Robust Multi-Objective Optimization for Bicycle Rebalancing in Shared Mobility Systems
Diego Daniel Pedroza-Perez, Gabriel Luque, Sergio Nesmachnow, Jamal Toutouh
TLDR
A robust multi-objective optimization framework rebalances shared bicycles, minimizing travel distance, unmet demand, and peak-demand service degradation.
Key contributions
- Models static overnight bicycle rebalancing as a tri-objective optimization problem under demand uncertainty.
- Minimizes total travel distance, expected unmet demand, and robustness-oriented unmet demand for high-demand scenarios.
- Employs NSGA-II with novel encoding and domain-specific operators for efficient trade-off solution approximation.
- Validated on Barcelona Bicing system, showing superior Pareto sets compared to greedy baselines.
Why it matters
Shared mobility systems need robust bicycle rebalancing. This paper offers a multi-objective optimization minimizing travel, unmet demand, and peak-demand service degradation. It enhances system reliability and user satisfaction.
Original Abstract
Dock-based bike-sharing systems exhibit spatial imbalances between bicycle supply and user demand, often addressed through overnight truck-based rebalancing. This work studies static overnight rebalancing under demand uncertainty modeled as a tri-objective optimization problem. The objectives minimize total travel distance, expected unmet demand, and a robustness-oriented unmet demand measure over high-demand scenarios. Route plans are evaluated via a recourse simulation that enforces truck loads and station capacity constraints across multiple demand realizations. The robustness objective supports selecting plans that reduce peak-demand service degradation. Trade-off solutions are approximated with Non-dominated Sorting Genetic Algorithm II using a permutation--partition encoding and domain-specific relocation operators, including a biased best-improvement move for station relocation. Experiments on the real Barcelona Bicing system with 460 stations show well-distributed Pareto sets and substantial contributions to the reference non-dominated set. Greedy constructive baselines mainly yield extreme solutions and are often dominated.
📬 Weekly AI Paper Digest
Get the top 10 AI/ML arXiv papers from the week — summarized, scored, and delivered to your inbox every Monday.