Trends in Biomathematics: Exploring Epidemics, Eco-Epidemiological Systems, and Optimal Control Strategies
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Trends in Biomathematics: Exploring Epidemics, Eco-Epidemiological Systems, and Optimal Control Strategies
Selected Works from the BIOMAT Consortium Lectures, Rio de Janeiro, Brazil, 2023
Mondaini, Rubem P.
Springer International Publishing AG
08/2024
364
Dura
9783031590719
Pré-lançamento - envio 15 a 20 dias após a sua edição
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Mathematical Modeling of the Vaporization of Encapsulated Perfluorocarbon Nanodroplets Using Chirp Ultrasound: A Review.- The Influence of Fear on Intraspecific Competition in Predator-Prey Dynamics: A model based study.- Dynamical study of a predator-prey interaction incorporating fear effect with saturated fear cost and prey refuge.- Optimal control of HPV infection and cervical cancer cells with Beddington-DeAngelis functional response.- On the role of the basic reproduction number in systems modelling disease propagation.- On a discretized SIS epidemic model with no vertical transmission.- Computational Modeling of Viral Infection and Immune Response in Covid-19 Patients.- Complex Dynamics of an Eco-epidemiological System with Fear and Allee Effect.- Modeling the Dynamics of Vibrio-Phage Interactions: A Mathematical Approach.- Waiting for the Perfect Vaccine.- In silico modeling of antibiotics treatment combined with corticosteroids for septic arthritis.- Epidemic model for risk-based testing and quarantine.- Simple Case of Evolutionary Discrete Dynamics for Altruism with Reputation.- An exploration of the effects of periodic top predator interference and hunting on a predator-prey system.- Modeling the Effect of Disease Characteristics on the Outcomes of Interventions.- A Comprehensive Review of Sharma-Mittal Entropy Measures and their Usefulness in the Study of Discrete Probability Distributions in Mathematical Biology.
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mathematical biology;biomathematics;biostatistics;computational biology;BIOMAT;mathematical modeling;predator-prey dynamics;predator-prey model;computational modeling;COVID-19;HPV;viral infection;vaccine;epidemic modeling;Risk-based testing;Sharma-Mittal Entropy Measures;Vibrio-Phage Interactions
Mathematical Modeling of the Vaporization of Encapsulated Perfluorocarbon Nanodroplets Using Chirp Ultrasound: A Review.- The Influence of Fear on Intraspecific Competition in Predator-Prey Dynamics: A model based study.- Dynamical study of a predator-prey interaction incorporating fear effect with saturated fear cost and prey refuge.- Optimal control of HPV infection and cervical cancer cells with Beddington-DeAngelis functional response.- On the role of the basic reproduction number in systems modelling disease propagation.- On a discretized SIS epidemic model with no vertical transmission.- Computational Modeling of Viral Infection and Immune Response in Covid-19 Patients.- Complex Dynamics of an Eco-epidemiological System with Fear and Allee Effect.- Modeling the Dynamics of Vibrio-Phage Interactions: A Mathematical Approach.- Waiting for the Perfect Vaccine.- In silico modeling of antibiotics treatment combined with corticosteroids for septic arthritis.- Epidemic model for risk-based testing and quarantine.- Simple Case of Evolutionary Discrete Dynamics for Altruism with Reputation.- An exploration of the effects of periodic top predator interference and hunting on a predator-prey system.- Modeling the Effect of Disease Characteristics on the Outcomes of Interventions.- A Comprehensive Review of Sharma-Mittal Entropy Measures and their Usefulness in the Study of Discrete Probability Distributions in Mathematical Biology.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
