Shinobu Utsumi scite author profile

Vaccination, if available, is the best preventive measure against infectious diseases. It is, however, needed to prudently design vaccination strategies to successfully mitigate the disease spreading, especially in a time when vaccine scarcity is inevitable. Here we investigate a vaccination strategy on a scale-free network where susceptible individuals, who have social connections with infected people, are being detected and given vaccination before having any physical contact with the infected one. Nevertheless, detecting susceptible (also infected ones) may not be perfect due to the lack of information. Also, vaccines do not confer perfect immunity in reality. We incorporate these pragmatic hindrances in our analysis. We find that if vaccines are highly efficacious, and the detecting error is low, then it is possible to confine the disease spreading—by administering a less amount of vaccination—within a short period. In a situation where tracing susceptible seems difficult, then expanding the range for vaccination targets can be socially advantageous only if vaccines are effective enough. Our analysis further reveals that a more frequent screening for vaccination can reduce the effect of detecting errors. In the end, we present a link percolation-based analytic method to approximate the results of our simulation.

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Does a resource-storing mechanism favor “the wealthy do not fight”?—An approach from evolutionary game theory

Utsumi

Tatsukawa

Tanimoto

2022

Chaos, Solitons & Fractals

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Social dilemma analysis on vaccination game accounting for the effect of immunity waning

Nishimura

Arefin

Tatsukawa

et al. 2023

Chaos, Solitons & Fractals

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Stochastic resonance effect observed in a vaccination game with effectiveness framework obeying the SIR process on a scale-free network

Okita

Tatsukawa

Utsumi

et al. 2023

Chaos, Solitons & Fractals

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Shinobu Utsumi

How and to what extent does the anti-social behavior of violating self-quarantine measures increase the spread of disease?

Investigating the efficiency of dynamic vaccination by consolidating detecting errors and vaccine efficacy

Does a resource-storing mechanism favor “the wealthy do not fight”?—An approach from evolutionary game theory

Social dilemma analysis on vaccination game accounting for the effect of immunity waning

Stochastic resonance effect observed in a vaccination game with effectiveness framework obeying the SIR process on a scale-free network

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