Analysis of ?integrate-to-threshold? neural coding schemes
Copyright policy )Analysis of ?integrate-to-threshold? neural coding schemes
Methods of analysis for some deterministic and stochastic variants of the integrate-to-threshold neural coding scheme are presented. Adaptation phenomena are modeled by means of feedforward and feedback adaptive threshold control. Simulations of sinusoidal and step responses reproduce satisfactorily the qualitative characteristics of adaptation as compared with physiological data. It is postulated that such adaptive threshold control may be accomplished by the release, or conformation change, of molecules involved in the control of excitable-channel dynamics.
Neurons, Stochastic Processes, Spectrum Analysis, Models, Neurological, Statistics as Topic, Modulation and demodulation in information and communication theory, output-dependent control of threshold statistics, Action Potentials, Differential Threshold, neural encoders, adaptation, Adaptation, Physiological, Synaptic Transmission, Feedback, Membrane Potentials, Adaptive control/observation systems, integrate-to-threshold models, Humans, integral pulse frequency modulation, General biology and biomathematics
Neurons, Stochastic Processes, Spectrum Analysis, Models, Neurological, Statistics as Topic, Modulation and demodulation in information and communication theory, output-dependent control of threshold statistics, Action Potentials, Differential Threshold, neural encoders, adaptation, Adaptation, Physiological, Synaptic Transmission, Feedback, Membrane Potentials, Adaptive control/observation systems, integrate-to-threshold models, Humans, integral pulse frequency modulation, General biology and biomathematics
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