BIOMECHANICS OF HUMAN MOVEMENT  151

              REFERENCES

                          Abdel-Aziz, Y. I., and Karara, H. M. (1971) Direct linear transformation from comparator coordinates into object-space
                            coordinates. Close-Range Photogrammetry. American Society of Photogrammetry, Falls Church, Virginia.
                          Bessier,  T. F. (2000) Examination of neuromuscular and biomechanical mechanisms of non-contact knee ligament
                            injuries. Doctoral dissertation, University of Western Australia.
                          Buchanan, T. S., Delp, S. L., and Solbeck, J. A. (1998) Muscular resistance to varus and valgus loads at the elbow.
                            Journal of Biomechanical Engineering. 120(5):634–639.
                          Buchanan, T. S., Moniz, M. J., Dewald, J. P., and Zev Rymer, W. (1993) Estimation of muscle forces about the wrist joint
                            during isometric tasks using an EMG coefficient method. Journal of Biomechanics. 26:547–560.
                          Cappozzo, A., Catani, F., Della Croce, U., and Leardini, A. (1995) Position and orientation in space of bones during
                            movement: anatomical frame definition and determination. Clinical Biomechanics. 10(4):171–178.
                          Chao, E. Y. S. (1980) Justification of triaxial goniometer for the measurement of joint rotation. Journal of Biomechanics.
                            13:989–1006.
                          Cheze, L., Fregly, B. J., and Dimnet, J. (1995) A solidification procedure to facilitate kinematic analyses based on video
                            system data. Journal of Biomechanics. 28(7):879–884.
                          Delp, S. L., Arnold, A. S., Speers, R. A., and Moore, C. A. (1996) Hamstrings and psoas lengths during normal and
                            crouch gait: implications for muscle-tendon surgery. Journal of Orthopaedic Research. 14:144–151.
                          Dempster, W. T. (1955) Space Requirements of the Seated Operator Geometrical, Kinematic, and Mechanical Aspects
                            of the Body with Special Reference to the Limbs. Technical Report (55-159) (AD 87892). Wright Air Development
                            Center, Air Research and Development Command, Wright-Patterson Air Force Base, OH.
                          Grood, E. S., and Suntay, W. J. (1983) A joint coordinate system for the clinical description of three-dimensional
                            motions: application to the knee. Journal of Biomechanical Engineering. 105:136–144.
                          Hill, A. V. (1938) The heat of shortening and the dynamic constants of muscle. Proceedings of the Royal Society of
                            London Series B. 126:136–195.
                          Huxley, A. F. (1957) Muscle structure and theories of contraction. Progress in Biophysical Chemistry. 7:255–318.
                          Huxley,  A. F., and Simmons R. M. (1971) Proposed mechanism of force generation in striated muscle.  Nature.
                            233:533–538.
                          International Society of Biomechanics, (1999) ISB software sources, http://isb.ri.ccf.org/software.
                          Jackson, K. M. (1979) Fitting of mathematical functions to biomechanical data.  IEEE Transactions on Biomedical
                            Engineering BME. 26(2):122–124.
                          Pandy, M. G., and Zajac, F. E. (1991) Optimal muscular coordination strategies for jumping. Journal of Biomechanics.
                            24:1–10.
                          Shiavi, R., Limbird, T., Frazer, M., Stivers, K., Strauss, A., and Abramovitz J. (1987) Helical motion analysis of the
                            knee—I. Methodology for studying kinematics during locomotion. Journal of Biomechanics. 20(5):459–469.
                          Soderkvist, I., and Wedin, P. (1993) Determining the movements of the skeleton using well-configured markers. Journal
                            of Biomechanics. 26(12):1473–1477.
                          Weidenhielm, L., Svensson, O. K., and Brostrom, L-A. (1995) Change of adduction moment about the hip, knee and
                            ankle joints after high tibial osteotomy in osteoarthrosis of the knee. Clinical Biomechanics. 7:177–180.
                          Winter, D. A. (1990) Biomechanics and Motor Control of Human Movement. 2 ed. New York: John Wiley & Sons, Inc.
                          Woltring, H. J. (1986) A FORTRAN package for generalized, cross-validatory spline smoothing and differentiation.
                            Advances in Engineering Software. 8(2):104–113.
                          Zahalak, G. I. (1986) A comparison of the mechanical behavior of the cat soleus muscle with a distribution-moment
                            model. Journal of Biomechanical Engineering. 108:131–140.
                          Zahalak, G. I. (2000) The two-state cross-bridge model of muscle is an asymptotic limit of multi-state models. Journal
                            of Theoretical Biology. 204:67–82.
                          Zajac, F. E. (1989) Muscle and tendon: properties, models, scaling and application to the biomechanics of motor con-
                            trol. In: Bourne, J. R. (ed.), Critical Reviews in Biomedical Engineering. 17, CRC Press, pp. 359–411.
                          Zatsiorsky, V., and Seluyanov, V. (1985) Estimation of the mass and inertia characteristics of the human body by means
                            of the best predictive regression equations. In: Winter, D., Norman, R., Wells, R., Hayes, K., and Patla, A. (eds.),
                            Biomechanics IX-B. Champaign, IL: Human Kinetics Publisher, pp. 233–239.