<p>Two basic trade-offs interact while our brain decides how to move our body. First, with the cost-benefit trade-off, the brain trades between the importance of moving faster toward a target that is more rewarding and the increased muscular cost resulting from a faster movement. Second, with the speed-accuracy trade-off, the brain trades between how accurate the movement needs to be and the time it takes to achieve such accuracy. So far, these two trade-offs have been well studied in isolation, despite their obvious interdependence. To overcome this limitation, we propose a new model that is able to simultaneously account for both trade-offs. The model assumes that the central nervous system maximizes the expected utility resulting from th...
Thesis (Ph.D.)--Wichita State University, College of Liberal Arts and Sciences, Dept. of PsychologyA...
International audienceTarget clicking having proved an indispensable building block of interface des...
Contains fulltext : 234095.pdf (Publisher’s version ) (Closed access)Faster moveme...
The tradeoff between speed and accuracy of human movements has been exploited from many different pe...
Fitts ’ Law describes the speed-accuracy trade-off of humanmovements, and it is an elegant strategy ...
Optimal control has been used as a technique to uncover mathematical principles which are observed r...
When deciding between alternative options, a rational agent chooses on the basis of the desirability...
<div><p>Fitts’ Law describes the speed-accuracy trade-off of human movements, and it is an elegant s...
Fitts' Law describes the speed-accuracy trade-off of human movements, and it is an elegant strategy ...
Import JabRef | WosArea Neurosciences and NeurologyInternational audienceThe time required to comple...
It is currently unclear whether the brain plans movement kinematics explicitly or whether movement p...
Although research has highlighted the importance of decisions when learning and performing motor act...
Fitts' Law describes the speed-accuracy trade-off of human movements, and it is an elegant strategy ...
For decisions made under time pressure, effective decision making based on uncertain or ambiguous ev...
The central nervous system plans human reaching movements with stereotypically smooth kinematic traj...
Thesis (Ph.D.)--Wichita State University, College of Liberal Arts and Sciences, Dept. of PsychologyA...
International audienceTarget clicking having proved an indispensable building block of interface des...
Contains fulltext : 234095.pdf (Publisher’s version ) (Closed access)Faster moveme...
The tradeoff between speed and accuracy of human movements has been exploited from many different pe...
Fitts ’ Law describes the speed-accuracy trade-off of humanmovements, and it is an elegant strategy ...
Optimal control has been used as a technique to uncover mathematical principles which are observed r...
When deciding between alternative options, a rational agent chooses on the basis of the desirability...
<div><p>Fitts’ Law describes the speed-accuracy trade-off of human movements, and it is an elegant s...
Fitts' Law describes the speed-accuracy trade-off of human movements, and it is an elegant strategy ...
Import JabRef | WosArea Neurosciences and NeurologyInternational audienceThe time required to comple...
It is currently unclear whether the brain plans movement kinematics explicitly or whether movement p...
Although research has highlighted the importance of decisions when learning and performing motor act...
Fitts' Law describes the speed-accuracy trade-off of human movements, and it is an elegant strategy ...
For decisions made under time pressure, effective decision making based on uncertain or ambiguous ev...
The central nervous system plans human reaching movements with stereotypically smooth kinematic traj...
Thesis (Ph.D.)--Wichita State University, College of Liberal Arts and Sciences, Dept. of PsychologyA...
International audienceTarget clicking having proved an indispensable building block of interface des...
Contains fulltext : 234095.pdf (Publisher’s version ) (Closed access)Faster moveme...