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In recent years, the need for systems capable of achieving the dynamic learning and information storage efficiency of the biological brain has led to the emergence of neuromorphic research. In particular, neuromorphic optics was born with the idea of reproducing the functional and structural properties of the biological brain. In this context, solitonic neuromorphic research has demonstrated the ability to reproduce dynamic and plastic structures capable of learning and storing through conformational changes in the network. In this paper, we demonstrate that solitonic neural networks are capable of mimicking the functional behaviour of biological neural tissue, in terms of synaptic formation procedures and dynamic reinforcement.

Photorefraction simulates well the plasticity of neural synaptic connections / Bile, Alessandro; Tari, Hamed; Pepino, Riccardo; Nabizada, Arif; Fazio, Eugenio. - In: BIOMIMETICS. - ISSN 2313-7673. - (2024).

Photorefraction simulates well the plasticity of neural synaptic connections

Alessandro Bile^{Primo

Investigation};Hamed Tari^{Secondo

Membro del Collaboration Group};Riccardo Pepino^{Membro del Collaboration Group};Arif Nabizada^{Penultimo

Membro del Collaboration Group};Eugenio Fazio^{Ultimo

Supervision}

2024

Abstract

In recent years, the need for systems capable of achieving the dynamic learning and information storage efficiency of the biological brain has led to the emergence of neuromorphic research. In particular, neuromorphic optics was born with the idea of reproducing the functional and structural properties of the biological brain. In this context, solitonic neuromorphic research has demonstrated the ability to reproduce dynamic and plastic structures capable of learning and storing through conformational changes in the network. In this paper, we demonstrate that solitonic neural networks are capable of mimicking the functional behaviour of biological neural tissue, in terms of synaptic formation procedures and dynamic reinforcement.

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	Anno di pubblicazione
	
				2024
			
	Parole chiave
	
				artificial intelligence; neuromorphic systems; neuroplasticity; neural networks; learning; photorefractive solitons; photonic hardware; all-optical systems
			
	Tipologia
	
				01 Pubblicazione su rivista::01a Articolo in rivista
			
	Citazione
	
				Photorefraction simulates well the plasticity of neural synaptic connections / Bile, Alessandro; Tari, Hamed; Pepino, Riccardo; Nabizada, Arif; Fazio, Eugenio. - In: BIOMIMETICS. - ISSN 2313-7673. - (2024).
			
	Appartiene alla tipologia:
	
				01a Articolo in rivista

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1708675

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