Sensory and motor cortices each contain multiple topographic maps with the structure of sensory organs (such as the retina or cochlea) mapped onto the cortical surface. These sensory maps are hierarchically organized. For example, visual field maps contain neurons that represent increasingly large parts of visual space with increasingly complex responses1. Some visual neurons respond to stimuli with a particular numerosity-the number of objects in a set. We recently discovered a parietal topographic numerosity map in which neural numerosity preferences progress gradually across the cortical surface2, analogous to sensory maps. Following this analogy, we hypothesized that there may be multiple numerosity maps. Numerosity perception is implic...
Numerosity, the set size of a group of items, helps guide human and animals' behavior and decisions....
In our daily lives, we have to process information about all kinds of quantities such as the set siz...
Humans and many animals can distinguish between stimuli that differ in numerosity, the number of obj...
Sensory and motor cortices each contain multiple topographic maps with the structure of sensory orga...
Humans and many animals analyze sensory information to estimate quantities that guide behavior and d...
Numerosity, the set size of a group of items, is processed by the association cortex, but certain as...
Dedicated maps for cognitive quantities such as timing, size and numerosity support the view that to...
Numerosity, the set size of a group of items, helps guide behaviour and decisions. Non-symbolic nume...
Numbers appear everywhere in our daily life. Humans and animals share the ability to process non-sym...
A recent study showed that topographic field maps of complex cognitive functions, such as numerosity...
A recent study showed that topographic field maps of complex cognitive functions, such as numerosity...
As neural signals travel through the visual hierarchy, spatial precision decreases and specificity f...
As neural signals travel through the visual hierarchy, spatial precision decreases and specificity f...
Numerosity, the set size of a group of items, helps guide human and animals' behavior and decisions....
In our daily lives, we have to process information about all kinds of quantities such as the set siz...
Humans and many animals can distinguish between stimuli that differ in numerosity, the number of obj...
Sensory and motor cortices each contain multiple topographic maps with the structure of sensory orga...
Humans and many animals analyze sensory information to estimate quantities that guide behavior and d...
Numerosity, the set size of a group of items, is processed by the association cortex, but certain as...
Dedicated maps for cognitive quantities such as timing, size and numerosity support the view that to...
Numerosity, the set size of a group of items, helps guide behaviour and decisions. Non-symbolic nume...
Numbers appear everywhere in our daily life. Humans and animals share the ability to process non-sym...
A recent study showed that topographic field maps of complex cognitive functions, such as numerosity...
A recent study showed that topographic field maps of complex cognitive functions, such as numerosity...
As neural signals travel through the visual hierarchy, spatial precision decreases and specificity f...
As neural signals travel through the visual hierarchy, spatial precision decreases and specificity f...
Numerosity, the set size of a group of items, helps guide human and animals' behavior and decisions....
In our daily lives, we have to process information about all kinds of quantities such as the set siz...
Humans and many animals can distinguish between stimuli that differ in numerosity, the number of obj...