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Bibliographic Details
Main Authors: Zhou, Ruiqi, Zhu, Donghao, Shen, Houcai
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2602.22412
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author Zhou, Ruiqi
Zhu, Donghao
Shen, Houcai
author_facet Zhou, Ruiqi
Zhu, Donghao
Shen, Houcai
contents In matching markets such as kidney exchanges and freight exchanges, delayed matching has been shown to improve overall market efficiency. The benefits of delay are highly sensitive to participants' sojourn times and departure behavior, and delaying matches can impose significant costs, including longer waiting times and increased market congestion. These competing effects make fixed matching policies inherently inflexible in dynamic environments. We propose a learning-based Hybrid framework that adaptively combines immediate and delayed matching. The framework continuously collects data on user departures over time, estimates the underlying departure distribution via regression, and determines whether to delay matching in the subsequent period based on a decision threshold that governs the system's tolerance for matching efficiency loss. The proposed framework can substantially reduce waiting times and congestion while sacrificing only a limited amount of matching efficiency. By dynamically adjusting its matching strategy, the Hybrid framework enables system performance to flexibly interpolate between purely greedy and purely patient policies, offering a robust and adaptive alternative to static matching mechanisms.
format Preprint
id arxiv_https___arxiv_org_abs_2602_22412
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle A Learning-Based Hybrid Decision Framework for Matching Systems with User Departure Detection
Zhou, Ruiqi
Zhu, Donghao
Shen, Houcai
Machine Learning
Human-Computer Interaction
Information Theory
General Economics
Economics
In matching markets such as kidney exchanges and freight exchanges, delayed matching has been shown to improve overall market efficiency. The benefits of delay are highly sensitive to participants' sojourn times and departure behavior, and delaying matches can impose significant costs, including longer waiting times and increased market congestion. These competing effects make fixed matching policies inherently inflexible in dynamic environments. We propose a learning-based Hybrid framework that adaptively combines immediate and delayed matching. The framework continuously collects data on user departures over time, estimates the underlying departure distribution via regression, and determines whether to delay matching in the subsequent period based on a decision threshold that governs the system's tolerance for matching efficiency loss. The proposed framework can substantially reduce waiting times and congestion while sacrificing only a limited amount of matching efficiency. By dynamically adjusting its matching strategy, the Hybrid framework enables system performance to flexibly interpolate between purely greedy and purely patient policies, offering a robust and adaptive alternative to static matching mechanisms.
title A Learning-Based Hybrid Decision Framework for Matching Systems with User Departure Detection
topic Machine Learning
Human-Computer Interaction
Information Theory
General Economics
Economics
url https://arxiv.org/abs/2602.22412