Item does not contain fulltextAccording to Fitts' law, there is speed-accuracy trade-off in a wide variety of discrete aiming movements. However, it is unknown whether the same law applies to cyclic aiming movements. In the present study, a comparison is made between discrete versus cyclic aiming movements. A group of 24 healthy participants made graphical pen movements in 12 different aiming tasks in which successive finger and wrist movements were emphasized, consecutively executed as discrete and cyclic movements and varying in three target widths. In the cyclic condition, aiming movements consisted of back-and-forth movements that were performed in immediate succession for 20 s. In the discrete condition, back-and-forth aiming movements...
Reaching to interact with an object requires a compromise between the speed of the limb movement and...
We tested a hypothesis that the classical relation between movement time and index of difficulty (ID...
Contains fulltext : 234095.pdf (Publisher’s version ) (Closed access)Faster moveme...
Item does not contain fulltextAccording to Fitts' law, there is speed-accuracy trade-off in a wide v...
According to Fitts' law, there is speed-accuracy trade-off in a wide variety of discrete aiming move...
According to Fitts' law, there is speed-accuracy trade-off in a wide variety of discrete aiming move...
International audienceThe lawful continuous linear relation between movement time and task difficult...
International audienceThe lawful continuous linear relation between movement time and task difficult...
The lawful continuous linear relation between movement time and task difficulty (i.e., index of diff...
<div><p>The lawful continuous linear relation between movement time and task difficulty (i.e., index...
In the present study, two different regimes of reciprocal graphic aiming movements, a cyclic and a d...
International audienceBackground: The inverse relationship between movement speed and accuracy in go...
Most research based on Fitts' law define a log-linear relationship between temporal and spatial accu...
Previous studies suggested that the advantage in speed accuracy trade-off of cyclic over discrete ai...
Reaching to interact with an object requires a compromise between the speed of the limb movement and...
Reaching to interact with an object requires a compromise between the speed of the limb movement and...
We tested a hypothesis that the classical relation between movement time and index of difficulty (ID...
Contains fulltext : 234095.pdf (Publisher’s version ) (Closed access)Faster moveme...
Item does not contain fulltextAccording to Fitts' law, there is speed-accuracy trade-off in a wide v...
According to Fitts' law, there is speed-accuracy trade-off in a wide variety of discrete aiming move...
According to Fitts' law, there is speed-accuracy trade-off in a wide variety of discrete aiming move...
International audienceThe lawful continuous linear relation between movement time and task difficult...
International audienceThe lawful continuous linear relation between movement time and task difficult...
The lawful continuous linear relation between movement time and task difficulty (i.e., index of diff...
<div><p>The lawful continuous linear relation between movement time and task difficulty (i.e., index...
In the present study, two different regimes of reciprocal graphic aiming movements, a cyclic and a d...
International audienceBackground: The inverse relationship between movement speed and accuracy in go...
Most research based on Fitts' law define a log-linear relationship between temporal and spatial accu...
Previous studies suggested that the advantage in speed accuracy trade-off of cyclic over discrete ai...
Reaching to interact with an object requires a compromise between the speed of the limb movement and...
Reaching to interact with an object requires a compromise between the speed of the limb movement and...
We tested a hypothesis that the classical relation between movement time and index of difficulty (ID...
Contains fulltext : 234095.pdf (Publisher’s version ) (Closed access)Faster moveme...