SummaryExecuting a motor skill requires the brain to control which muscles to activate at what times. How these aspects of control—motor implementation and timing—are acquired, and whether the learning processes underlying them differ, is not well understood. To address this, we used a reinforcement learning paradigm to independently manipulate both spectral and temporal features of birdsong, a complex learned motor sequence, while recording and perturbing activity in underlying circuits. Our results uncovered a striking dissociation in how neural circuits underlie learning in the two domains. The basal ganglia was required for modifying spectral, but not temporal, structure. This functional dissociation extended to the descending motor pat...
Premotor circuits help generate imitative behaviors and can be activated during observation of anoth...
Basal ganglia (BG) circuits integrate sensory and motor-related information from the cortex, thalamu...
Trial-and-error skill learning involves generating variation in behavioral performance ('exploratory...
SummaryExecuting a motor skill requires the brain to control which muscles to activate at what times...
Most of our motor skills are not innately programmed, but are learned by a combination of motor expl...
Part I Mastering a motor skill, such as a playing the guitar, requires precisely controlling both s...
The acquisition of complex motor sequences often proceeds through trial-and-error learning, requirin...
In songbirds, as in mammals, basal ganglia-forebrain circuits are necessary for the learning and pro...
We learn complex skills such as speech and dance through a gradual process of trial ...
Birdsong is an ideal behavior for testing the neural mechanisms that underlie motor learning, as the...
In its simplest formulation, reinforcement learning is based on the idea that if an action taken in ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Brain and Cognitive Sciences, 2...
International audienceLearning by imitation is fundamental to both communication and social behavior...
Thesis (Ph.D.)--University of Washington, 2015Understanding learning is one of the most basic human ...
We learn complex skills like speech and dance through a gradual process of trial-and-error. Cortical...
Premotor circuits help generate imitative behaviors and can be activated during observation of anoth...
Basal ganglia (BG) circuits integrate sensory and motor-related information from the cortex, thalamu...
Trial-and-error skill learning involves generating variation in behavioral performance ('exploratory...
SummaryExecuting a motor skill requires the brain to control which muscles to activate at what times...
Most of our motor skills are not innately programmed, but are learned by a combination of motor expl...
Part I Mastering a motor skill, such as a playing the guitar, requires precisely controlling both s...
The acquisition of complex motor sequences often proceeds through trial-and-error learning, requirin...
In songbirds, as in mammals, basal ganglia-forebrain circuits are necessary for the learning and pro...
We learn complex skills such as speech and dance through a gradual process of trial ...
Birdsong is an ideal behavior for testing the neural mechanisms that underlie motor learning, as the...
In its simplest formulation, reinforcement learning is based on the idea that if an action taken in ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Brain and Cognitive Sciences, 2...
International audienceLearning by imitation is fundamental to both communication and social behavior...
Thesis (Ph.D.)--University of Washington, 2015Understanding learning is one of the most basic human ...
We learn complex skills like speech and dance through a gradual process of trial-and-error. Cortical...
Premotor circuits help generate imitative behaviors and can be activated during observation of anoth...
Basal ganglia (BG) circuits integrate sensory and motor-related information from the cortex, thalamu...
Trial-and-error skill learning involves generating variation in behavioral performance ('exploratory...