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Comparative Study
. 1993;68(4):351-61.
doi: 10.1007/BF00201860.

A neural model for nonassociative learning in a prototypical sensory-motor scheme: the landing reaction in flies

H Oğmen  1 M Moussa
Affiliations
Comparative Study

A neural model for nonassociative learning in a prototypical sensory-motor scheme: the landing reaction in flies

H Oğmen et al. Biol Cybern. 1993.

Abstract

Nonassociative learning is an important property of neural organization in both vertebrate and invertebrate species. In this paper we propose a neural model for nonassociative learning in a well studied prototypical sensory-motor scheme: the landing reaction of flies. The general structure of the model consists of sensory processing stages, a sensory-motor gate network, and motor control circuits. The paper concentrates on the sensory-motor gate network which has an agonist-antagonist structure. Sensory inputs to this circuit are transduced by chemical messenger systems whose dynamics include depletion and replenishment terms. The resulting circuit is a gated dipole anatomy and we show that it gives a good account of nonassociative learning in the landing reaction of the fly.

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