Human sensorimotor control exhibits remarkable speed and accuracy, as celebrated in Fitts' law for reaching. Much less studied is how this is possible despite being implemented by neurons and muscle components with severe speed-accuracy tradeoffs (SATs). Here we develop a theory that connects the SATs at the system and hardware levels, and use it to explain Fitts' law for reaching and related laws. These results show that diversity between hardware components can be exploited to achieve both fast and accurate control performance using slow or inaccurate hardware. Such “diversity sweet spots'' (DSSs) are ubiquitous in biology and technology, and explain why large heterogeneities exist in biological and technical components and how both engin...
An intrinsic property of human motor behaviour is a trade-off between speed and accuracy. This is cl...
International audienceTarget clicking having proved an indispensable building block of interface des...
For decisions made under time pressure, effective decision making based on uncertain or ambiguous ev...
Human sensorimotor control exhibits remarkable speed and accuracy, as celebrated in Fitts' law for r...
Nervous systems sense, communicate, compute, and actuate movement using distributed components with ...
Fitts' law describes the fundamental trade-off between movement accuracy and speed: It states that t...
The tradeoff between speed and accuracy of human movements has been exploited from many different pe...
There are two prominent speed accuracy tradeoff relationships; Fitts’ Law and Schmidt’s Law. The Fit...
The lawful continuous linear relation between movement time and task difficulty (i.e., index of diff...
International audienceThe lawful continuous linear relation between movement time and task difficult...
It is proposed that the speed of aiming movements is the optimized outcome of a stochastic, oscillat...
Fitts' Law describes the speed-accuracy trade-off of human movements, and it is an elegant strategy ...
Fitts' Law describes the speed-accuracy trade-off of human movements, and it is an elegant strategy ...
Faster movements are typically more variable - a speed-accuracy tradeoff known as Fitts' law. Are mo...
<div><p>Fitts’ Law describes the speed-accuracy trade-off of human movements, and it is an elegant s...
An intrinsic property of human motor behaviour is a trade-off between speed and accuracy. This is cl...
International audienceTarget clicking having proved an indispensable building block of interface des...
For decisions made under time pressure, effective decision making based on uncertain or ambiguous ev...
Human sensorimotor control exhibits remarkable speed and accuracy, as celebrated in Fitts' law for r...
Nervous systems sense, communicate, compute, and actuate movement using distributed components with ...
Fitts' law describes the fundamental trade-off between movement accuracy and speed: It states that t...
The tradeoff between speed and accuracy of human movements has been exploited from many different pe...
There are two prominent speed accuracy tradeoff relationships; Fitts’ Law and Schmidt’s Law. The Fit...
The lawful continuous linear relation between movement time and task difficulty (i.e., index of diff...
International audienceThe lawful continuous linear relation between movement time and task difficult...
It is proposed that the speed of aiming movements is the optimized outcome of a stochastic, oscillat...
Fitts' Law describes the speed-accuracy trade-off of human movements, and it is an elegant strategy ...
Fitts' Law describes the speed-accuracy trade-off of human movements, and it is an elegant strategy ...
Faster movements are typically more variable - a speed-accuracy tradeoff known as Fitts' law. Are mo...
<div><p>Fitts’ Law describes the speed-accuracy trade-off of human movements, and it is an elegant s...
An intrinsic property of human motor behaviour is a trade-off between speed and accuracy. This is cl...
International audienceTarget clicking having proved an indispensable building block of interface des...
For decisions made under time pressure, effective decision making based on uncertain or ambiguous ev...