Abstract Background To learn, a motor system needs to know its sensitivity derivatives, which quantify how its neural commands affect motor error. But are these derivatives themselves learned, or are they known solely innately? Here we test a recent theory that the brain's estimates of sensitivity derivatives are revisable based on sensory feedback. In its simplest form, the theory says that each control system has a single, adjustable estimate of its sensitivity derivatives which affects all aspects of its task, e.g. if you learn to reach to mirror-reversed targets then your revised estimate should reverse not only your initial aiming but also your online course adjustments when the target jum...
We examined how people organize redundant kinematic control variables (finger joint configurations) ...
The plasticity of the human nervous system allows us to acquire an open-ended repository of sensorim...
BACKGROUND: When one watches a sports game, one may feel her/his own muscles moving in synchrony wit...
Abstract Background To learn, a motor system needs to...
To learn effectively, an adaptive controller needs to know its sensitivity derivatives — the variabl...
Humans are very good at learning to make new movements, whether this is to practice a skill that man...
Wei K, Wert D, Kording K. The nervous system uses nonspecific motor learning in response to random p...
Understanding the neural processes underlying motor learning in humans is important to facilitate th...
Current models of sensorimotor control posit that motor commands are generated by combining multiple...
Humans and other animals adapt motor commands to predictable disturbances within tens of trials in l...
Motor adaptation results from the acquisition of novel representations in the nervous system allowin...
Abstract — We used visuomotor tracking as our motor task and studied how subjects learn to adjust fo...
Awareness of task demands is often used during rehabilitation and sports training by providing instr...
The plasticity of the human nervous system allows us to acquire an open-ended repository of sensorim...
When exposed to a continuous directional discrepancy between movements of a visible hand cursor and ...
We examined how people organize redundant kinematic control variables (finger joint configurations) ...
The plasticity of the human nervous system allows us to acquire an open-ended repository of sensorim...
BACKGROUND: When one watches a sports game, one may feel her/his own muscles moving in synchrony wit...
Abstract Background To learn, a motor system needs to...
To learn effectively, an adaptive controller needs to know its sensitivity derivatives — the variabl...
Humans are very good at learning to make new movements, whether this is to practice a skill that man...
Wei K, Wert D, Kording K. The nervous system uses nonspecific motor learning in response to random p...
Understanding the neural processes underlying motor learning in humans is important to facilitate th...
Current models of sensorimotor control posit that motor commands are generated by combining multiple...
Humans and other animals adapt motor commands to predictable disturbances within tens of trials in l...
Motor adaptation results from the acquisition of novel representations in the nervous system allowin...
Abstract — We used visuomotor tracking as our motor task and studied how subjects learn to adjust fo...
Awareness of task demands is often used during rehabilitation and sports training by providing instr...
The plasticity of the human nervous system allows us to acquire an open-ended repository of sensorim...
When exposed to a continuous directional discrepancy between movements of a visible hand cursor and ...
We examined how people organize redundant kinematic control variables (finger joint configurations) ...
The plasticity of the human nervous system allows us to acquire an open-ended repository of sensorim...
BACKGROUND: When one watches a sports game, one may feel her/his own muscles moving in synchrony wit...