We can adjust an on-going movement to a change in the target’s position with a latency of about 100 ms, about half of the time that is needed to start a new movement in response to the same change in target position (reaction time). In this opinion paper, we discuss factors that could explain the difference in latency between initiating and adjusting a movement in response to target displacements. We consider the latency to be the sum of the durations of various stages in information processing. Many of these stages are identical for adjusting and initiating a movement, but for movement initiation it is essential to detect that something has changed in order to respond, whereas adjustments to movements can be based on updated position infor...
textabstractNeurons in different cortical visual areas respond to different visual attributes with d...
Abstract: Neural activity in the middle temporal area (MT) is strongly correlated with motion percep...
Spatial and metrical parameters of the eye and arm movements made by human subjects (N= 7) in respon...
We can adjust an on-going movement to a change in the target’s position with a latency of about 100 ...
Contains fulltext : 156475.pdf (publisher's version ) (Closed access)We can adjust...
Contains fulltext : 156476.pdf (publisher's version ) (Closed access)We begin our ...
This study set out to determine whether the fastest online hand movement corrections are only respon...
According to literature, Anticipatory Postural Adjustments (APAs) are programmed according to speed ...
People adjust their on-going movements to changes in the environment. It takes about 100 ms to respo...
When studying online movement adjustments, one of the interesting parameters is their latency. We se...
Item does not contain fulltextFaster movements are typically more variable, known as Fitts’ law. Are...
The target article (Smeets, Oostwoud Wijdenes, & Brenner, 2016) proposes that short latency response...
To study the strategy in responding to target displacements during fast goal-directed arm movements,...
To successfully move our hand to a target, we must consider how to get there without hitting surroun...
Contains fulltext : 234095.pdf (Publisher’s version ) (Closed access)Faster moveme...
textabstractNeurons in different cortical visual areas respond to different visual attributes with d...
Abstract: Neural activity in the middle temporal area (MT) is strongly correlated with motion percep...
Spatial and metrical parameters of the eye and arm movements made by human subjects (N= 7) in respon...
We can adjust an on-going movement to a change in the target’s position with a latency of about 100 ...
Contains fulltext : 156475.pdf (publisher's version ) (Closed access)We can adjust...
Contains fulltext : 156476.pdf (publisher's version ) (Closed access)We begin our ...
This study set out to determine whether the fastest online hand movement corrections are only respon...
According to literature, Anticipatory Postural Adjustments (APAs) are programmed according to speed ...
People adjust their on-going movements to changes in the environment. It takes about 100 ms to respo...
When studying online movement adjustments, one of the interesting parameters is their latency. We se...
Item does not contain fulltextFaster movements are typically more variable, known as Fitts’ law. Are...
The target article (Smeets, Oostwoud Wijdenes, & Brenner, 2016) proposes that short latency response...
To study the strategy in responding to target displacements during fast goal-directed arm movements,...
To successfully move our hand to a target, we must consider how to get there without hitting surroun...
Contains fulltext : 234095.pdf (Publisher’s version ) (Closed access)Faster moveme...
textabstractNeurons in different cortical visual areas respond to different visual attributes with d...
Abstract: Neural activity in the middle temporal area (MT) is strongly correlated with motion percep...
Spatial and metrical parameters of the eye and arm movements made by human subjects (N= 7) in respon...