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Associative learning in a network model ofHermissenda crassicornis

โœ Scribed by Susan A. Werness; S. Dale Fay; Kim T. Blackwell; Thomas P. Vogl; Daniel L. Alkon

Publisher
Springer-Verlag
Year
1992
Tongue
English
Weight
909 KB
Volume
68
Category
Article
ISSN
0340-1200

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โœฆ Synopsis

A time-varying Resistance-Capacitance (RC) circuit computer model was constructed based on known membrane and synaptic properties of the visualvestibular network of the marine snail Hermissenda crassicornis. Specific biophysical properties and synaptic connections of identified neurons are represented as lumped parameters (circuit elements) in the model; in the computer simulation, differential equations are approximated by difference equations. The model's output, membrane potential, an indirect measure of firing frequency, closely parallels the behavioral and electrophysiologic outputs of Hermissenda in response to the same input stimuli presented during and after associative learning. The parallelism of the computer modeled and the biologic outputs suggests that the model captures the features necessary and sufficient for associative learning.

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