Add to ORKGAlthough animal studies provided significant insights in understanding the neural basis of learning and adaptation, they often cannot dissociate between different learning mechanisms due to the lack of verbal communication. To overcome this limitation, we examined the mechanisms of learning and its limits in a human intracortical brain-machine interface (BMI) paradigm. A tetraplegic participant controlled a 2D computer cursor by modulating single-neuron activity in the anterior intraparietal area (AIP). By perturbing the neuron-to-movement mapping, the participant learned to modulate the activity of the recorded neurons to solve the perturbations by adopting a target re-aiming strategy. However, when no cognitive strategies were adequate to...
Recent experiments with brain-machine-interfaces (BMIs) indicate that the extent of neural modulatio...
Motor, sensory, and cognitive learning require networks of neurons to generate new activity patterns...
Brain-machine interfaces (BMIs) are an emerging field of research that seeks to interface the brain ...
Although animal studies provided significant insights in understanding the neural basis of learning ...
The brain has an incredible capacity to learn how to control various effectors, ranging from those e...
Balancing subject learning and decoder adaptation is central to increasing brain machine interface (...
Learning a new skill requires one to produce new patterns of activity among networks of neurons. Thi...
The Brain-Machine Interface (BMI) is an emerging technology which directly translates neural activit...
abstract: Brain-machine interfaces (BMIs) were first imagined as a technology that would allow subje...
abstract: The neural mechanisms that take place during learning and adaptation can be directly probe...
Research on brain-machine interface (BMI) systems has flourished in recent years, with motor BMIs sh...
A remarkable demonstration of the flexibility of mammalian motor systems is primates’ ability to lea...
Brain-machine interface (BMI) systems hold great promise for improving quality of life in patients w...
How does the brain integrate signals with different timescales to drive purposeful actions? Brain-ma...
Invasive brain-machine interfaces (BMIs) have the potential to restore lost motor function due to pa...
Recent experiments with brain-machine-interfaces (BMIs) indicate that the extent of neural modulatio...
Motor, sensory, and cognitive learning require networks of neurons to generate new activity patterns...
Brain-machine interfaces (BMIs) are an emerging field of research that seeks to interface the brain ...
Although animal studies provided significant insights in understanding the neural basis of learning ...
The brain has an incredible capacity to learn how to control various effectors, ranging from those e...
Balancing subject learning and decoder adaptation is central to increasing brain machine interface (...
Learning a new skill requires one to produce new patterns of activity among networks of neurons. Thi...
The Brain-Machine Interface (BMI) is an emerging technology which directly translates neural activit...
abstract: Brain-machine interfaces (BMIs) were first imagined as a technology that would allow subje...
abstract: The neural mechanisms that take place during learning and adaptation can be directly probe...
Research on brain-machine interface (BMI) systems has flourished in recent years, with motor BMIs sh...
A remarkable demonstration of the flexibility of mammalian motor systems is primates’ ability to lea...
Brain-machine interface (BMI) systems hold great promise for improving quality of life in patients w...
How does the brain integrate signals with different timescales to drive purposeful actions? Brain-ma...
Invasive brain-machine interfaces (BMIs) have the potential to restore lost motor function due to pa...
Recent experiments with brain-machine-interfaces (BMIs) indicate that the extent of neural modulatio...
Motor, sensory, and cognitive learning require networks of neurons to generate new activity patterns...
Brain-machine interfaces (BMIs) are an emerging field of research that seeks to interface the brain ...