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Motor Control
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April 29, 2015
Online Corrections are Faster Because Movement Initiation Must Disengage Postural Control
Tyler Cluff, Stephen H Scott
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience
|
September 11, 2015
Apparent and Actual Trajectory Control Depend on the Behavioral Context in Upper Limb Motor Tasks
Tyler Cluff, Stephen H Scott
Plos Computational Biology
|
August 23, 2013
Priors engaged in long-latency responses to mechanical perturbations suggest a rapid update in state estimation
Frédéric Crevecoeur, Stephen H Scott
Nature Neuroscience
|
March 11, 2003
A motor learning strategy reflects neural circuitry for limb control
Kan Singh, Stephen H Scott
Progress in Brain Research
|
October 11, 2007
A multi-level approach to understanding upper limb function
Isaac Kurtzer, Stephen H Scott
Experimental Brain Research
|
February 12, 2009
Multi-compartment model can explain partial transfer of learning within the same limb between unimanual and bimanual reaching
Daichi Nozaki, Stephen H Scott
Plos Computational Biology
|
October 10, 2014
Beyond muscles stiffness: importance of state-estimation to account for very fast motor corrections
Frédéric Crevecoeur, Stephen H Scott
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience
|
October 4, 2013
Rapid feedback responses correlate with reach adaptation and properties of novel upper limb loads
Tyler Cluff, Stephen H Scott
Nature
|
May 3, 2014
Neuroscience: Feedback throttled down for smooth moves
Stephen H Scott, Frédéric Crevecoeur
Neuron
|
January 15, 2013
Preference distributions of primary motor cortex neurons reflect control solutions optimized for limb biomechanics
Timothy P Lillicrap, Stephen H Scott
Page
of 18
Search research articles
Search
Showing results (11-20 of 176) with videos related to
Sort By:
Page
of 18
Motor Control
|
April 29, 2015
Online Corrections are Faster Because Movement Initiation Must Disengage Postural Control
Tyler Cluff, Stephen H Scott
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience
|
September 11, 2015
Apparent and Actual Trajectory Control Depend on the Behavioral Context in Upper Limb Motor Tasks
Tyler Cluff, Stephen H Scott
Plos Computational Biology
|
August 23, 2013
Priors engaged in long-latency responses to mechanical perturbations suggest a rapid update in state estimation
Frédéric Crevecoeur, Stephen H Scott
Nature Neuroscience
|
March 11, 2003
A motor learning strategy reflects neural circuitry for limb control
Kan Singh, Stephen H Scott
Progress in Brain Research
|
October 11, 2007
A multi-level approach to understanding upper limb function
Isaac Kurtzer, Stephen H Scott
Experimental Brain Research
|
February 12, 2009
Multi-compartment model can explain partial transfer of learning within the same limb between unimanual and bimanual reaching
Daichi Nozaki, Stephen H Scott
Plos Computational Biology
|
October 10, 2014
Beyond muscles stiffness: importance of state-estimation to account for very fast motor corrections
Frédéric Crevecoeur, Stephen H Scott
The Journal of Neuroscience : the Official Journal of the Society for Neuroscience
|
October 4, 2013
Rapid feedback responses correlate with reach adaptation and properties of novel upper limb loads
Tyler Cluff, Stephen H Scott
Nature
|
May 3, 2014
Neuroscience: Feedback throttled down for smooth moves
Stephen H Scott, Frédéric Crevecoeur
Neuron
|
January 15, 2013
Preference distributions of primary motor cortex neurons reflect control solutions optimized for limb biomechanics
Timothy P Lillicrap, Stephen H Scott
Page
of 18