1. Effectiveness of Biologically Inspired Neural Network Models in Learning and Patterns Memorization.
- Author
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Squadrani, Lorenzo, Curti, Nico, Giampieri, Enrico, Remondini, Daniel, Blais, Brian, and Castellani, Gastone
- Subjects
ARTIFICIAL neural networks ,MEMORIZATION ,DEEP learning ,FEATURE selection ,BIOLOGICALLY inspired computing ,MACHINE learning ,NEURAL circuitry ,FEATURE extraction - Abstract
Purpose: In this work, we propose an implementation of the Bienenstock–Cooper–Munro (BCM) model, obtained by a combination of the classical framework and modern deep learning methodologies. The BCM model remains one of the most promising approaches to modeling the synaptic plasticity of neurons, but its application has remained mainly confined to neuroscience simulations and few applications in data science. Methods: To improve the convergence efficiency of the BCM model, we combine the original plasticity rule with the optimization tools of modern deep learning. By numerical simulation on standard benchmark datasets, we prove the efficiency of the BCM model in learning, memorization capacity, and feature extraction. Results: In all the numerical simulations, the visualization of neuronal synaptic weights confirms the memorization of human-interpretable subsets of patterns. We numerically prove that the selectivity obtained by BCM neurons is indicative of an internal feature extraction procedure, useful for patterns clustering and classification. The introduction of competitiveness between neurons in the same BCM network allows the network to modulate the memorization capacity of the model and the consequent model selectivity. Conclusions: The proposed improvements make the BCM model a suitable alternative to standard machine learning techniques for both feature selection and classification tasks. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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