A simulated automobile driving environment was used to assess the validity of Fitts' Law under dual-task conditions. An aimed hand movement task was used as the Fitts task representative of reaching for controls on an instrument panel. The task required activation of one of four touch-sensitive response plates upon recognition of an auditory stimulus. Movement difficulty was manipulated by varying target location and size. Target location was examined at four levels corresponding to position in a 2 × 2 array. Distances of the targets from the two-o'clock position on the steering wheel ranged from 27 cm to 53 cm. The target plates were square and measured 1.27 cm (1/2 inch) or 0.64 cm (1/4 inch) along the side. The eight combinations of move...
International audienceThe lawful continuous linear relation between movement time and task difficult...
International audienceBackground: The inverse relationship between movement speed and accuracy in go...
The lawful continuous linear relation between movement time and task difficulty (i.e., index of diff...
AbstractExpressed by Fitts in 1954, there is an inverse relationship between movement time and targe...
Fitts' Law is a powerful model of human movements that predicts the time that it takes to move to ta...
Most research based on Fitts' law define a log-linear relationship between temporal and spatial accu...
The analytical results for several models are given: a first order model where it is assumed that th...
The Index of Difficulty value (ID) derived from Fitts’ Law’s speed-accuracy trade-off is commonly us...
Fitts' (1954) classic theorem asserts that the movement time (MT) of voluntary reaches is determined...
This study provided a detailed investigation of perceived difficulty (PD) in a Fitts task. The Fitts...
Reaching to interact with an object requires a compromise between the speed of the limb movement and...
Human performance in selection tasks is frequently described by Fitts' law, which states that the av...
Fitts' law is an empirical rule of thumb which predicts the time it takes people, under time pressur...
International audienceA traditional continuous Fitts' task may be described as a one-dimensional osc...
Recent technological developments have made viable a man-machine interface heavily dependent on grap...
International audienceThe lawful continuous linear relation between movement time and task difficult...
International audienceBackground: The inverse relationship between movement speed and accuracy in go...
The lawful continuous linear relation between movement time and task difficulty (i.e., index of diff...
AbstractExpressed by Fitts in 1954, there is an inverse relationship between movement time and targe...
Fitts' Law is a powerful model of human movements that predicts the time that it takes to move to ta...
Most research based on Fitts' law define a log-linear relationship between temporal and spatial accu...
The analytical results for several models are given: a first order model where it is assumed that th...
The Index of Difficulty value (ID) derived from Fitts’ Law’s speed-accuracy trade-off is commonly us...
Fitts' (1954) classic theorem asserts that the movement time (MT) of voluntary reaches is determined...
This study provided a detailed investigation of perceived difficulty (PD) in a Fitts task. The Fitts...
Reaching to interact with an object requires a compromise between the speed of the limb movement and...
Human performance in selection tasks is frequently described by Fitts' law, which states that the av...
Fitts' law is an empirical rule of thumb which predicts the time it takes people, under time pressur...
International audienceA traditional continuous Fitts' task may be described as a one-dimensional osc...
Recent technological developments have made viable a man-machine interface heavily dependent on grap...
International audienceThe lawful continuous linear relation between movement time and task difficult...
International audienceBackground: The inverse relationship between movement speed and accuracy in go...
The lawful continuous linear relation between movement time and task difficulty (i.e., index of diff...