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IJON
2002

Modeling large cortical networks with growing self-organizing maps

13 years 11 months ago
Modeling large cortical networks with growing self-organizing maps
Self-organizing computational models with specific intracortical connections can explain many features of visual cortex. However, due to their computation and memory requirements, it is difficult to use such detailed models to study large-scale object segmentation and recognition. This paper describes GLISSOM, a method for scaling a small RF-LISSOM model network into a larger one during self-organization, dramatically reducing time and memory needs while obtaining equivalent results. With GLISSOM it should be possible to simulate all of human V1 at the single-column level using existing workstations. The scaling equations GLISSOM uses also allow comparison of biological maps and parameters between individuals and species with different brain region sizes. Key words: Self-organization, Cortical modeling, Vision, Orientation maps, Growing networks
James A. Bednar, Amol Kelkar, Risto Miikkulainen
Added 22 Dec 2010
Updated 22 Dec 2010
Type Journal
Year 2002
Where IJON
Authors James A. Bednar, Amol Kelkar, Risto Miikkulainen
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