AbstractWhether cognitive representations are better conceived as language-based, symbolic representations or perceptually related, analog representations is a subject of debate. If cognitive processes parallel perceptual processes, then fundamental psychophysical laws should hold for each. To test this, we analyzed both behavioral and neuronal representations of numerosity in the prefrontal cortex of rhesus monkeys. The data were best described by a nonlinearly compressed scaling of numerical information, as postulated by the Weber-Fechner law or Stevens' law for psychophysical/sensory magnitudes. This nonlinear compression was observed on the neural level during the acquisition phase of the task and maintained through the memory phase wit...
In most natural decision contexts, the process of selecting among competing actions takes place in t...
AbstractNumber, like color or movement, is a basic property of the environment. Recently, single neu...
peer reviewedHumans can effortlessly abstract numerical information from various codes and contexts....
AbstractWhether cognitive representations are better conceived as language-based, symbolic represent...
AbstractWhether the neuronal encoding of number is linear or logarithmic divides cognitive neuroscie...
AbstractFollowing a recent report that monkey prefrontal cortex contains cells that represent number...
SummaryPrefrontal cortex (PFC) and posterior parietal cortex are key brain areas for magnitude repre...
SummaryFunctional neuroimaging studies show that perceptual judgments about time and space activate ...
Abstract Humans share with nonhuman animals a quantification system for representing the number of i...
Ever since the discovery of the ‘number neurons’, the neural representation of quantity in the brain...
Both animal and human studies on numerosity have shown the importance of the parietal cortex for num...
Higher cognition encompasses advanced mental processes that enable complex thinking, decision-making...
It has been long proposed that the brain should perform computation efficiently to increase the fitn...
Abstract: Neuroclassicism is the view that cognition is computation and that core mental processes, ...
It has been long proposed that the brain should perform computation efficiently to increase the fitn...
In most natural decision contexts, the process of selecting among competing actions takes place in t...
AbstractNumber, like color or movement, is a basic property of the environment. Recently, single neu...
peer reviewedHumans can effortlessly abstract numerical information from various codes and contexts....
AbstractWhether cognitive representations are better conceived as language-based, symbolic represent...
AbstractWhether the neuronal encoding of number is linear or logarithmic divides cognitive neuroscie...
AbstractFollowing a recent report that monkey prefrontal cortex contains cells that represent number...
SummaryPrefrontal cortex (PFC) and posterior parietal cortex are key brain areas for magnitude repre...
SummaryFunctional neuroimaging studies show that perceptual judgments about time and space activate ...
Abstract Humans share with nonhuman animals a quantification system for representing the number of i...
Ever since the discovery of the ‘number neurons’, the neural representation of quantity in the brain...
Both animal and human studies on numerosity have shown the importance of the parietal cortex for num...
Higher cognition encompasses advanced mental processes that enable complex thinking, decision-making...
It has been long proposed that the brain should perform computation efficiently to increase the fitn...
Abstract: Neuroclassicism is the view that cognition is computation and that core mental processes, ...
It has been long proposed that the brain should perform computation efficiently to increase the fitn...
In most natural decision contexts, the process of selecting among competing actions takes place in t...
AbstractNumber, like color or movement, is a basic property of the environment. Recently, single neu...
peer reviewedHumans can effortlessly abstract numerical information from various codes and contexts....