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Main Author: Chen, Chi-Yeh
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.04159
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author Chen, Chi-Yeh
author_facet Chen, Chi-Yeh
contents 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 $2 - \frac{1}{m}$. Next, we introduce a randomized approximation algorithm to minimize mobile social networks' total weighted completion time. This algorithm achieves an expected approximation ratio of $1.5 + ε$ for $ε>0$. Finally, we present a deterministic approximation algorithm that minimizes mobile social networks' total weighted completion time. This deterministic algorithm achieves an approximation ratio of $\max\left\{2.5,1+ε\right\}$ for $ε>0$. 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 $1.5+ε$ for $ε>0$.
format Preprint
id arxiv_https___arxiv_org_abs_2508_04159
institution arXiv
publishDate 2025
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spellingShingle Approximation Algorithms for Scheduling Crowdsourcing Tasks in Mobile Social Networks
Chen, Chi-Yeh
Data Structures and Algorithms
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 $2 - \frac{1}{m}$. Next, we introduce a randomized approximation algorithm to minimize mobile social networks' total weighted completion time. This algorithm achieves an expected approximation ratio of $1.5 + ε$ for $ε>0$. Finally, we present a deterministic approximation algorithm that minimizes mobile social networks' total weighted completion time. This deterministic algorithm achieves an approximation ratio of $\max\left\{2.5,1+ε\right\}$ for $ε>0$. 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 $1.5+ε$ for $ε>0$.
title Approximation Algorithms for Scheduling Crowdsourcing Tasks in Mobile Social Networks
topic Data Structures and Algorithms
url https://arxiv.org/abs/2508.04159