Biomedical Engineering Reference
In-Depth Information
78. Visell Y, Law A, Ip J, Smith S, Cooperstock J (2010) (2010) Interaction capture in immersive
virtual environments via an intelligent floor surface. In: Proceedings of IEEE virtual reality, pp
313-314
79. Viviani P, Terzuolo C (1982) Trajectory determines movement dynamics. Neuroscience 7:431-
437
80. Warabi T, Kato M, Kiriyama K, Yoshida T, Kobayashi N (2005) Treadmill walking and over-
ground walking of human subjects compared by recording sole-floor reaction force. Neurosci
Res 53(3):343-348
81. Warren WHJ, Kay BA, Zosh WD, Duchon AP, Sahuc S (2001) Optic flow is used to control
human walking. Nat Neurosci 4(2):213-216
82. Wass E, Taylor NF, Matsas A (2005) Familiarisation to treadmill walking in unimpaired older
people. Gait Posture 21(1):72-79
83. Wendt J, Whitton MC, Brooks F (2010) Gud wip: gait-understanding-driven walking-in-place.
In: Proceedings of IEEE virtual reality, pp 51-58
84. White SC, Yack HJ, Tucker CA, Lin HY (1998) Comparison of vertical ground reaction forces
during overground and treadmill walking. Med Sci Sports Exercise 30:1537-1542
85. Whittle M (1991) Gait Analysis: an introduction. Butterworth-Heinemann, Oxford
86. Winter DA (1979) A new definition of mechanical work done in human movement. J Appl
Physiol Respirat Environ Exercise Physiol 46(1):79-83
87. Winter DA (1991) The biomechanics and motor control of human gait: normal, elderly and
pathological. University of Waterloo press, Ontario
88. Zijlstra W, Rutgers AWF, Hof AL, Van Weerden TW (1995) Voluntary and involuntary adap-
tation of walking to temporal and spatial constraints. Gait Posture 3:13-18
