A comparative study between E‐neurons mathematical model and circuit model

Abstract The basic concepts and techniques involved in the development and analysis of mathematical models for individual neurons are reviewed. A spiking neuron model uses differential equations to represent various neuronal activities that have more compatibility with circuit criteria and are chose...

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Main Authors: M. Daliri, Pietro M. Ferreira, G. Klisnick, A. Benlarbi‐Delai
Format: Article
Language:English
Published: Wiley 2021-03-01
Series:IET Circuits, Devices and Systems
Subjects:
Online Access:https://doi.org/10.1049/cds2.12017
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author M. Daliri
Pietro M. Ferreira
G. Klisnick
A. Benlarbi‐Delai
author_facet M. Daliri
Pietro M. Ferreira
G. Klisnick
A. Benlarbi‐Delai
author_sort M. Daliri
collection DOAJ
description Abstract The basic concepts and techniques involved in the development and analysis of mathematical models for individual neurons are reviewed. A spiking neuron model uses differential equations to represent various neuronal activities that have more compatibility with circuit criteria and are chosen for developing a comparative study with circuit models. For this comparison, a new fully differential neuron that uses the fully differential aspects to reach more balanced differential equations to mathematical model is presented. This comparative study of the circuit model and a neuron mathematical model provides a quantitative understanding of the challenges between mathematical models and microelectronic circuit design criteria.
format Article
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institution Kabale University
issn 1751-858X
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language English
publishDate 2021-03-01
publisher Wiley
record_format Article
series IET Circuits, Devices and Systems
spelling doaj-art-fe29e8f5a67644b5b224f884d7a93a822025-02-03T01:29:39ZengWileyIET Circuits, Devices and Systems1751-858X1751-85982021-03-0115217518210.1049/cds2.12017A comparative study between E‐neurons mathematical model and circuit modelM. Daliri0Pietro M. Ferreira1G. Klisnick2A. Benlarbi‐Delai3Department of Electrical Engineering Imam Reza International University Mashhad Islamic Republic of IranUniversité Paris‐Saclay CentraleSupélec, CNRS Lab. de Génie Electrique et Electronique de Paris Gif‐sur‐Yvette FranceUniversité Paris‐Saclay CentraleSupélec, CNRS Lab. de Génie Electrique et Electronique de Paris Gif‐sur‐Yvette FranceUniversité Paris‐Saclay CentraleSupélec, CNRS Lab. de Génie Electrique et Electronique de Paris Gif‐sur‐Yvette FranceAbstract The basic concepts and techniques involved in the development and analysis of mathematical models for individual neurons are reviewed. A spiking neuron model uses differential equations to represent various neuronal activities that have more compatibility with circuit criteria and are chosen for developing a comparative study with circuit models. For this comparison, a new fully differential neuron that uses the fully differential aspects to reach more balanced differential equations to mathematical model is presented. This comparative study of the circuit model and a neuron mathematical model provides a quantitative understanding of the challenges between mathematical models and microelectronic circuit design criteria.https://doi.org/10.1049/cds2.12017bioelectric phenomenadifferential equationsneurophysiologyphysiological models
spellingShingle M. Daliri
Pietro M. Ferreira
G. Klisnick
A. Benlarbi‐Delai
A comparative study between E‐neurons mathematical model and circuit model
IET Circuits, Devices and Systems
bioelectric phenomena
differential equations
neurophysiology
physiological models
title A comparative study between E‐neurons mathematical model and circuit model
title_full A comparative study between E‐neurons mathematical model and circuit model
title_fullStr A comparative study between E‐neurons mathematical model and circuit model
title_full_unstemmed A comparative study between E‐neurons mathematical model and circuit model
title_short A comparative study between E‐neurons mathematical model and circuit model
title_sort comparative study between e neurons mathematical model and circuit model
topic bioelectric phenomena
differential equations
neurophysiology
physiological models
url https://doi.org/10.1049/cds2.12017
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