Over successive stages, the visual system develops neurons that respond with view, size and position invariance to objects or faces. A number of computational models have been developed to explain how transform-invariant cells could develop in the visual system. However, a major limitation of computer modelling studies to date has been that the visual stimuli are typically presented one at a time to the network during training. In this paper, we investigate how vision models may self-organize when multiple stimuli are presented together within each visual image during training. We show that as the number of independent stimuli grows large enough, standard competitive neural networks can suddenly switch from learning representations of the m...
In order to perform object recognition, it is necessary to form perceptual representations that are ...
We show in a unifying computational approach that representations of spatial scenes can be formed by...
The ventral stream of the human visual system is credited for processing object recognition tasks. T...
Over successive stages, the ventral visual system develops neurons that respond with view, size and ...
Individual cells that respond preferentially to particular objects have been found in the ventral vi...
The operation of a hierarchical competitive network model (VisNet) of invariance learning in the vis...
To form view-invariant representations of objects, neurons in the inferior temporal cortex may assoc...
This paper investigates how a neural network model of the ventral visual pathway, VisNet, can form s...
Neural responses in the primate ventral visual system become more complex in the later stages of the...
This work is aimed at understanding and modelling the perceptual stability mechanisms of human visu...
We show that spatial continuity can enable a network to learn translation invariant representations ...
We show that spatial continuity can enable a network to learn translation invariant representations ...
This thesis aims to understand the learning mechanisms which underpin the process of visual object r...
How are invariant representations of objects formed in the visual cortex? We describe a neurophysiol...
How are invariant representations of objects formed in the visual cortex? We describe a neurophysiol...
In order to perform object recognition, it is necessary to form perceptual representations that are ...
We show in a unifying computational approach that representations of spatial scenes can be formed by...
The ventral stream of the human visual system is credited for processing object recognition tasks. T...
Over successive stages, the ventral visual system develops neurons that respond with view, size and ...
Individual cells that respond preferentially to particular objects have been found in the ventral vi...
The operation of a hierarchical competitive network model (VisNet) of invariance learning in the vis...
To form view-invariant representations of objects, neurons in the inferior temporal cortex may assoc...
This paper investigates how a neural network model of the ventral visual pathway, VisNet, can form s...
Neural responses in the primate ventral visual system become more complex in the later stages of the...
This work is aimed at understanding and modelling the perceptual stability mechanisms of human visu...
We show that spatial continuity can enable a network to learn translation invariant representations ...
We show that spatial continuity can enable a network to learn translation invariant representations ...
This thesis aims to understand the learning mechanisms which underpin the process of visual object r...
How are invariant representations of objects formed in the visual cortex? We describe a neurophysiol...
How are invariant representations of objects formed in the visual cortex? We describe a neurophysiol...
In order to perform object recognition, it is necessary to form perceptual representations that are ...
We show in a unifying computational approach that representations of spatial scenes can be formed by...
The ventral stream of the human visual system is credited for processing object recognition tasks. T...