Mathematical Structures of Ergodicity and Chaos in Population Dynamics
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Beschreibung
This book concerns issues related to biomathematics, medicine, or cybernetics as practiced by engineers. Considered population dynamics models are still in the interest of researchers, and even this interest is increasing, especially now in the time of SARS-CoV-2 coronavirus pandemic, when models are intensively studied in order to help predict its behaviour within human population. The structures of population dynamics models and practical methods of finding their solutions are discussed. Finally, the hypothesis of the existence of non-trivial ergodic properties of the model of erythropoietic response dynamics formulated by A. Lasota in the form of delay differential equation with unimodal feedback is analysed. The research can be compared with actual medical data, as well as shows that the structures of population models can reflect the dynamic structures of reality.
This book concerns issues related to biomathematics, medicine, or cybernetics as practiced by engineers. Considered population dynamics models are still in the interest of researchers, and even this interest is increasing, especially now in the time of SARS-CoV-2 coronavirus pandemic, when models are intensively studied in order to help predict its behaviour within human population. The structures of population dynamics models and practical methods of finding their solutions are discussed. Finally, the hypothesis of the existence of non-trivial ergodic properties of the model of erythropoietic response dynamics formulated by A. Lasota in the form of delay differential equation with unimodal feedback is analysed. The research can be compared with actual medical data, as well as shows that the structures of population models can reflect the dynamic structures of reality.
Discusses Mathematical Structures of Ergodicity and Chaos in Population Dynamics Analyzes the hypothesis of the existence of non-trivial ergodic properties of the model of erythropoietic response dynamics formulated by A. Lasota in the form of delay differential equation with unimodal feedback Describes the structures of population dynamics models and practical methods of finding their solutions Concerns issues related to biomathematics, medicine, or cybernetics as practiced by engineers Compares the presented research with actual medical data and shows that the structures of population models can reflect the dynamic structures of reality
Autor*in
Paweł J. Mitkowski
Themen in »Mathematical Structures of Ergodicity and Chaos in Population Dynamics«
Ergodicity Chaos Population Dynamics Nonlinear Dynamics Lasota-Wazewska Equation