Assessment of spatio-temporal gait parameters from trunk accelerations during human walking.

[1]  A L Hof,et al.  Ultrasonic motion analysis system--measurement of temporal and spatial gait parameters. , 2002, Journal of biomechanics.

[2]  A. Hof On the interpretation of the support moment. , 2000, Gait & posture.

[3]  E. Otten,et al.  Balancing on a narrow ridge: biomechanics and control. , 1999, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[4]  Verkerke,et al.  Measuring changes in step parameters during an exhausting running exercise. , 1998, Gait & posture.

[5]  R. Moe-Nilssen,et al.  A new method for evaluating motor control in gait under real-life environmental conditions. Part 2: Gait analysis. , 1998, Clinical biomechanics.

[6]  R. Moe-Nilssen,et al.  A new method for evaluating motor control in gait under real-life environmental conditions. Part 1: The instrument. , 1998, Clinical biomechanics.

[7]  Zijlstra,et al.  Voluntary and involuntary adaptation of gait in Parkinson's disease. , 1998, Gait & posture.

[8]  A. Hof,et al.  Displacement of the pelvis during human walking: experimental data and model predictions , 1997 .

[9]  Wiebren Zijlstra,et al.  Adaptability of the human stride cycle during split-belt walking , 1995 .

[10]  David A. Winter,et al.  Human balance and posture control during standing and walking , 1995 .

[11]  P R Cavanagh,et al.  ISB recommendations for standardization in the reporting of kinematic data. , 1995, Journal of biomechanics.

[12]  Wiebren Zijlstra,et al.  Voluntary and involuntary adaptation of walking to temporal and spatial constraints , 1995 .

[13]  K Aminian,et al.  Incline, speed, and distance assessment during unconstrained walking. , 1995, Medicine and science in sports and exercise.

[14]  D. Winter,et al.  Control of whole body balance in the frontal plane during human walking. , 1993, Journal of biomechanics.

[15]  H.B.K. Boom,et al.  Automatic stance-swing phase detection from accelerometer data for peroneal nerve stimulation , 1990, IEEE Transactions on Biomedical Engineering.

[16]  H. Boom,et al.  Real-time gait assessment utilizing a new way of accelerometry. , 1990, Journal of biomechanics.

[17]  Bringing gait analysis out of the laboratory and into the clinic. , 1988, Age and ageing.

[18]  A. Thorstensson,et al.  Adaptability in frequency and amplitude of leg movements during human locomotion at different speeds. , 1987, Acta physiologica Scandinavica.

[19]  D. Winter Kinematic and kinetic patterns in human gait: Variability and compensating effects , 1984 .

[20]  T. Shimba An estimation of center of gravity from force platform data. , 1984, Journal of biomechanics.

[21]  M L Nagurka,et al.  Leg motion analysis during gait by multiaxial accelerometry: theoretical foundations and preliminary validations. , 1983, Journal of biomechanical engineering.

[22]  G. J. van Ingen Schenau,et al.  Some fundamental aspects of the biomechanics of overground versus treadmill locomotion , 1980 .

[23]  G. J. van Ingen Schenau,et al.  Some fundamental aspects of the biomechanics of overground versus treadmill locomotion. , 1980, Medicine and science in sports and exercise.

[24]  D. Winter,et al.  Overall principle of lower limb support during stance phase of gait. , 1980, Journal of biomechanics.

[25]  J R Morris,et al.  Accelerometry--a technique for the measurement of human body movements. , 1973, Journal of biomechanics.