Hayato Nakagama scite author profile

There are regularly arranged blobs that contain neurons labeled by cytochrome oxidase (CO) in the supragranular layer of the primary visual cortex (V1) of monkeys and cats. This theoretical study demonstrates that CO-blob-like patterns can be reproduced based on the thermodynamic model for the activity-dependent self-organization of afferent inputs from two different groups of neurons to the supragranular layer of the visual cortex. Computer simulation based on the model shows that within a particular parameter range each blob is centered in the ocular dominance (OD) band, as observed in macaque monkeys and galagos. Furthermore, by increasing the strength of correlation in activity between inputs from the two eyes, nearby blobs merge across OD borders, as seen in the cat visual cortex. Finally, for monocular deprivation, blobs in the deprived eyes shrink as observed in monkeys and cats. For binocular deprivation, less intensely labeled blobs were reproduced, while the blob density did not change as observed in monkeys.

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Effect of imbalance in activities between ON- and OFF-center LGN cells on orientation map formation

Nakagama

Saito

Tanaka

2000

Biological Cybernetics

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It has been reported that the OFF responses of cells in the visual pathway are stronger, on average, than the ON responses early in the life of cats and ferrets. In this study, we theoretically investigate the effects of this imbalance in activity on the orientation map formation. We carry out computer simulations based on our previously proposed self-organization model, in which the correlated activities between ON- and OFF-center cells in the lateral geniculate nucleus regulate the formation of orientation maps in the visual cortex. When imbalance between the activities of these ON- and OFF-center cells is assumed, we obtain orientation maps with spatial periodicity, as observed in the experiments. On the other hand, when balanced activities are assumed, orientation maps do not show periodicity. This suggests that the imbalance in activities between ON- and OFF-center cells contributes to the elaboration of orientation maps during the critical period.

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A connectionist model for variable binding, case role assignment and inference in language processing

Nakagama

Tanaka

2004

International Congress Series

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An experimental comparison of recurrent neural network for natural language production

Nakagama

Tanaka

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Hayato Nakagama

Theoretical and experimental studies of relationship between pinwheel centers and ocular dominance columns in the visual cortex

Self-organization Model of Cytochrome Oxidase Blobs and Ocular Dominance Columns in the Primary Visual Cortex

Effect of imbalance in activities between ON- and OFF-center LGN cells on orientation map formation

A connectionist model for variable binding, case role assignment and inference in language processing

An experimental comparison of recurrent neural network for natural language production

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