Mathematical Population Dynamics and Epidemiology in Temporal and Spatio-Temporal Domains / by Harkaran Singh and Joydip Dhar.Material type: TextPublisher: Toronto ; New Jersey : Apple Academic Press, 2018Edition: First editionDescription: 1 online resource (302 pages) : 49 illustrations, text file, PDFContent type:
- online resource
- 9781351251709(e-book : PDF)
- RA652.2 .M3
Includes bibliographical references and index.
Introduction and Mathematical Preliminaries. Discrete-Time Bifurcation Behavior of a Prey-Predator System with a Generalized Predator. A Single Species Harvesting Model with Diffusion in a Two-Patch Habitat. A Single Species Model with a Supplementary Forest Resource in a Two-Patch Habitat. A Two-Competing Species Model with Diffusion in a Homogeneous and Two-Patch Forest Habitats. A Competing Species Model with Diffusion in a Two-Patch Habitat with a Common Supplementary Resource. Dynamics of a Prey and a Generalized-Predator System with Disease in Prey and Gestation Delay for Predator in Single Patch Habitat. An Epidemic Model of Childhood Disease Dynamics with Maturation Delay and Latent Period of Infection. Bifurcation in Disease Dynamics with Latent Period of Infection and Media Awareness. Continuous and Discrete Dynamics of SIRS Epidemic Model with Media Awareness. Dynamics of SEIRVS Epidemic Model with Temporary Disease-Induced Immunity and Media Awareness.
Mankind now faces even more challenging environment- and health-related problems than ever before. Readily available transportation systems facilitate the swift spread of diseases as large populations migrate from one part of the world to another. Studies on the spread of the communicable diseases are very important. This book, Mathematical Population Dynamics and Epidemiology in Temporal and Spatio-Temporal Domains, provides a useful experimental tool for making practical predictions, building and testing theories, answering specific questions, determining sensitivities of the parameters, forming control strategies, and much more. This volume focuses on the study of population dynamics with special emphasis on the migration of populations and the spreading of epidemics among human and animal populations. It also provides the background needed to interpret, construct, and analyze a wide variety of mathematical models. Most of the techniques presented in the book can be readily applied to model other phenomena, in biology as well as in other disciplines.
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