Add to ORKGA computationally intensive approach to pattern recognition in images is developed and applied to face recognition. Similarly to previous work, we compute functional inner products of a two-dimensional input signal (image) with a set of two-dimensional Gabor functions which fit the receptive fields of simple cells in the primary visual cortex of mammals. The proposed model includes nonlinearities, such as thresholding, orientation competition and lateral inhibition. The output of the model is a set of cortical images each of which contains only edge lines of a particular orientation in a particular light-to-dark transition direction. In this way the information of the original image is split into different channels. The cortical images are ...
A set of so-called cortical images, motivated by the function of simple cells in the primary visual ...
A set of so-called cortical images, motivated by the function of simple cells in the primary visual ...
This paper presents some of the research activities of the research group in vision as a grand chall...
A computationally intensive approach to pattern recognition in images is developed and applied to fa...
A computationally intensive approach to pattern recognition in images is developed and applied to fa...
A computationally intensive approach to pattern recognition in images is developed and applied to fa...
A computationally intensive approach to pattern recognition in images is developed and applied to fa...
A computationally intensive approach to pattern recognition in images is developed and applied to fa...
A biologically motivated, computationally intensive approach to computer vision is developed and app...
A biologically motivated compute intensive approach to computer vision is developed and applied to t...
This paper presents some of the research activities of the research group in vision as a grand chall...
This paper presents some of the research activities of the research group in vision as a grand chall...
A biologically motivated compute intensive approach to computer vision is developed and applied to t...
We present a neural system for the recognition of objects from realistic images, together with resul...
A set of so-called cortical images, motivated by the function of simple cells in the primary visual ...
A set of so-called cortical images, motivated by the function of simple cells in the primary visual ...
A set of so-called cortical images, motivated by the function of simple cells in the primary visual ...
This paper presents some of the research activities of the research group in vision as a grand chall...
A computationally intensive approach to pattern recognition in images is developed and applied to fa...
A computationally intensive approach to pattern recognition in images is developed and applied to fa...
A computationally intensive approach to pattern recognition in images is developed and applied to fa...
A computationally intensive approach to pattern recognition in images is developed and applied to fa...
A computationally intensive approach to pattern recognition in images is developed and applied to fa...
A biologically motivated, computationally intensive approach to computer vision is developed and app...
A biologically motivated compute intensive approach to computer vision is developed and applied to t...
This paper presents some of the research activities of the research group in vision as a grand chall...
This paper presents some of the research activities of the research group in vision as a grand chall...
A biologically motivated compute intensive approach to computer vision is developed and applied to t...
We present a neural system for the recognition of objects from realistic images, together with resul...
A set of so-called cortical images, motivated by the function of simple cells in the primary visual ...
A set of so-called cortical images, motivated by the function of simple cells in the primary visual ...
A set of so-called cortical images, motivated by the function of simple cells in the primary visual ...
This paper presents some of the research activities of the research group in vision as a grand chall...