English

Competitive Online Optimization under Inventory Constraints

Performance 2024-12-20 v1 Data Structures and Algorithms Systems and Control Systems and Control Optimization and Control

Abstract

This paper studies online optimization under inventory (budget) constraints. While online optimization is a well-studied topic, versions with inventory constraints have proven difficult. We consider a formulation of inventory-constrained optimization that is a generalization of the classic one-way trading problem and has a wide range of applications. We present a new algorithmic framework, \textsf{CR-Pursuit}, and prove that it achieves the minimal competitive ratio among all deterministic algorithms (up to a problem-dependent constant factor) for inventory-constrained online optimization. Our algorithm and its analysis not only simplify and unify the state-of-the-art results for the standard one-way trading problem, but they also establish novel bounds for generalizations including concave revenue functions. For example, for one-way trading with price elasticity, the \textsf{CR-Pursuit} algorithm achieves a competitive ratio that is within a small additive constant (i.e., 1/3) to the lower bound of lnθ+1\ln \theta+1, where θ\theta is the ratio between the maximum and minimum base prices.

Keywords

Cite

@article{arxiv.1901.09161,
  title  = {Competitive Online Optimization under Inventory Constraints},
  author = {Qiulin Lin and Hanling Yi and John Pang and Minghua Chen and Adam Wierman and Michael Honig and Yuanzhang Xiao},
  journal= {arXiv preprint arXiv:1901.09161},
  year   = {2024}
}

Comments

The first two authors contribute to the work equally. Manuscript submitted October 22, 2018; accepted December 17, 2018; to appear in ACM SIGMETRICS 2019

R2 v1 2026-06-23T07:22:51.044Z