Olshausen and Field demonstrated that a learning algorithm that attempts to generate a sparse code for natural scenes develops a complete family of localised, oriented, bandpass receptive fields, similar to those of 'simple cells' in V1. This paper describes an algorithm which finds a sparse code for sequences of images that preserves information about the input. This algorithm when trained on natural video sequences develops bases representing the movement in particular directions with particular speeds, similar to the receptive fields of the movement-sensitive cells observed in cortical visual areas. Furthermore, in contrast to previous approaches to learning direction selectivity, the timing of neuronal activity encodes the phase of the ...
This paper demonstrates that much of visual motion coding in the primary visual cortex can be unders...
Motion in the outside world forms one of the primary uses of visual information for many animals. Th...
Increasing evidence supports the hypothesis that the visual system employs a sparse code to represen...
Olshausen and Field demonstrated that a learning algorithm that attempts to generate a sparse code f...
AbstractIn their natural environment, animals experience a complex and dynamic visual scenery. Under...
© The Author(s) 2019. This article is distributed under the terms of the Creative Commons Attributio...
Abstract—We have previously developed a neurodynamical model of motion segregation in cortical visua...
The sparse coding hypothesis has enjoyed much success in predicting response properties of simple ce...
(a) Inference on an example input image sequence of 10 frames. Top to bottom: Input sequence; model’...
The receptive fields of neurons in the mammalian primary visual cortex are oriented not only in the ...
Abstract — Neurons in the primary visual cortex respond to specific patterns of visual input, i.e., ...
Olshausen and Field (1996) developed a simple cell receptive field model for natural scene processin...
Computational Neuroscience: Trends in Research 2007, 15th Annual Computational Neuroscience meeting,...
AbstractThe classical receptive fields of simple cells in the visual cortex have been shown to emerg...
Many biological and artificial neural networks require the parallel extraction of multiple features,...
This paper demonstrates that much of visual motion coding in the primary visual cortex can be unders...
Motion in the outside world forms one of the primary uses of visual information for many animals. Th...
Increasing evidence supports the hypothesis that the visual system employs a sparse code to represen...
Olshausen and Field demonstrated that a learning algorithm that attempts to generate a sparse code f...
AbstractIn their natural environment, animals experience a complex and dynamic visual scenery. Under...
© The Author(s) 2019. This article is distributed under the terms of the Creative Commons Attributio...
Abstract—We have previously developed a neurodynamical model of motion segregation in cortical visua...
The sparse coding hypothesis has enjoyed much success in predicting response properties of simple ce...
(a) Inference on an example input image sequence of 10 frames. Top to bottom: Input sequence; model’...
The receptive fields of neurons in the mammalian primary visual cortex are oriented not only in the ...
Abstract — Neurons in the primary visual cortex respond to specific patterns of visual input, i.e., ...
Olshausen and Field (1996) developed a simple cell receptive field model for natural scene processin...
Computational Neuroscience: Trends in Research 2007, 15th Annual Computational Neuroscience meeting,...
AbstractThe classical receptive fields of simple cells in the visual cortex have been shown to emerg...
Many biological and artificial neural networks require the parallel extraction of multiple features,...
This paper demonstrates that much of visual motion coding in the primary visual cortex can be unders...
Motion in the outside world forms one of the primary uses of visual information for many animals. Th...
Increasing evidence supports the hypothesis that the visual system employs a sparse code to represen...