadon MR, King MA. Optimal initial position and technique for the front foot contact phase of cricket fast bowling: commonalities between individual-specific simulations of elite bowlers. J Biomech. September 2023;158:111765.
2006	Riemer R. Optimization-Based Inverse Dynamics to Reduce Errors in Estimated Joint Torques [PhD thesis]. University of Illinois at Urbana-Champaign; 2006.
2006	Ferguson PA. Quantifying and Modelling Adaptive Astronaut Movement: Motion Strategies for Long-Duration Spaceflight Missions [PhD thesis]. Cambridge, MA: Massachusetts Institute of Technology; May 2006.
1993	Patton JL. Forward Dynamic Modeling of Human Locomotion [Master's thesis]. East Lansing, MI: Michigan State University; 1993.
2015	Hernandez S. Développement d'une méthode d'apprentissage par projet pour l'enseignement de la modélisation multicorps appliquée au corps humain [Master's thesis]. École polytechnique de Montréal; December 2015.
2019	Lecours S. Développement d'un exosquelette portable motorisé des membres supérieurs pour les enfants atteints de troubles neuromusculaires [Master's thesis]. École polytechnique de Montréal; August 2019.
2020	Blanchet L. Development of a Procedure to Optimize the Geometric and Dynamic Designs of Assistive Upper Limb Exoskeletons [Master's thesis]. École polytechnique de Montréal; February 2020.
2022	Li PL. Support à la conception d'exosquelettes motorisés d'assistance du membre supérieur multitâches [Master's thesis]. École polytechnique de Montréal; April 2022.
2015	Kudzia P. Estimating Body Segment Inertial Parameters of the Human Body Using a Microsoft Kinect [Master's thesis]. Queen's University; October 2015.
2020	Schwaner MJ. Jump Up and Swing Your Tail: Mechanics of an Escape Response in Desert Kangaroo Rats (D. Deserti) [PhD thesis]. Moscow, ID: University of Idaho; December 2020.
2007	Reeves NP. Tuning-Out Instability: The Importance of Feedback Control in the Spine [PhD thesis]. Yale University; December 2007.