Spatio-temporal games of voluntary vaccination in the absence of the infection: the interplay of local versus non-local information about vaccine adverse events
DOI10.3934/mbe.2020058zbMath1470.92187OpenAlexW2987940169WikidataQ90792390 ScholiaQ90792390MaRDI QIDQ2045765
Annunziata Palumbo, Piero Manfredi, Antonella Lupica, Alberto d'Onofrio, Vitaly A. Volpert
Publication date: 13 August 2021
Published in: Mathematical Biosciences and Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.3934/mbe.2020058
traveling wavesvaccinationinfectious diseasesintegrodifferentialnonlocalhuman behaviorspatiotemporal
Applications of game theory (91A80) Stability in context of PDEs (35B35) Medical epidemiology (92C60) Traveling wave solutions (35C07)
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Convergence to a pulsating travelling wave for an epidemic reaction-diffusion system with non-diffusive susceptible population
- Turing-Hopf instability in biochemical reaction networks arising from pairs of subnetworks
- Statistical physics of vaccination
- A generalization of the Kermack-McKendrick deterministic epidemic model
- Pattern formation in systems with one spatially distributed species
- Traveling wave solutions in a two-group SIR epidemic model with constant recruitment
- A vector-host epidemic model with spatial structure and age of infection
- Optimal time-profiles of public health intervention to shape voluntary vaccination for childhood diseases
- Front solutions for the Ginzburg-Landau equation
- Effect of seasonality on the dynamics of an imitation-based vaccination model with public health intervention
- Modeling the Interplay Between Human Behavior and the Spread of Infectious Diseases
- The spread of awareness and its impact on epidemic outbreaks
- A New Product Growth for Model Consumer Durables
- Stability of plane wave solutions of complex Ginzburg-Landau equations
- Mathematical Structures of Epidemic Systems
- Global Solution for a Diffusive Nonlinear Deterministic Epidemic Model
- Propagation of frontal polymerization—crystallization waves
- A spatially stochastic epidemic model with partial immunization shows in mean field approximation the reinfection threshold
- The chemical basis of morphogenesis
- On the Basic Reproduction Number of Reaction-Diffusion Epidemic Models
- Elliptic Partial Differential Equations
- Generalized travelling waves for perturbed monotone reaction-diffusion systems
This page was built for publication: Spatio-temporal games of voluntary vaccination in the absence of the infection: the interplay of local versus non-local information about vaccine adverse events
