Continuous dimensions, such as time, space, and numerosity, have been suggested to be subserved by common neurocognitive mechanisms. Neuroimaging studies that have investigated either one or two dimensions simultaneously have consistently identified neural correlates in the parietal cortex of the brain. However, the degree of neural overlap across several dimensions has yet to be established, and it remains an open question whether a potential overlap can be conceptualized as a neurocognitive magnitude processing system. The current functional resonance imaging (fMRI) study investigated the potential neurocognitive overlap across three dimensions. A sample of adults (N = 24) performed three different magnitude processing tasks: a temporal d...
Whether the human brain is equipped with a special neural substrate for numbers, or rather with a co...
Many studies have suggested that the intraparietal sulcus (IPS), particularly in the dominant hemisp...
AbstractIs there a neural system dedicated to generic magnitude judgments? In this issue of Neuron, ...
Continuous dimensions, such as time, space, and numerosity, have been suggested to be subserved by c...
Human beings constantly process numerosity, space and duration to regulate and adapt their behaviour...
The human capability of abstraction enables us to appreciate and process completely different impres...
The development of sub-disciplines within cognitive neuroscience follows common sense categories suc...
Numerical and spatial magnitude processing have long been intimately associated, leading to the sugg...
<p>How are numerical and non-numerical magnitudes processed in the brain? Brain imaging research, pr...
Numerosity and duration processing have been modeled by a functional mechanism taking the form of an...
© 2018 The Author(s). Background: Recent research indicates that processing proportion magnitude is ...
Abstract Background Recent research indicates that processing proportion magnitude is associated wit...
Many studies have suggested that the intraparietal sulcus (IPS), particularly in the dominant hemisp...
Numbers are known to be processed along the left and right intraparietal sulcus. The present study i...
Many studies have suggested that the intraparietal sulcus (IPS), particularly in the dominant hemisp...
Whether the human brain is equipped with a special neural substrate for numbers, or rather with a co...
Many studies have suggested that the intraparietal sulcus (IPS), particularly in the dominant hemisp...
AbstractIs there a neural system dedicated to generic magnitude judgments? In this issue of Neuron, ...
Continuous dimensions, such as time, space, and numerosity, have been suggested to be subserved by c...
Human beings constantly process numerosity, space and duration to regulate and adapt their behaviour...
The human capability of abstraction enables us to appreciate and process completely different impres...
The development of sub-disciplines within cognitive neuroscience follows common sense categories suc...
Numerical and spatial magnitude processing have long been intimately associated, leading to the sugg...
<p>How are numerical and non-numerical magnitudes processed in the brain? Brain imaging research, pr...
Numerosity and duration processing have been modeled by a functional mechanism taking the form of an...
© 2018 The Author(s). Background: Recent research indicates that processing proportion magnitude is ...
Abstract Background Recent research indicates that processing proportion magnitude is associated wit...
Many studies have suggested that the intraparietal sulcus (IPS), particularly in the dominant hemisp...
Numbers are known to be processed along the left and right intraparietal sulcus. The present study i...
Many studies have suggested that the intraparietal sulcus (IPS), particularly in the dominant hemisp...
Whether the human brain is equipped with a special neural substrate for numbers, or rather with a co...
Many studies have suggested that the intraparietal sulcus (IPS), particularly in the dominant hemisp...
AbstractIs there a neural system dedicated to generic magnitude judgments? In this issue of Neuron, ...