The origin of variability in goal-directed movements is not well understood. Variability can originate from several neural processes such as target localization, movement planning, and movement execution. Here we examine variability resulting from noise in movement execution. In several experiments, subjects moved their unseen hand to visual targets, under conditions which were designed to minimize the variability expected from localization and planning processes. We tested short movements in 32 directions in a center-out reaching task. The variability in the movement endpoints and in the initial movement direction varied systematically with the movement direction, with some directions having up to twice the variability of others. In a seco...
A number of studies have analyzed various indices of the final position variability in order to prov...
Even well practiced movements cannot be repeated without variability. This variability is thought to...
Motor errors can have both bias and noise components. Bias can be compensated for by adaptation and,...
SummaryMovements are universally, sometimes frustratingly, variable. When such variability causes er...
The ability to make accurate movements in response to environmental stimuli is integral to the survi...
Item does not contain fulltextFaster movements are typically more variable, known as Fitts’ law. Are...
Our movements are variable, but the origin of this variability is poorly understood. We examined the...
The movements that we make are variable. It is well established that at least a part of this variabi...
Neural signals are corrupted by noise and this places limits on information processing. We review th...
In motor learning, our brain uses movement errors to adjust planning of future movements. This proce...
Whether the CNS minimizes variability or effort in planning arm movements can be tested by measuring...
SummaryIn motor learning, our brain uses movement errors to adjust planning of future movements. Thi...
Faster movements are typically more variable - a speed-accuracy tradeoff known as Fitts' law. Are mo...
In this article both movement errors and successful movements are considered to be the product of va...
Motor variability plays an important role in motor learning, although the exact mechanisms of how va...
A number of studies have analyzed various indices of the final position variability in order to prov...
Even well practiced movements cannot be repeated without variability. This variability is thought to...
Motor errors can have both bias and noise components. Bias can be compensated for by adaptation and,...
SummaryMovements are universally, sometimes frustratingly, variable. When such variability causes er...
The ability to make accurate movements in response to environmental stimuli is integral to the survi...
Item does not contain fulltextFaster movements are typically more variable, known as Fitts’ law. Are...
Our movements are variable, but the origin of this variability is poorly understood. We examined the...
The movements that we make are variable. It is well established that at least a part of this variabi...
Neural signals are corrupted by noise and this places limits on information processing. We review th...
In motor learning, our brain uses movement errors to adjust planning of future movements. This proce...
Whether the CNS minimizes variability or effort in planning arm movements can be tested by measuring...
SummaryIn motor learning, our brain uses movement errors to adjust planning of future movements. Thi...
Faster movements are typically more variable - a speed-accuracy tradeoff known as Fitts' law. Are mo...
In this article both movement errors and successful movements are considered to be the product of va...
Motor variability plays an important role in motor learning, although the exact mechanisms of how va...
A number of studies have analyzed various indices of the final position variability in order to prov...
Even well practiced movements cannot be repeated without variability. This variability is thought to...
Motor errors can have both bias and noise components. Bias can be compensated for by adaptation and,...