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Remote Laboratory Management: Respiratory Virus Diagnostics
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Real-time responses to epidemics: A Reinforcement-Learning approach.

Gabriele Gemignani1,2, Alberto d'Onofrio3, Alberto Landi1

  • 1Department of Information Engineering, University of Pisa, via G. Caruso 16, Pisa, 56122, Italy.

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Summary
This summary is machine-generated.

This study introduces a closed-loop Reinforcement Learning (RL) framework for adaptive social distancing during epidemics. It balances health and indirect costs, enabling real-time policy adjustments for effective pandemic management.

Keywords:
Real-time epidemic responseReinforcement Learningclosed-loop optimal controldirect and indirect epidemic costsepidemic modelling

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Area of Science:

  • Epidemiology
  • Control Theory
  • Computational Science

Background:

  • Open-loop optimal control for epidemics assumes perfect knowledge, lacking real-time adaptability.
  • Existing methods fail to integrate evolving epidemic data for policy adjustments.
  • This limitation hinders effective pandemic response and preparedness.

Purpose of the Study:

  • To develop a closed-loop method for real-time social distancing policy management during epidemics.
  • To create a Reinforcement Learning (RL)-based decision-support framework for adaptive epidemic control.
  • To balance public health outcomes with indirect socioeconomic costs of interventions.

Main Methods:

  • Proposed a novel closed-loop Reinforcement Learning (RL) framework for adaptive social distancing.
  • Utilized a COVID-19 model incorporating asymptomatic transmission, healthcare capacity, and quarantine.
  • Evaluated the framework's performance under varying indirect cost priorities during a severe outbreak.

Main Results:

  • The closed-loop RL framework demonstrated adaptive management of social distancing policies.
  • Optimal real-time responses varied, leading to different policy strategies (elimination, suppression, mitigation).
  • Policy outcomes were contingent on the prioritization of indirect costs by authorities.

Conclusions:

  • Closed-loop adaptability enables dynamic policy adjustments, optimizing epidemic control.
  • The RL framework supports informed, timely decision-making for governments and health agencies.
  • This approach enhances preparedness and response strategies for current and future pandemics.