English

Approximation Algorithm for Generalized Budgeted Assignment Problems and Applications in Transportation Systems

Optimization and Control 2024-10-11 v4

Abstract

Motivated by a transit line planning problem in transportation systems, we investigate the following capacitated assignment problem under a budget constraint. Our model involves LL bins and PP items. Each bin ll has a utilization cost clc_l and an nln_l-dimensional capacity vector. Each item pp has an nln_l-dimensional binary weight vector rlpr_{lp}, where the 11s in rlpr_{lp} (if any) appear in consecutive positions, and its assignment to bin ll yields a reward vlpv_{lp}. The objective is to maximize total rewards through an assignment that satisfies three constraints: (i) the total weights of assigned items do not violate any bin's capacity; (ii) each item is assigned to at most one open bin; and (iii) the overall utilization costs remain within a total budget BB. We propose the first randomized rounding algorithm with a constant approximation ratio for this problem. We then apply our framework to the motivating transit line planning problem, presenting corresponding models and conducting numerical experiments using real-world data. Our results demonstrate significant improvements over previous approaches in addressing this critical transportation challenge.

Keywords

Cite

@article{arxiv.2208.11832,
  title  = {Approximation Algorithm for Generalized Budgeted Assignment Problems and Applications in Transportation Systems},
  author = {Hongyi Jiang and Samitha Samaranayake},
  journal= {arXiv preprint arXiv:2208.11832},
  year   = {2024}
}

Comments

The preliminary version, titled 'Approximation Algorithms for Capacitated Assignment with Budget Constraints and Applications in Transportation Systems,' was accepted at COCOON 2022. The extended version, now titled 'Approximation Algorithm for Generalized Budgeted Assignment Problems and Applications in Transportation Systems,' was accepted by Discrete Applied Mathematics

R2 v1 2026-06-25T01:57:37.484Z