The E%-WTA model lets neural assembly sizes emerge from network dynamics via percentage-based selection and E/I inhibition, yielding higher stimulus recovery rates than the original Assembly Calculus k-WTA model.
Thermodynamics and signatures of criticality in a network of neurons
2 Pith papers cite this work. Polarity classification is still indexing.
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Mellin spectral theory on the multiplicative half-line reveals decoupling of geometric exponent a from spectral exponent b, with a=b marking simple RG fixed points and a≠b indicating multicriticality.
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Formation of Artificial Neural Assemblies by Biologically Plausible Inhibition Mechanisms
The E%-WTA model lets neural assembly sizes emerge from network dynamics via percentage-based selection and E/I inhibition, yielding higher stimulus recovery rates than the original Assembly Calculus k-WTA model.
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Multicriticality and Scaling: Mellin Spectral Theory, and the Decoupling of Geometric and Spectral Exponents
Mellin spectral theory on the multiplicative half-line reveals decoupling of geometric exponent a from spectral exponent b, with a=b marking simple RG fixed points and a≠b indicating multicriticality.