English

A Compact Cycle Formulation for the Multiperiodic Event Scheduling Problem

Optimization and Control 2025-07-24 v1

Abstract

The Periodic Event Scheduling Problem (PESP) is a fundamental model in periodic timetabling for public transport systems, assuming a common period across all events. However, real-world networks often feature heterogeneous service frequencies. This paper studies the Multiperiodic Event Scheduling Problem (MPESP), a generalization of PESP that allows each event to recur at its own individual period. While more expressive, MPESP presents new modeling challenges due to the loss of a global period. We present a cycle-based formulation for MPESP that extends the strongest known formulation for PESP and, in contrast to existing approaches, is valid for any MPESP instance. Crucially, the formulation requires a cycle basis derived from a spanning tree satisfying specific structural properties, which we formalize and algorithmically construct, extending the concept of sharp spanning trees to rooted instances. We further prove a multiperiodic analogue of the cycle periodicity property. Our new formulation solves nearly all tested instances, including several large-scale real-world public transport networks, to optimality or with small optimality gaps, dramatically outperforming existing arc-based models. The results demonstrate the practical potential of MPESP in capturing heterogeneous frequencies without resorting to artificial event duplication.

Keywords

Cite

@article{arxiv.2507.17566,
  title  = {A Compact Cycle Formulation for the Multiperiodic Event Scheduling Problem},
  author = {Rolf Nelson van Lieshout and Niels Lindner},
  journal= {arXiv preprint arXiv:2507.17566},
  year   = {2025}
}
R2 v1 2026-07-01T04:15:23.908Z