Advances in Epidemiological Modeling and Control of Viruses
Editat de Hemen Dutta, Khalid Hattafen Limba Engleză Paperback – 11 ian 2023
- Includes models to describe global and local dynamics of various viruses
- Provides readers with control strategies for occurrence and reoccurrence of viruses
- Includes epidemic models under various effects and environments
- Provides readers with a robust set of mathematical tools and techniques for epidemiological modeling
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Specificații
ISBN-13: 9780323995573
ISBN-10: 0323995578
Pagini: 390
Dimensiuni: 191 x 235 x 23 mm
Greutate: 0.67 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0323995578
Pagini: 390
Dimensiuni: 191 x 235 x 23 mm
Greutate: 0.67 kg
Editura: ELSEVIER SCIENCE
Public țintă
Researchers, developers, and industry professionals in modelling, mathematical biology, computational biology, and mathematics. In addition, research scientists and clinicians in Epidemiology will be interested in the book from the perspective of using the modelling techniques to model complex systems and virusesCuprins
1. Global dynamics of a delayed reaction-diffusion viral infection in a cellular environment
2. Hepatitis B virus transmission via epidemic model with treatment function
3. Global dynamics of an HCV model with full logistic terms and the host immune system
4. On a SVEIRS Markov chain epidemic model with multiple discrete delay times and sensitivity analysis to determine vaccination effects
5. Hopf bifurcation in an SIR epidemic model with psychological effect and distributed time delay
6. Modelling of the effects of media in the course of vaccination of rotavirus
7. Mathematical Models of Early Stage COVID-19 Transmission in Sri Lanka
8. Global stability of a diffusive HTLV-I infection model with mitosis and CTL immune response
9. Introducing Decision Support Mathematical Tools
10. COVID-19 pandemic model: A graph theoretical perspective
11. Towards nonmanifest chaos and order in biological structures, by means of the multifractal paradigm
12. Global stability of epidemic model under discontinuous treatment strategy
2. Hepatitis B virus transmission via epidemic model with treatment function
3. Global dynamics of an HCV model with full logistic terms and the host immune system
4. On a SVEIRS Markov chain epidemic model with multiple discrete delay times and sensitivity analysis to determine vaccination effects
5. Hopf bifurcation in an SIR epidemic model with psychological effect and distributed time delay
6. Modelling of the effects of media in the course of vaccination of rotavirus
7. Mathematical Models of Early Stage COVID-19 Transmission in Sri Lanka
8. Global stability of a diffusive HTLV-I infection model with mitosis and CTL immune response
9. Introducing Decision Support Mathematical Tools
10. COVID-19 pandemic model: A graph theoretical perspective
11. Towards nonmanifest chaos and order in biological structures, by means of the multifractal paradigm
12. Global stability of epidemic model under discontinuous treatment strategy