Selecting most informative contributors with unknown costs for budgeted crowdsensing

2016 IEEE/ACM 24th International Symposium on Quality of Service (IWQoS) Pub Date : 2016-06-20 DOI:10.1109/IWQoS.2016.7590447

Shuo Yang, Fan Wu, Shaojie Tang, Tie Luo, Xiaofeng Gao, L. Kong, Guihai Chen

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引用次数: 23

Abstract

Mobile crowdsensing has become a novel and promising paradigm in collecting environmental data. A critical problem in improving the QoS of crowdsensing is to decide which users to select to perform sensing tasks, in order to obtain the most informative data, while maintaining the total sensing costs below a given budget. The key challenges lie in (i) finding an effective measure of the informativeness of users' data, (ii) learning users' sensing costs which are unknown a priori, and (iii) designing efficient user selection algorithms that achieve low-regret guarantees. In this paper, we build Gaussian Processes (GPs) to model spatial locations, and provide a mutual information-based criteria to characterize users' informativeness. To tackle the second and third challenges, we model the problem as a budgeted multi-armed bandit (MAB) problem based on stochastic assumptions, and propose an algorithm with theoretically proven low-regret guarantee. Our theoretical analysis and evaluation results both demonstrate that our algorithm can efficiently select most informative users under stringent constraints.

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选择最具信息性且成本未知的贡献者进行预算众测

移动众测已成为收集环境数据的一种新颖而有前途的范例。提高群体感知服务质量的一个关键问题是选择哪些用户来执行感知任务，以获得信息量最大的数据，同时保持总感知成本低于给定的预算。关键的挑战在于(i)找到用户数据信息量的有效度量，(ii)学习先验未知的用户感知成本，以及(iii)设计实现低后悔保证的高效用户选择算法。在本文中，我们建立高斯过程(GPs)来建模空间位置，并提供一个基于互信息的标准来表征用户的信息性。为了解决第二和第三个问题，我们将其建模为基于随机假设的预算多臂强盗(MAB)问题，并提出了一种具有理论证明的低后悔保证的算法。理论分析和评价结果均表明，在严格的约束条件下，该算法能够有效地选择出信息量最大的用户。

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2016 IEEE/ACM 24th International Symposium on Quality of Service (IWQoS)

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