Dynamic analysis of a Solow–Swan model with capital-induced labor migration
Dynamic analysis of a Solow–Swan model with capital-induced labor migration
The Solow–Swan model, introduced in 1956, is a fundamental framework in macroeconomic theory that models long-term economic growth through capital accumulation and labor force dynamics. This research builds on the original Solow–Swan model by incorporating capital-induced labor migration, which is a significant extension considering modern economic contexts where migration plays a crucial role in regional and national economic dynamics. First, we analyze the existence of the solution of the model. Then, we explore the local asymptotic stability and Turing bifurcation of the positive equilibrium. We then study the nonconstant steady state solution of the model as a branch of solution bifurcation from stationary system. And then we investigate the stability of the nonconstant steady state solution. Finally, we present some numerical simulations to verify our theoretical predictions.
Bifurcation, Diffusion, Solow–Swan model, Stability
73-85
Li, Chunru
dbfa2db4-ad0b-4d50-bc4a-333bf79a3660
Yuan, Xuesong
d37c2165-735b-4b37-a171-7d681b76be55
Gong, Yu
86c8d37a-744d-46ab-8b43-18447ccaf39c
4 March 2025
Li, Chunru
dbfa2db4-ad0b-4d50-bc4a-333bf79a3660
Yuan, Xuesong
d37c2165-735b-4b37-a171-7d681b76be55
Gong, Yu
86c8d37a-744d-46ab-8b43-18447ccaf39c
Li, Chunru, Yuan, Xuesong and Gong, Yu
(2025)
Dynamic analysis of a Solow–Swan model with capital-induced labor migration.
Mathematics and Computers in Simulation, 234, .
(doi:10.1016/j.matcom.2025.02.021).
Abstract
The Solow–Swan model, introduced in 1956, is a fundamental framework in macroeconomic theory that models long-term economic growth through capital accumulation and labor force dynamics. This research builds on the original Solow–Swan model by incorporating capital-induced labor migration, which is a significant extension considering modern economic contexts where migration plays a crucial role in regional and national economic dynamics. First, we analyze the existence of the solution of the model. Then, we explore the local asymptotic stability and Turing bifurcation of the positive equilibrium. We then study the nonconstant steady state solution of the model as a branch of solution bifurcation from stationary system. And then we investigate the stability of the nonconstant steady state solution. Finally, we present some numerical simulations to verify our theoretical predictions.
Text
Li et al. (2025)
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Restricted to Repository staff only until 28 February 2027.
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Accepted/In Press date: 18 February 2025
e-pub ahead of print date: 28 February 2025
Published date: 4 March 2025
Keywords:
Bifurcation, Diffusion, Solow–Swan model, Stability
Identifiers
Local EPrints ID: 499810
URI: http://eprints.soton.ac.uk/id/eprint/499810
ISSN: 0378-4754
PURE UUID: 8df58a18-b5eb-4aaa-90d1-339cc5d93cd5
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Date deposited: 07 Apr 2025 16:30
Last modified: 22 Aug 2025 02:18
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Author:
Chunru Li
Author:
Xuesong Yuan
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