Title :
CNN models of receptive field dynamics of the central visual system neurons
Author :
Orzó, László ; Laszló, Károly ; Négyessy, László ; Hámori, Jozsef ; Roska, Tamás
Author_Institution :
Lab. of Neurobiol., Semmelweis Med. Sch., Budapest, Hungary
Abstract :
Deals with the biological aspects of the receptive field (RF) concept and its possible cellular neural network (CNN) modeling. Three kinds of receptive field definitions are discussed: the experimentally measured RF, the mathematical model of the RF and its anatomical background. Previously, new RF-mapping techniques have revealed that neurons in the visual pathway exhibit striking RF dynamics, which implies that for adequate characterization the RF profile has to be examined in the space-time domain. Starting from these findings in the present study the neurons´ static RF definition is purified and some experimental results of De Angelis et al. (1995) are modeled by the CNN. Our CNN model indicates that the spatio-temporal RF dynamics can be generated by time invariant synaptic strength values
Keywords :
cellular neural nets; dynamics; neurophysiology; physiological models; visual perception; CNN models; central visual system; receptive field dynamics; space-time domain; time invariant synaptic strength values; Anatomy; Biological system modeling; Brain modeling; Cellular neural networks; Laboratories; Mathematical model; Neurons; Radio frequency; Retina; Visual system;
Conference_Titel :
Cellular Neural Networks and Their Applications Proceedings, 1998 Fifth IEEE International Workshop on
Conference_Location :
London
Print_ISBN :
0-7803-4867-2
DOI :
10.1109/CNNA.1998.685363
