The operation of a hierarchical competitive network model (VisNet) of invariance learning in the visual system is investigated to determine how this class of architecture can solve problems that require the spatial binding of features. First, we show that VisNet neurons can be trained to provide transform-invariant discriminative responses to stimuli which are composed of the same basic alphabet of features, where no single stimulus contains a unique feature not shared by any other stimulus. The investigation shows that the network can discriminate stimuli consisting of sets of features which are subsets or supersets of each other. Second, a key feature-binding issue we address is how invariant representations of low-order combinations of f...
Autonomous learning is demonstrated by living beings that learn visual invariances during their visu...
On one hand, the visual system has the ability to differentiate between very similar objects. On th...
To form view-invariant representations of objects, neurons in the inferior temporal cortex may assoc...
Over successive stages, the visual system develops neurons that respond with view, size and position...
Over successive stages, the ventral visual system develops neurons that respond with view, size and ...
The effects of cluttered environments are investigated on the performance of a hierarchical multilay...
How are invariant representations of objects formed in the visual cortex? We describe a neurophysiol...
This work is aimed at understanding and modelling the perceptual stability mechanisms of human visu...
How are invariant representations of objects formed in the visual cortex? We describe a neurophysiol...
The effects of cluttered environments are investigated on the performance of a hierarchical multilay...
It has been proposed that invariant pattern recognition might be implemented using a learning rule t...
Individual cells that respond preferentially to particular objects have been found in the ventral vi...
Neurophysiological evidence for invariant representations of objects and faces in the primate inferi...
Visual object recognition is remarkably accurate and robust, yet its neurophysiological underpinning...
than artificial systems. During the last years several basic principleswere derived fromneurophysiol...
Autonomous learning is demonstrated by living beings that learn visual invariances during their visu...
On one hand, the visual system has the ability to differentiate between very similar objects. On th...
To form view-invariant representations of objects, neurons in the inferior temporal cortex may assoc...
Over successive stages, the visual system develops neurons that respond with view, size and position...
Over successive stages, the ventral visual system develops neurons that respond with view, size and ...
The effects of cluttered environments are investigated on the performance of a hierarchical multilay...
How are invariant representations of objects formed in the visual cortex? We describe a neurophysiol...
This work is aimed at understanding and modelling the perceptual stability mechanisms of human visu...
How are invariant representations of objects formed in the visual cortex? We describe a neurophysiol...
The effects of cluttered environments are investigated on the performance of a hierarchical multilay...
It has been proposed that invariant pattern recognition might be implemented using a learning rule t...
Individual cells that respond preferentially to particular objects have been found in the ventral vi...
Neurophysiological evidence for invariant representations of objects and faces in the primate inferi...
Visual object recognition is remarkably accurate and robust, yet its neurophysiological underpinning...
than artificial systems. During the last years several basic principleswere derived fromneurophysiol...
Autonomous learning is demonstrated by living beings that learn visual invariances during their visu...
On one hand, the visual system has the ability to differentiate between very similar objects. On th...
To form view-invariant representations of objects, neurons in the inferior temporal cortex may assoc...