We used functional MR imaging (FMRI), a robotic manipulandum and systems identification techniques to examine neural correlates of predictive compensation for spring-like loads during goal-directed wrist movements in neurologically-intact humans. Although load changed unpredictably from one trial to the next, subjects nevertheless used sensorimotor memories from recent movements to predict and compensate upcoming loads. Prediction enabled subjects to adapt performance so that the task was accomplished with minimum effort. Population analyses of functional images revealed a distributed, bilateral network of cortical and subcortical activity supporting predictive load compensation during visual target capture. Cortical regions – including pre...
Both perceptual inference and motor responses are shaped by learned probabilities. For example, stim...
Abstract Human behavior and cognition result from a complex pattern of interactions between brain re...
The goal of robotic therapy is to provoke motor plasticity via the application of robotic training s...
In this study, we investigate whether individual variability in the rate of visuomotor adaptation an...
Both perceptual inference and motor responses are shaped by learned probabilities. For example, stim...
Adaptation learning is crucial to maintain precise motor control in face of environmental perturbati...
Delayed response tasks and functional magnetic resonance imaging were employed to map the neural arc...
Human motor control is highly adaptive to new tasks and changing environments. Motor adaptation reli...
AbstractThe primary motor cortex (M1) is known to control motor performance. Recent findings have al...
Skill learning and motor adaptation are key components within the area of motor control. Skill learn...
To investigate the functional role of the striatum in visuo-motor adaptation, we extend the DIRECT-m...
Abstract In this chapter we investigate the role of motor cortex in adapting movements to novel dyna...
The neural bases of motor adaptation have been extensively explored in human and non-human primates....
Humans have the ability to make motor responses to unpredictable visual stimuli, and do so as a matt...
Motor control is an essential part of what makes us human. It’s important for learning how to walk a...
Both perceptual inference and motor responses are shaped by learned probabilities. For example, stim...
Abstract Human behavior and cognition result from a complex pattern of interactions between brain re...
The goal of robotic therapy is to provoke motor plasticity via the application of robotic training s...
In this study, we investigate whether individual variability in the rate of visuomotor adaptation an...
Both perceptual inference and motor responses are shaped by learned probabilities. For example, stim...
Adaptation learning is crucial to maintain precise motor control in face of environmental perturbati...
Delayed response tasks and functional magnetic resonance imaging were employed to map the neural arc...
Human motor control is highly adaptive to new tasks and changing environments. Motor adaptation reli...
AbstractThe primary motor cortex (M1) is known to control motor performance. Recent findings have al...
Skill learning and motor adaptation are key components within the area of motor control. Skill learn...
To investigate the functional role of the striatum in visuo-motor adaptation, we extend the DIRECT-m...
Abstract In this chapter we investigate the role of motor cortex in adapting movements to novel dyna...
The neural bases of motor adaptation have been extensively explored in human and non-human primates....
Humans have the ability to make motor responses to unpredictable visual stimuli, and do so as a matt...
Motor control is an essential part of what makes us human. It’s important for learning how to walk a...
Both perceptual inference and motor responses are shaped by learned probabilities. For example, stim...
Abstract Human behavior and cognition result from a complex pattern of interactions between brain re...
The goal of robotic therapy is to provoke motor plasticity via the application of robotic training s...