AbstractTo use an object, we must be able to perceive the spatial relationship between the object's parts. The accepted view of how the brain coherently encodes an object is that some neurons in the frontal cortex employ an object-centered coordinate frame. A new computational model challenges this view, using the rich conceptual framework of neural basis functions
This paper sketches a hypothetical cortical architecture for visual 3D object recognition based on...
The visual brain faces the difficult task of reconstructing a three-dimensional (3D) world from two-...
Over the past 40 years, neurobiology and computational neuroscience has proved that deeper understan...
Mounting evidence suggests that 'core object recognition,' the ability to rapidly recognize objects ...
Objects in motion activate multiple cortical regions in every lobe of the human brain. Do these regi...
What is the ‘neural representation’ of an object? There is no single answer to this question. Depend...
Mounting evidence suggests that ‘core object recognition,’ the ability to rapidly recognize objects ...
We present a neural model that can perform eye movements to a particular side of an object regardles...
Significant progress has been made in understanding vision by combining computational and neuroscien...
Abstract Knowledge of the brain has much advanced since the concept of the neuron doctrine developed...
We present neural network simulations of how the visual cortex may segment objects and bind attribut...
This paper sketches several aspects of a hypothetical cortical architecture for visual object recogn...
Based on cognitive functionalities in human vision processing, we propose a computational cognitive ...
In this paper we discuss the biological plausibility of the object recognition system described in d...
I surveyed work on visual object recognition and perception. In animals, vision has been studied mai...
This paper sketches a hypothetical cortical architecture for visual 3D object recognition based on...
The visual brain faces the difficult task of reconstructing a three-dimensional (3D) world from two-...
Over the past 40 years, neurobiology and computational neuroscience has proved that deeper understan...
Mounting evidence suggests that 'core object recognition,' the ability to rapidly recognize objects ...
Objects in motion activate multiple cortical regions in every lobe of the human brain. Do these regi...
What is the ‘neural representation’ of an object? There is no single answer to this question. Depend...
Mounting evidence suggests that ‘core object recognition,’ the ability to rapidly recognize objects ...
We present a neural model that can perform eye movements to a particular side of an object regardles...
Significant progress has been made in understanding vision by combining computational and neuroscien...
Abstract Knowledge of the brain has much advanced since the concept of the neuron doctrine developed...
We present neural network simulations of how the visual cortex may segment objects and bind attribut...
This paper sketches several aspects of a hypothetical cortical architecture for visual object recogn...
Based on cognitive functionalities in human vision processing, we propose a computational cognitive ...
In this paper we discuss the biological plausibility of the object recognition system described in d...
I surveyed work on visual object recognition and perception. In animals, vision has been studied mai...
This paper sketches a hypothetical cortical architecture for visual 3D object recognition based on...
The visual brain faces the difficult task of reconstructing a three-dimensional (3D) world from two-...
Over the past 40 years, neurobiology and computational neuroscience has proved that deeper understan...