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Comparison of two approaches for calculation of the geometric and inertial characteristics of the human body of the Bulgarian population

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Języki publikacji
EN
Abstrakty
EN
On the basis of a representative anthropological investigation of 5290 individuals (2435 males and 2855 females) of the Bulgarian population at the age of 30–40 years (YORDANOV et al. [1]) we proposed a 3D biomechanical model of human body of the average Bulgarian male and female and compared two different possible approaches to calculate analytically and to evaluate numerically the corresponding geometric and inertial characteristics of all the segments of the body. In the framework of the first approach, we calculated the positions of the centres of mass of the segments of human body as well as their inertial characteristics merely by using the initial original anthropometrical data, while in the second approach we adjusted the data by using the method based on regression equations. Wherever possible, we presented a comparison of our data with those available in the literature on other Caucasians and determined in which cases the use of which approach is more reliable.
Rocznik
Strony
3--8
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
autor
autor
  • Bulgarian Academy of Sciences, Institute of Mechanics and Biomechanics, Bulgaria
Bibliografia
  • [1] YORDANOV Y., NACHEVA A., TORNJOVA S., KONDOVA N., DIMITROVA B., TOPALOVA D., Anthropology of the Bulgarian population at the end of the 20-th century (30–40 years old persons), [in:] Y. Yordanov (eds.), Professor Marin Drinov Academic Publishing House, Sofia, 2006.
  • [2] CLAUSER C.E., MCCONVILLE J.T., YOUNG J.W., Weight, volume, and center of mass of segments of the human body, Technical Report, AMRL-TR-69-70, Wright–Patterson Air Force Base, Ohio, USA, 1969.
  • [3] CHANDLER R.F., CLAUSER C.E., MCCONVILLE J.T., REYNOLDS H.M., YOUNG J.W., Investigation of inertial properties of the human body, Technical Report AMRL-TR-74-137, Wright– Patterson Air Force Base, Ohio, USA, 1975.
  • [4] HANAVAN E.P., A mathematical model of the human body, AMRL-TR-64-102, Aerospace Research Laboratories, Wright– Patterson Air Force Base, Ohio, 1964.
  • [5] JENSNEN R.K., Estimation of the biomechanical properties of three body types using a photogrammetric method, Journal of Biomechanics, 1978, 11, 349–358.
  • [6] HATZE H., A mathematical model for computational determination of parameter values of anthropomorphic segments, Journal of Biomechanics, 1980, 13, 833–843.
  • [7] YEADON M.R., The simulation of aerial movement. II. A mathematical inertia model of the human body, Journal of Biomechanics, 1990, 23, 67–74.
  • [8] ZATSIORSKY V.M., SELUYANOV V.N., The mass and inertia characteristics of the main segments of the human body, [in:] H. Matsui, K. Kobayashi (Eds.), Biomechanics VIII-B, Champaign, IL: Human Kinetics, 1983, 1152–1159.
  • [9] ZATSIORSKY V.M., SELUYANOV V.N., Estimation of the mass and inertia characteristics of the human body by means of the best predictive regression equations, [in:] D. Winter, R. Norman, R. Wells, K. Hayes, A. Patla (Eds.), Biomechanics IX-B, Champaign, IL: Human Kinetics, 1985, 233–239.
  • [10] DAPENA J., A method to determine the angular momentum of a human body about three orthogonal axes passing through its center of gravity, Journal of Biomechanics, 1978, 11, 251–256.
  • [11] FORWOOD M.R., NEAL R.J., WILSON B.D., Scaling segmental moments of inertia for individual subjects, Journal of Biomechanics, 1985, 18, 755–761.
  • [12] ZATSIORSKY V.M., SELUYANOV V.N., CHUGUNOVA L.G., In vivo body segment inertial parameters determination using a gamma-scanner method, [in:] N. Berne, A. Cappozzo, (Eds.), Biomechanics of human movement: Application in rehabilitation, sports, and ergonomics, Worthington, OH: Bertec Corp., 1990a, 186–202.
  • [13] HUANG H.K., WU S.C., The evaluation of mass densities of the human body in vivo from CT scans, Computers in Biology and Medicine, 1976, 6, 337–343.
  • [14] RODRIGUE D., GAGNON M., The evaluation of forearm density with axial tomography, Journal of Biomechanics, 1983, 16, 907–913.
  • [15] WEI C., JENSEN R.K., The application of segment axial density profiles to a human body inertia model, Journal of Biomechanics, 1995, 28, 103–108.
  • [16] ERDMANN W.S., Geometric and inertial data of the trunk in adult males, Journal of Biomechanics, 1997, 30, 679–688.
  • [17] MUNGIOLE M., MARTIN P., Estimating segment inertial properties: comparison of magnetic resonance imaging with existing methods, Journal of Biomechanics, 1990, 23, 1039– 1046.
  • [18] TOSHEV Y., Biomechanics of human movement, South- Western University Press, Blagoevgrad, 1995.
  • [19] NIKOLOVA G., ZLATOV N., TOSHEV Y., YORDANOV Y., NACHEVA A., TORNYOVA S., Experimental verification of one theoretical 3D model of the human body, Acta of Bioengineering and Biomechanics, 2002, 4, Suppl. 1, 570–571.
  • [20] NIKOLOVA G., TOSHEV Y., ZLATOV N., TAIAR R., Estimation of body segment mass – inertial parameters using 3D biomechanical model, Proceedings of XIX Congress of the International Society of Biomechanics, 6–11 July, 2003, Dunedin, New Zealand.
  • [21] SHAN G., BOHN C., Anthropometrical data and coefficients of regression related to gender and race, Applied Ergonomics, 2003, 34, 327–337.
  • [22] BJORNSTRUP J., Estimation of human body segment parameters – statistical analysis of results from prior investigations, Technical report, Lab. of Image Analysis, Institute of Electronic Systems, Aalborg University, 1995a.
  • [23] ZATSIORSKY V.M., Kinetics of human motion, Human Kinetics, Champaign, IL, 2002.
  • [24] KWON Y.-H., Kwon3D Motion Analysis Web site, http://kwon3d.com/, 1999.
  • [25] DRILLIS R., CONTINI R., Body segment parameters, Technical Report No. 1166.03, School of Engineering and Science, New York University, New York, 1966.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPB1-0034-0012
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