Heart Nodal Escape under Large Slow Adaptation Current - Egyptian Knowledge Bank

66798

Heart Nodal Escape under Large Slow Adaptation Current

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Last updated: 25 Dec 2024

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Abstract

This paper presents a study for the qualitative behavior of the heart under large slow adaptation current condition. Different responses including fixed point, periodic, quasi periodic and ultimately chaotic behaviors are detected and shown. The mathematical model used in detecting bifurcation is a three dimensional model with two embedded nonlinearities of the third and second order types. The bifurcations are detected in the parameter space as the point of the change of system structure stability (splitting of the equilibrium points). The importance of this study is that it helps in forecasting whether or not the heart is liable to heart attack within a pre-determined period.

DOI

10.21608/mjeer.2010.66798

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Khaled

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Elzaafrany

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Arab Academy for Science and Technology & Maritime Transports, Alexandria, Egypt

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Orcid

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A. A.

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Nasser

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Arab Academy for Science and Technology & Maritime Transports, Alexandria, Egypt

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Sharkas

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Arab Academy for Science and Technology & Maritime Transports, Alexandria, Egypt

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9634

Issue Date

2010-01-01

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2019-12-29

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2010-01-01

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1687-1189

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2682-3535

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1,088

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Menoufia Journal of Electronic Engineering Research

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https://mjeer.journals.ekb.eg/

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Heart Nodal Escape under Large Slow Adaptation Current

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Created At

22 Jan 2023

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