I've studied quite a tiny bit of epidemiology and its intersection with evolutionary game theory, so I hope to do some experiments of my own here. All with the hopes of improving my understanding, reading a bit more and possible educating.
Continuous SIRDiscrete SIRNetwork discrete SIR- Network SIR with dynamic time step (Gillespie)
- Study how various vaccination policies may affect a population
- How best to distribute subsidy?
- Studying influence of new disease mitigation strategies
- How varying models of disease influence?
- Zhang et al. Effects of behavioral response and vaccination policy on epidemic spreading - an approach based on evolutionary-game dynamics
- Fu et al., Imitation Dynamics of Vaccination Behaviour on Social Networks
- Madar et al., Immunization and Epidemic Dynamics in Complex Networks
- Tatsukawa et al., Free Ticket, Discount Ticket or Intermediate of the Best of Two Worlds – Which Subsidy Policy Is Socially Optimal to Suppress the Disease Spreading?
- Zhang et al., Effects of Behavioral Response and Vaccination Policy on Epidemic Spreading - an Approach Based on Evolutionary-Game Dynamics
- Zhang et al., Impacts of Subsidy Policies on Vaccination Decisions in Contact Networks
- Zhang et al., Braess’s Paradox in Epidemic Game
Policy Resistance Undermines Superspreader Vaccination Strategies for Influenza Social Contact Networks and Disease Eradicability under Voluntary Vaccination
-Papst, O’Keeffe, and Strogatz, Modeling the Interplay between Seasonal Flu Outcomes and Individual Vaccination Decisions