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Spatiotemporal Fracture Data Inference in Sparse Urban CrowdSensing

En Wang, Mijia Zhang, Yuanbo Xu, Haoyi Xiong, Yongjian Yang

2022IEEE INFOCOM 2022 - IEEE Conference on Computer Communications23 citationsDOI

Abstract

While Mobile CrowdSensing (MCS) has become a popular paradigm that recruits mobile users to carry out various sensing tasks collaboratively, the performance of MCS is frequently degraded due to the limited spatiotemporal coverage in data collection. A possible way here is to incorporate sparse MCS with data inference, where unsensed data could be completed through prediction. However, the spatiotemporal data inference is usually "fractured" with poor performance, because of following challenges: 1) the sparsity of the sensed data, 2) the unpredictability of a spatiotemporal fracture and 3) the complex spatiotemporal relations. To resolve such fracture data issues, we elaborate a data generative model for achieving spatiotemporal fracture data inference in sparse MCS. Specifically, an algorithm named Generative High-Fidelity Matrix Completion (GHFMC) is proposed through combining traditional Deep Matrix Factorization (DMF) and Generative Adversarial Networks (GAN) for generating spatiotemporal fracture data. Along this line, GHFMC learns to extract the features of spatiotemporal data and further efficiently complete and predict the unsensed data by using Binary Cross Entropy (BCE) loss. Finally, we conduct experiments on three popular datasets. The experimental results show that our approach performs higher than the state-of-the-art (SOTA) baselines in both data inference accuracy and fidelity.

Topics & Concepts

Computer scienceInferenceArtificial intelligenceSynthetic dataMachine learningSparse matrixData modelingGenerative modelData miningGenerative grammarPattern recognition (psychology)GaussianQuantum mechanicsDatabasePhysicsMobile Crowdsensing and CrowdsourcingIndoor and Outdoor Localization TechnologiesHuman Mobility and Location-Based Analysis
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