English

Approximation Algorithms for Scheduling Crowdsourcing Tasks in Mobile Social Networks

Data Structures and Algorithms 2025-12-24 v2

Abstract

This paper addresses the scheduling problem in mobile social networks. We begin by proving that the approximation ratio analysis presented in the paper by Zhang \textit{et al.} (IEEE Transactions on Mobile Computing, 2025) is incorrect, and we provide the correct analysis results. Furthermore, when the required service time for a task exceeds the total contact time between the requester and the crowd worker, we demonstrate that the approximation ratio of the Largest-Ratio-First task scheduling algorithm can reach 21m2 - \frac{1}{m}. Next, we introduce a randomized approximation algorithm to minimize mobile social networks' total weighted completion time. This algorithm achieves an expected approximation ratio of 1.5+ϵ1.5 + \epsilon for ϵ>0\epsilon>0. Finally, we present a deterministic approximation algorithm that minimizes mobile social networks' total weighted completion time. This deterministic algorithm achieves an approximation ratio of max{2.5,1+ϵ}\max\left\{2.5,1+\epsilon\right\} for ϵ>0\epsilon>0. Additionally, when the task's required service time or the total contact time between the requester and the crowd worker is sufficiently large, this algorithm can reach an approximation ratio of 1.5+ϵ1.5+\epsilon for ϵ>0\epsilon>0.

Keywords

Cite

@article{arxiv.2508.04159,
  title  = {Approximation Algorithms for Scheduling Crowdsourcing Tasks in Mobile Social Networks},
  author = {Chi-Yeh Chen},
  journal= {arXiv preprint arXiv:2508.04159},
  year   = {2025}
}
R2 v1 2026-07-01T04:36:44.839Z