To produce skilled movements, the brain flexibly adapts to different task requirements and movement contexts. Two core abilities underlie this flexibility. First, depending on the task, the motor system must rapidly switch the way it produces motor commands and how it corrects movements online, i.e. it switches between different (feedback) control policies. Second, it must also adapt to environmental changes for different tasks separately. Here we show these two abilities are related. In a bimanual movement task, we show that participants can switch on a movement-by-movement basis between two feedback control policies, depending only on a static visual cue. When this cue indicates that the hands control separate objects, reactions to force ...
Skillful object manipulation requires learning the dynamics of objects, linking applied force to mot...
When we learn a novel task, the motor system needs to acquire both feedforward and feedback control....
Humans and other animals adapt motor commands to predictable disturbances within tens of trials in l...
White, Olivier | Diedrichsen, JoernInternational audience''To produce skilled movements, the brain f...
To produce skilled movements, the brain flexibly adapts to different task requirements and movement ...
Judging by the breadth of our motor repertoire during daily activities, it is clear that learning di...
International audienceWhether the central nervous system is capable to switch between contexts criti...
Humans continuously adapt their movement to a novel environment by recalibrating their sensorimotor ...
Motor adaptation results from the acquisition of novel representations in the nervous system allowin...
Human subjects easily adapt to single dynamic or visuomotor perturbations. In contrast, when two opp...
Skillful manipulation of objects often requires the spatio-temporal coordination of both hands and, ...
SummaryThe control and adaptation of bimanual movements is often considered to be a function of a fi...
Inmanual action, the relationshipbetween a givenmotor commandand the ensuingmovement depends on thed...
Adaptation to novel dynamics requires learning a motor memory, or a new pattern of predictive feedfo...
Wenderoth N, Weigelt M. Visual cues influence motor coordination: behavioral results and potential n...
Skillful object manipulation requires learning the dynamics of objects, linking applied force to mot...
When we learn a novel task, the motor system needs to acquire both feedforward and feedback control....
Humans and other animals adapt motor commands to predictable disturbances within tens of trials in l...
White, Olivier | Diedrichsen, JoernInternational audience''To produce skilled movements, the brain f...
To produce skilled movements, the brain flexibly adapts to different task requirements and movement ...
Judging by the breadth of our motor repertoire during daily activities, it is clear that learning di...
International audienceWhether the central nervous system is capable to switch between contexts criti...
Humans continuously adapt their movement to a novel environment by recalibrating their sensorimotor ...
Motor adaptation results from the acquisition of novel representations in the nervous system allowin...
Human subjects easily adapt to single dynamic or visuomotor perturbations. In contrast, when two opp...
Skillful manipulation of objects often requires the spatio-temporal coordination of both hands and, ...
SummaryThe control and adaptation of bimanual movements is often considered to be a function of a fi...
Inmanual action, the relationshipbetween a givenmotor commandand the ensuingmovement depends on thed...
Adaptation to novel dynamics requires learning a motor memory, or a new pattern of predictive feedfo...
Wenderoth N, Weigelt M. Visual cues influence motor coordination: behavioral results and potential n...
Skillful object manipulation requires learning the dynamics of objects, linking applied force to mot...
When we learn a novel task, the motor system needs to acquire both feedforward and feedback control....
Humans and other animals adapt motor commands to predictable disturbances within tens of trials in l...