DocumentCode
3295328
Title
Biological model of vision for an artificial system that learns to perceive its environment
Author
Blackburn, Michael R. ; Nguyen, Hoa G.
Author_Institution
US Naval Ocean Syst. Center, San Diego, CA, USA
fYear
1989
fDate
0-0 1989
Firstpage
219
Abstract
A computer algorithm is described which implements models of the biological visual mechanisms of the retina, thalamic lateral geniculate and perigeniculate nuclei, and primary visual cortex. Motion and pattern analyses are performed in parallel and interact in the cortex to construct perceptions. The authors hypothesize that motion reflexes serve as unconditioned pathways for the learning and recall of pattern information. The algorithm demonstrates this conditioning through a learning function approximating heterosynaptic facilitation.<>
Keywords
computer vision; learning systems; visual perception; biological visual mechanisms; computer vision; heterosynaptic facilitation; learning; motion reflexes; pattern information recall; perigeniculate nuclei; primary visual cortex; retina; thalamic lateral geniculate; unconditioned pathways; Learning systems; Machine vision; Visual system;
fLanguage
English
Publisher
ieee
Conference_Titel
Neural Networks, 1989. IJCNN., International Joint Conference on
Conference_Location
Washington, DC, USA
Type
conf
DOI
10.1109/IJCNN.1989.118702
Filename
118702
Link To Document