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Paper detail

Phase-Oscillator Computations as Neural Models of Stimulus-Response Conditioning and Response Selection

The activity of collections of synchronizing neurons can be represented by weakly coupled nonlinear phase oscillators satisfying Kuramoto's equations. In this article, we build such neural-oscillator models, partly based on neurophysiological evidence, to represent approximately the learning behavior predicted and confirmed in three experiments by well-known stochastic learning models of behavioral stimulus-response theory. We use three Kuramoto oscillators to model a continuum of responses, and we provide detailed numerical simulations and analysis of the three-oscillator Kuramoto problem, including an analysis of the stability points for different coupling conditions. We show that the oscillator simulation data are well-matched to the behavioral data of the three experiments.

preprint2012arXivOpen access
Patrick SuppesJose Acacio de BarrosGary Oas
Biological PhysicsNeurons and Cognition
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Patrick SuppesJose Acacio de BarrosGary Oas

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