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Experimental Brain Research
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January 1, 1995
The role of active forces and intersegmental dynamics in the control of limb trajectory over obstacles during locomotion in humans
A E Patla, S D Prentice
European Journal of Applied Physiology and Occupational Physiology
|
January 1, 1987
Myoelectric changes in the triceps surae muscles under sustained contractions. Evidence for synergism
A V Sirin, A E Patla
IEEE Transactions on Rehabilitation Engineering : a Publication of the IEEE Engineering in Medicine and Biology Society
|
April 16, 1998
Stepping over obstacles during locomotion: insights from multiobjective optimization on set of input parameters
M Armand, J P Huissoon, A E Patla
Experimental Brain Research
|
January 19, 2000
Online steering: coordination and control of body center of mass, head and body reorientation
A E Patla, A Adkin, T Ballard
Experimental Brain Research
|
December 31, 1998
Simple artificial neural network models can generate basic muscle activity patterns for human locomotion at different speeds
S D Prentice, A E Patla, D A Stacey
Perception
|
January 1, 1985
Locomotor estimation of distance after visual scanning by children and adults
J T Corlett, A E Patla, J G Williams
Journal of Electromyography and Kinesiology : Official Journal of the International Society of Electrophysiological Kinesiology
|
February 13, 2001
Artificial neural network model for the generation of muscle activation patterns for human locomotion
S D Prentice, A E Patla, D A Stacey
Experimental Brain Research
|
March 7, 2002
"Look where you're going!": gaze behaviour associated with maintaining and changing the direction of locomotion
M A Hollands, A E Patla, J N Vickers
The International Journal of Neuroscience
|
June 25, 1998
Is backward stepping over obstacles achieved through a simple temporal reversal of forward stepping?
M G Carpenter, A Bellos, A E Patla
IEEE Transactions on Rehabilitation Engineering : a Publication of the IEEE Engineering in Medicine and Biology Society
|
March 1, 1997
A methodology for definition of neuromuscular electrical stimulation sequences: an application toward overcoming small obstacles
A A Quevedo, A E Patla, A Cliquet
Page
of 7
Search research articles
Search
Showing results (11-20 of 61) with videos related to
Sort By:
Page
of 7
Experimental Brain Research
|
January 1, 1995
The role of active forces and intersegmental dynamics in the control of limb trajectory over obstacles during locomotion in humans
A E Patla, S D Prentice
European Journal of Applied Physiology and Occupational Physiology
|
January 1, 1987
Myoelectric changes in the triceps surae muscles under sustained contractions. Evidence for synergism
A V Sirin, A E Patla
IEEE Transactions on Rehabilitation Engineering : a Publication of the IEEE Engineering in Medicine and Biology Society
|
April 16, 1998
Stepping over obstacles during locomotion: insights from multiobjective optimization on set of input parameters
M Armand, J P Huissoon, A E Patla
Experimental Brain Research
|
January 19, 2000
Online steering: coordination and control of body center of mass, head and body reorientation
A E Patla, A Adkin, T Ballard
Experimental Brain Research
|
December 31, 1998
Simple artificial neural network models can generate basic muscle activity patterns for human locomotion at different speeds
S D Prentice, A E Patla, D A Stacey
Perception
|
January 1, 1985
Locomotor estimation of distance after visual scanning by children and adults
J T Corlett, A E Patla, J G Williams
Journal of Electromyography and Kinesiology : Official Journal of the International Society of Electrophysiological Kinesiology
|
February 13, 2001
Artificial neural network model for the generation of muscle activation patterns for human locomotion
S D Prentice, A E Patla, D A Stacey
Experimental Brain Research
|
March 7, 2002
"Look where you're going!": gaze behaviour associated with maintaining and changing the direction of locomotion
M A Hollands, A E Patla, J N Vickers
The International Journal of Neuroscience
|
June 25, 1998
Is backward stepping over obstacles achieved through a simple temporal reversal of forward stepping?
M G Carpenter, A Bellos, A E Patla
IEEE Transactions on Rehabilitation Engineering : a Publication of the IEEE Engineering in Medicine and Biology Society
|
March 1, 1997
A methodology for definition of neuromuscular electrical stimulation sequences: an application toward overcoming small obstacles
A A Quevedo, A E Patla, A Cliquet
Page
of 7