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Optimising pandemic response through vaccination strategies using neural networks

Author

Listed:
  • Chang Zhai
  • Ping Chen
  • Zhuo Jin
  • David Pitt

Abstract

Epidemic risk assessment poses inherent challenges, with traditional approaches often failing to balance health outcomes and economic constraints. This paper presents a data-driven decision support tool that models epidemiological dynamics and optimises vaccination strategies to control disease spread whilst minimising economic losses. The proposed economic-epidemiological framework comprises three phases: modelling, optimising, and analysing. First, a stochastic compartmental model captures epidemic dynamics. Second, an optimal control problem is formulated to derive vaccination strategies that minimise pandemic-related expenditure. Given the analytical intractability of epidemiological models, neural networks are employed to calibrate parameters and solve the high-dimensional control problem. The framework is demonstrated using COVID-19 data from Victoria, Australia, empirically deriving optimal vaccination strategies that simultaneously minimise disease incidence and governmental expenditure. By employing this three-phase framework, policymakers can adjust input values to reflect evolving transmission dynamics and continuously update strategies, thereby minimising aggregate costs, aiding future pandemic preparedness.

Suggested Citation

  • Chang Zhai & Ping Chen & Zhuo Jin & David Pitt, 2025. "Optimising pandemic response through vaccination strategies using neural networks," Papers 2511.16932, arXiv.org.
    • Handle: RePEc:arx:papers:2511.16932
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