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Strategizing Equitable Transit Evacuations: A Data-Driven Reinforcement Learning Approach

Machine Learning 2024-12-10 v1 Artificial Intelligence Computers and Society Systems and Control Systems and Control

Abstract

As natural disasters become increasingly frequent, the need for efficient and equitable evacuation planning has become more critical. This paper proposes a data-driven, reinforcement learning-based framework to optimize bus-based evacuations with an emphasis on improving both efficiency and equity. We model the evacuation problem as a Markov Decision Process solved by reinforcement learning, using real-time transit data from General Transit Feed Specification and transportation networks extracted from OpenStreetMap. The reinforcement learning agent dynamically reroutes buses from their scheduled location to minimize total passengers' evacuation time while prioritizing equity-priority communities. Simulations on the San Francisco Bay Area transportation network indicate that the proposed framework achieves significant improvements in both evacuation efficiency and equitable service distribution compared to traditional rule-based and random strategies. These results highlight the potential of reinforcement learning to enhance system performance and urban resilience during emergency evacuations, offering a scalable solution for real-world applications in intelligent transportation systems.

Keywords

Cite

@article{arxiv.2412.05777,
  title  = {Strategizing Equitable Transit Evacuations: A Data-Driven Reinforcement Learning Approach},
  author = {Fang Tang and Han Wang and Maria Laura Delle Monache},
  journal= {arXiv preprint arXiv:2412.05777},
  year   = {2024}
}

Comments

17 pages, 9 figures

R2 v1 2026-06-28T20:26:45.902Z