Over successive stages, the ventral visual system develops neurons that respond with view, size and position invariance to objects including faces. A major challenge is to explain how invariant representations of individual objects could develop given visual input from environments containing multiple objects. Here we show that the neurons in a 1-layer competitive network learn to represent combinations of three objects simultaneously present during training if the number of objects in the training set is low (e.g. 4), to represent combinations of two objects as the number of objects is increased to for e.g. 10, and to represent individual objects as the number of objects in the training set is increased further to for e.g. 20. We next show...
AbstractWe show in a 4-layer competitive neuronal network that continuous transformation learning, w...
The effects of cluttered environments are investigated on the performance of a hierarchical multilay...
To form view-invariant representations of objects, neurons in the inferior temporal cortex may assoc...
Over successive stages, the ventral visual system develops neurons that respond with view, size and ...
Over successive stages, the visual system develops neurons that respond with view, size and position...
The operation of a hierarchical competitive network model (VisNet) of invariance learning in the vis...
Individual cells that respond preferentially to particular objects have been found in the ventral vi...
We show that spatial continuity can enable a network to learn translation invariant representations ...
We show in a unifying computational approach that representations of spatial scenes can be formed by...
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...
We show that spatial continuity can enable a network to learn translation invariant representations ...
We show in a 4-layer competitive neuronal network that continuous transformation learning, which use...
On one hand, the visual system has the ability to differentiate between very similar objects. On th...
AbstractWe show in a 4-layer competitive neuronal network that continuous transformation learning, w...
The effects of cluttered environments are investigated on the performance of a hierarchical multilay...
To form view-invariant representations of objects, neurons in the inferior temporal cortex may assoc...
Over successive stages, the ventral visual system develops neurons that respond with view, size and ...
Over successive stages, the visual system develops neurons that respond with view, size and position...
The operation of a hierarchical competitive network model (VisNet) of invariance learning in the vis...
Individual cells that respond preferentially to particular objects have been found in the ventral vi...
We show that spatial continuity can enable a network to learn translation invariant representations ...
We show in a unifying computational approach that representations of spatial scenes can be formed by...
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...
We show that spatial continuity can enable a network to learn translation invariant representations ...
We show in a 4-layer competitive neuronal network that continuous transformation learning, which use...
On one hand, the visual system has the ability to differentiate between very similar objects. On th...
AbstractWe show in a 4-layer competitive neuronal network that continuous transformation learning, w...
The effects of cluttered environments are investigated on the performance of a hierarchical multilay...
To form view-invariant representations of objects, neurons in the inferior temporal cortex may assoc...