%0 Journal Article %1 maag2017multihop %A Maag, Balz %A Zhou, Zimu %A Saukh, Olga %A Thiele, Lothar %C New York, NY, USA %D 2017 %I ACM %J Proc. ACM Interact. Mob. Wearable Ubiquitous Technol. %K array box calibration eva everyaware hop multi no2 p2map sensor %N 2 %P 19:1--19:21 %R 10.1145/3090084 %T SCAN: Multi-Hop Calibration for Mobile Sensor Arrays %U http://doi.acm.org/10.1145/3090084 %V 1 %X Urban air pollution monitoring with mobile, portable, low-cost sensors has attracted increasing research interest for their wide spatial coverage and affordable expenses to the general public. However, low-cost air quality sensors not only drift over time but also suffer from cross-sensitivities and dependency on meteorological effects. Therefore calibration of measurements from low-cost sensors is indispensable to guarantee data accuracy and consistency to be fit for quantitative studies on air pollution. In this work we propose sensor array network calibration (SCAN), a multi-hop calibration technique for dependent low-cost sensors. SCAN is applicable to sets of co-located, heterogeneous sensors, known as sensor arrays, to compensate for cross-sensitivities and dependencies on meteorological influences. SCAN minimizes error accumulation over multiple hops of sensor arrays, which is unattainable with existing multi-hop calibration techniques. We formulate SCAN as a novel constrained least-squares regression and provide a closed-form expression of its regression parameters. We theoretically prove that SCAN is free from regression dilution even in presence of measurement noise. In-depth simulations demonstrate that SCAN outperforms various calibration techniques. Evaluations on two real-world low-cost air pollution sensor datasets comprising 66 million samples collected over three years show that SCAN yields 16% to 60% lower error than state-of-the-art calibration techniques.

@article{maag2017multihop, abstract = {Urban air pollution monitoring with mobile, portable, low-cost sensors has attracted increasing research interest for their wide spatial coverage and affordable expenses to the general public. However, low-cost air quality sensors not only drift over time but also suffer from cross-sensitivities and dependency on meteorological effects. Therefore calibration of measurements from low-cost sensors is indispensable to guarantee data accuracy and consistency to be fit for quantitative studies on air pollution. In this work we propose sensor array network calibration (SCAN), a multi-hop calibration technique for dependent low-cost sensors. SCAN is applicable to sets of co-located, heterogeneous sensors, known as sensor arrays, to compensate for cross-sensitivities and dependencies on meteorological influences. SCAN minimizes error accumulation over multiple hops of sensor arrays, which is unattainable with existing multi-hop calibration techniques. We formulate SCAN as a novel constrained least-squares regression and provide a closed-form expression of its regression parameters. We theoretically prove that SCAN is free from regression dilution even in presence of measurement noise. In-depth simulations demonstrate that SCAN outperforms various calibration techniques. Evaluations on two real-world low-cost air pollution sensor datasets comprising 66 million samples collected over three years show that SCAN yields 16% to 60% lower error than state-of-the-art calibration techniques.}, acmid = {3090084}, added-at = {2018-11-09T09:01:27.000+0100}, address = {New York, NY, USA}, articleno = {19}, author = {Maag, Balz and Zhou, Zimu and Saukh, Olga and Thiele, Lothar}, biburl = {https://www.bibsonomy.org/bibtex/289c7cfd6f452a8507199cdb4ee6956e0/becker}, description = {SCAN}, doi = {10.1145/3090084}, interhash = {4d5cb6a006cc5a66367420c07cffafa1}, intrahash = {89c7cfd6f452a8507199cdb4ee6956e0}, issn = {2474-9567}, issue_date = {June 2017}, journal = {Proc. ACM Interact. Mob. Wearable Ubiquitous Technol.}, keywords = {array box calibration eva everyaware hop multi no2 p2map sensor}, month = jun, number = 2, numpages = {21}, pages = {19:1--19:21}, publisher = {ACM}, timestamp = {2018-11-09T09:01:27.000+0100}, title = {SCAN: Multi-Hop Calibration for Mobile Sensor Arrays}, url = {http://doi.acm.org/10.1145/3090084}, volume = 1, year = 2017 }