Top-down, feedback, influences are known to have significant effects on visual information processing. Such influences are also likely to affect perceptual learning. This article employs a computational model of the cortical region interactions underlying visual perception to investigate possible influences of top-down information on learning. The results suggest that feedback could bias the way in which perceptual stimuli are categorised and could also facilitate the learning of sub-ordinate level representations suitable for object identification and perceptual expertise
The classical view that perceptual learning is highly specific to the stimulus properties used durin...
We investigated the role of informative feedback on the neural correlates of perceptual learning in ...
AbstractWe describe a model of invariant visual object recognition in the brain that incorporates fe...
Feedback connections are a prominent feature of cortical anatomy and are likely to have a significan...
We model the putative neuronal and synaptic mechanisms involved in learning a visual categorization ...
Feedback connections are a prominent feature of cortical anatomy and are likely to have a significan...
AbstractAttention acts, through cortical feedback pathways, to enhance the response of cells encodin...
The empirical work reported in the current thesis set out to explore the relationship between percep...
A long standing debate in cognitive neuroscience has been the extent to which perceptual processing ...
Attention acts, through cortical feedback pathways, to enhance the response of cells encoding expect...
All cortical and thalamic levels of sensory processing are subject to powerful top-down influences, ...
AbstractWe investigated the role of informative feedback on the neural correlates of perceptual lear...
AbstractPerceptual learning is a lifelong process. We begin by encoding information about the basic ...
The brain mechanisms underlying visual object categorization remain unclear. In this issue of Neuron...
Recent theories of visual perception propose that feedforward cortical processing enables rapid and ...
The classical view that perceptual learning is highly specific to the stimulus properties used durin...
We investigated the role of informative feedback on the neural correlates of perceptual learning in ...
AbstractWe describe a model of invariant visual object recognition in the brain that incorporates fe...
Feedback connections are a prominent feature of cortical anatomy and are likely to have a significan...
We model the putative neuronal and synaptic mechanisms involved in learning a visual categorization ...
Feedback connections are a prominent feature of cortical anatomy and are likely to have a significan...
AbstractAttention acts, through cortical feedback pathways, to enhance the response of cells encodin...
The empirical work reported in the current thesis set out to explore the relationship between percep...
A long standing debate in cognitive neuroscience has been the extent to which perceptual processing ...
Attention acts, through cortical feedback pathways, to enhance the response of cells encoding expect...
All cortical and thalamic levels of sensory processing are subject to powerful top-down influences, ...
AbstractWe investigated the role of informative feedback on the neural correlates of perceptual lear...
AbstractPerceptual learning is a lifelong process. We begin by encoding information about the basic ...
The brain mechanisms underlying visual object categorization remain unclear. In this issue of Neuron...
Recent theories of visual perception propose that feedforward cortical processing enables rapid and ...
The classical view that perceptual learning is highly specific to the stimulus properties used durin...
We investigated the role of informative feedback on the neural correlates of perceptual learning in ...
AbstractWe describe a model of invariant visual object recognition in the brain that incorporates fe...