Saved in:
Bibliographic Details
Main Authors: Wu, Zhibin, Shen, Songhao, Zhou, Yufeng, Lei, Qin
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2601.11010
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866917206249439232
author Wu, Zhibin
Shen, Songhao
Zhou, Yufeng
Lei, Qin
author_facet Wu, Zhibin
Shen, Songhao
Zhou, Yufeng
Lei, Qin
contents In services such as retail audits and urban infrastructure monitoring, a platform dispatches rewarded, location-based micro-tasks to mobile workers traveling along personal origin-destination (OD) trips under hard time budgets. As requests with time constraints arrive online over a finite horizon, the platform must decide which requests to accept and how to route workers to maximize collected profit. We model this setting as the Dynamic Team Orienteering Problem in Spatial Crowdsourcing (DTOP-SC). To solve this problem, we propose a scenario-sampling rolling-horizon framework that mitigates myopic bias by augmenting each planning epoch with sampled virtual tasks. At each epoch, the augmented task set defines a deterministic static subproblem solved via an adaptive large neighborhood search (ALNS). We also formulate a mixed-integer programming model to provide offline reference solutions. Computational experiments are conducted on synthetic DTOP-SC instances generated from real-world road-map coordinates and on a dynamic team orienteering (DTOP) benchmark. On the map-based instances, the proposed policy exhibits stable gaps with respect to time-limited MIP solutions across the tested scales, while maintaining smooth computational scalability as the problem size increases. On the DTOP benchmark, the policy achieves an average decision time of 0.14s per instance, with 192-198s reported for multiple plan approach as an indicative reference, while maintaining competitive profit.
format Preprint
id arxiv_https___arxiv_org_abs_2601_11010
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle The Dynamic Team Orienteering Problem in Spatial Crowdsourcing: A Scenario Sampling Approach
Wu, Zhibin
Shen, Songhao
Zhou, Yufeng
Lei, Qin
Optimization and Control
In services such as retail audits and urban infrastructure monitoring, a platform dispatches rewarded, location-based micro-tasks to mobile workers traveling along personal origin-destination (OD) trips under hard time budgets. As requests with time constraints arrive online over a finite horizon, the platform must decide which requests to accept and how to route workers to maximize collected profit. We model this setting as the Dynamic Team Orienteering Problem in Spatial Crowdsourcing (DTOP-SC). To solve this problem, we propose a scenario-sampling rolling-horizon framework that mitigates myopic bias by augmenting each planning epoch with sampled virtual tasks. At each epoch, the augmented task set defines a deterministic static subproblem solved via an adaptive large neighborhood search (ALNS). We also formulate a mixed-integer programming model to provide offline reference solutions. Computational experiments are conducted on synthetic DTOP-SC instances generated from real-world road-map coordinates and on a dynamic team orienteering (DTOP) benchmark. On the map-based instances, the proposed policy exhibits stable gaps with respect to time-limited MIP solutions across the tested scales, while maintaining smooth computational scalability as the problem size increases. On the DTOP benchmark, the policy achieves an average decision time of 0.14s per instance, with 192-198s reported for multiple plan approach as an indicative reference, while maintaining competitive profit.
title The Dynamic Team Orienteering Problem in Spatial Crowdsourcing: A Scenario Sampling Approach
topic Optimization and Control
url https://arxiv.org/abs/2601.11010