Complex dynamics of a Kaldor model of business cycle with discrete-time

Z. Eskandari; Z. Avazzadeh; R. Khoshsiar Ghaziani

doi:10.1016/j.chaos.2022.111863

Complex dynamics of a Kaldor model of business cycle with discrete-time

Z. Eskandari
, Z. Avazzadeh^*
, R. Khoshsiar Ghaziani

^*Corresponding author for this work

Department of Applied Mathematics

Shahrekord University

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

This paper studies the dynamical behavior of a Kaldor model of business cycle with discrete-time analytically and numerically. The conditions and the critical coefficients for the flip (period-doubling), Neimark-Sacker, and strong resonances are computed analytically. By using the critical coefficients, the bifurcation scenarios are determined for each of the deleted bifurcation points. Bifurcation curves of fixed points and cycles with periods up to sixteen by changing one and two parameters along with all codim-1 and codim-2 bifurcations on the corresponding curves are computed using the numerical continuation method. Numerical analysis confirms our analytical results and reveals more complex dynamical behaviors.

Original language	English
Article number	111863
Journal	Chaos, Solitons and Fractals
Volume	157
DOIs	https://doi.org/10.1016/j.chaos.2022.111863
Publication status	Published - Apr 2022

Keywords

Bifurcation
Critical coefficient
Kaldor model
Neimark-Sacker
Numerical continuation
Period doubling
Strong resonances

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10.1016/j.chaos.2022.111863

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title = "Complex dynamics of a Kaldor model of business cycle with discrete-time",

abstract = "This paper studies the dynamical behavior of a Kaldor model of business cycle with discrete-time analytically and numerically. The conditions and the critical coefficients for the flip (period-doubling), Neimark-Sacker, and strong resonances are computed analytically. By using the critical coefficients, the bifurcation scenarios are determined for each of the deleted bifurcation points. Bifurcation curves of fixed points and cycles with periods up to sixteen by changing one and two parameters along with all codim-1 and codim-2 bifurcations on the corresponding curves are computed using the numerical continuation method. Numerical analysis confirms our analytical results and reveals more complex dynamical behaviors.",

keywords = "Bifurcation, Critical coefficient, Kaldor model, Neimark-Sacker, Numerical continuation, Period doubling, Strong resonances",

author = "Z. Eskandari and Z. Avazzadeh and \{Khoshsiar Ghaziani\}, R.",

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doi = "10.1016/j.chaos.2022.111863",

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T1 - Complex dynamics of a Kaldor model of business cycle with discrete-time

AU - Eskandari, Z.

AU - Avazzadeh, Z.

AU - Khoshsiar Ghaziani, R.

PY - 2022/4

Y1 - 2022/4

N2 - This paper studies the dynamical behavior of a Kaldor model of business cycle with discrete-time analytically and numerically. The conditions and the critical coefficients for the flip (period-doubling), Neimark-Sacker, and strong resonances are computed analytically. By using the critical coefficients, the bifurcation scenarios are determined for each of the deleted bifurcation points. Bifurcation curves of fixed points and cycles with periods up to sixteen by changing one and two parameters along with all codim-1 and codim-2 bifurcations on the corresponding curves are computed using the numerical continuation method. Numerical analysis confirms our analytical results and reveals more complex dynamical behaviors.

AB - This paper studies the dynamical behavior of a Kaldor model of business cycle with discrete-time analytically and numerically. The conditions and the critical coefficients for the flip (period-doubling), Neimark-Sacker, and strong resonances are computed analytically. By using the critical coefficients, the bifurcation scenarios are determined for each of the deleted bifurcation points. Bifurcation curves of fixed points and cycles with periods up to sixteen by changing one and two parameters along with all codim-1 and codim-2 bifurcations on the corresponding curves are computed using the numerical continuation method. Numerical analysis confirms our analytical results and reveals more complex dynamical behaviors.

KW - Bifurcation

KW - Critical coefficient

KW - Kaldor model

KW - Neimark-Sacker

KW - Numerical continuation

KW - Period doubling

KW - Strong resonances

UR - https://www.scopus.com/pages/publications/85125017217

U2 - 10.1016/j.chaos.2022.111863

DO - 10.1016/j.chaos.2022.111863

M3 - Article

AN - SCOPUS:85125017217

SN - 0960-0779

VL - 157

JO - Chaos, Solitons and Fractals

JF - Chaos, Solitons and Fractals

M1 - 111863

ER -

Complex dynamics of a Kaldor model of business cycle with discrete-time

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Keywords

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