Human brain is an information processing system, which is perfectly designed to deal with complex visual scenes. We propose a novel architecture for object and place recognition, taking inspiration from the primate ventral visual stream (areas V1-IT). The functionality of the system is based entirely on recent neurophysiological findings and is implemented by means of biologically plausible information processing mechanisms. We illustrate the ability of the system to recognise multiple objects within various positions in the retinal image. During the experiments, we show that the network can learn to recognise the position of object, in which it appears most frequently. Simulation results are consistent with the animal experiments. The a...
In primates, visual object information is processed through a hierarchy of cortico-cortical stages t...
Primates can easily identify visual objects over large changes in retinal position--a property commo...
To interact with objects in complex environments, we must know what they are and where they are in s...
Over the past 40 years, neurobiology and computational neuroscience has proved that deeper understan...
This chapter reviews experimental work in macaque monkeys concerning the processing of visual inform...
We present a biologically plausible model of an attentional mechanism for forming position- and scal...
The inferior temporal cortex (IT) of the monkey has long been known to play an essential role in vis...
Mounting evidence suggests that ‘core object recognition,’ the ability to rapidly recognize objects ...
We present a system for object recognition that is largely inspired by physiologically identified pr...
Decades of research have shed light on some of the computational elements that enable the extraordin...
Neurophysiological evidence is described, showing that some neurons in the macaque temporal cortical...
Mounting evidence suggests that 'core object recognition,' the ability to rapidly recognize objects ...
This dissertation describes recent theoretical and experimental efforts to understand the areas of t...
Abstract—Within the framework of a functional model of areas of the primate brain involved in visuom...
Neural responses in the primate ventral visual system become more complex in the later stages of the...
In primates, visual object information is processed through a hierarchy of cortico-cortical stages t...
Primates can easily identify visual objects over large changes in retinal position--a property commo...
To interact with objects in complex environments, we must know what they are and where they are in s...
Over the past 40 years, neurobiology and computational neuroscience has proved that deeper understan...
This chapter reviews experimental work in macaque monkeys concerning the processing of visual inform...
We present a biologically plausible model of an attentional mechanism for forming position- and scal...
The inferior temporal cortex (IT) of the monkey has long been known to play an essential role in vis...
Mounting evidence suggests that ‘core object recognition,’ the ability to rapidly recognize objects ...
We present a system for object recognition that is largely inspired by physiologically identified pr...
Decades of research have shed light on some of the computational elements that enable the extraordin...
Neurophysiological evidence is described, showing that some neurons in the macaque temporal cortical...
Mounting evidence suggests that 'core object recognition,' the ability to rapidly recognize objects ...
This dissertation describes recent theoretical and experimental efforts to understand the areas of t...
Abstract—Within the framework of a functional model of areas of the primate brain involved in visuom...
Neural responses in the primate ventral visual system become more complex in the later stages of the...
In primates, visual object information is processed through a hierarchy of cortico-cortical stages t...
Primates can easily identify visual objects over large changes in retinal position--a property commo...
To interact with objects in complex environments, we must know what they are and where they are in s...