The execution of a fast aimed movement takes less time when it is performed in isolation than when it is followed by a movement to a second target. The most recent explanation of this so-called one-target advantage (OTA) is the movement integration hypothesis. The first movement is slowed down to enable a neuromuscular integration of the first and second movements so that a presumably smooth transition between the two movements can take place. The present study shows that the time increase underlying the OTA does not happen just before the transition takes place, but is located in the initial part of the first movement element of the two-tap sequence. It is discussed how such a temporal occurrence relates to the transition of the first move...
The spatial and temporal aspects of movement variability have typically been studied separately. As ...
In this study we present evidence that two independent regulatory mechanisms, governing when and whe...
Abstract In goal-directed behavior, individuals are often required to plan and execute a movement wi...
The execution of a fast aimed movement takes less time when it is performed in isolation than when i...
Rapid aimed hand movements have been shown to be executed faster when the hand stops on a target th...
Movement times to the first target in a 2-target sequence are typically slower than in 1-target aimi...
A series of 8 experiments examined the phenomenon that a rapid aimed hand movement is executed faste...
The one-target advantage refers to the fact that a rapid aimed hand movement is executed faster when...
Movement times to a single target are typically shorter compared to when movement to a second target...
It is well reported that movement times to the first target in a two-target sequence are slower than...
A pointing movement is executed faster when a subject is allowed to stop at the first target than wh...
When moving from a starting position to a single target, movement time is faster than when you must ...
<div><p>The spatial and temporal aspects of movement variability have typically been studied separat...
The spatial and temporal aspects of movement variability have typically been studied separately. As ...
In this study we present evidence that two independent regulatory mechanisms, governing when and whe...
Abstract In goal-directed behavior, individuals are often required to plan and execute a movement wi...
The execution of a fast aimed movement takes less time when it is performed in isolation than when i...
Rapid aimed hand movements have been shown to be executed faster when the hand stops on a target th...
Movement times to the first target in a 2-target sequence are typically slower than in 1-target aimi...
A series of 8 experiments examined the phenomenon that a rapid aimed hand movement is executed faste...
The one-target advantage refers to the fact that a rapid aimed hand movement is executed faster when...
Movement times to a single target are typically shorter compared to when movement to a second target...
It is well reported that movement times to the first target in a two-target sequence are slower than...
A pointing movement is executed faster when a subject is allowed to stop at the first target than wh...
When moving from a starting position to a single target, movement time is faster than when you must ...
<div><p>The spatial and temporal aspects of movement variability have typically been studied separat...
The spatial and temporal aspects of movement variability have typically been studied separately. As ...
In this study we present evidence that two independent regulatory mechanisms, governing when and whe...
Abstract In goal-directed behavior, individuals are often required to plan and execute a movement wi...