Mutual Information Maximization-Based Collaborative Data Collection With Calibration Constraint

People pay greater attention to air quality which is closely related to their health, especially in developing countries. Air quality is a part of the Chinese weather forecast, and the government has developed air quality monitoring systems and built high-quality monitoring stations (HQMS). With the...

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Main Authors: Bo Zhang, Teng Xi, Xiangyang Gong, Wendong Wang
Format: Article
Language:English
Published: IEEE 2019-01-01
Series:IEEE Access
Subjects:
Online Access:https://ieeexplore.ieee.org/document/8626122/
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spelling doaj-64be062b4c3742ddaa8899de360c5a022021-03-29T22:03:35ZengIEEEIEEE Access2169-35362019-01-017211882120010.1109/ACCESS.2019.28953758626122Mutual Information Maximization-Based Collaborative Data Collection With Calibration ConstraintBo Zhang0https://orcid.org/0000-0002-1210-8735Teng Xi1Xiangyang Gong2https://orcid.org/0000-0002-0631-9747Wendong Wang3State Key Laboratory of Networking and Switching Technology, Beijing University of Posts and Telecommunications, Beijing, ChinaState Key Laboratory of Networking and Switching Technology, Beijing University of Posts and Telecommunications, Beijing, ChinaState Key Laboratory of Networking and Switching Technology, Beijing University of Posts and Telecommunications, Beijing, ChinaState Key Laboratory of Networking and Switching Technology, Beijing University of Posts and Telecommunications, Beijing, ChinaPeople pay greater attention to air quality which is closely related to their health, especially in developing countries. Air quality is a part of the Chinese weather forecast, and the government has developed air quality monitoring systems and built high-quality monitoring stations (HQMS). With the data from HQMS, many companies and research institutes demonstrate an accurate air pollution map on the Internet, which is valuable for many issues related to air quality, including exposure modeling and urban planning. Due to the high equipment and operating costs, the distribution of HQMS is too uneven and sparse to achieve a high-resolution air pollution map. Thus, people try to deploy a large number of high precision sensors in and around the city for detecting air pollution. However, these sensors require frequent calibrations with the HQMS to maintain data accuracy. On the other side, to reduce the cost of sensor deployment, people begin to use mobile sensors instead of fixed sensors, which make sensor route planning a very important issue. Nevertheless, existing works on the route planning of mobile sensors largely focus on data reconstruction, which either ignores calibration or views it as an independent problem. In this paper, we propose a novel scheme to improve the accuracy of data reconstruction, which jointly considers sensor calibration and data reconstruction in route planning for mobile sensors. We formulate a novel sensor route planning problem (SRPP) that aims to maximize the mutual information and guarantee the accuracy of measurements through the sensor calibration. We also propose a heuristic algorithm to solve the SRPP, which supports calibration between mobile sensors and HQMS in route planning. The extensive simulation results well justify the effectiveness of our approach that can reduce 83% root mean square error on average compared with the traditional approach.https://ieeexplore.ieee.org/document/8626122/Air qualityair pollution mapcollaborative data collectionsensor route planningmutual information
collection DOAJ
language English
format Article
sources DOAJ
author Bo Zhang
Teng Xi
Xiangyang Gong
Wendong Wang
spellingShingle Bo Zhang
Teng Xi
Xiangyang Gong
Wendong Wang
Mutual Information Maximization-Based Collaborative Data Collection With Calibration Constraint
IEEE Access
Air quality
air pollution map
collaborative data collection
sensor route planning
mutual information
author_facet Bo Zhang
Teng Xi
Xiangyang Gong
Wendong Wang
author_sort Bo Zhang
title Mutual Information Maximization-Based Collaborative Data Collection With Calibration Constraint
title_short Mutual Information Maximization-Based Collaborative Data Collection With Calibration Constraint
title_full Mutual Information Maximization-Based Collaborative Data Collection With Calibration Constraint
title_fullStr Mutual Information Maximization-Based Collaborative Data Collection With Calibration Constraint
title_full_unstemmed Mutual Information Maximization-Based Collaborative Data Collection With Calibration Constraint
title_sort mutual information maximization-based collaborative data collection with calibration constraint
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2019-01-01
description People pay greater attention to air quality which is closely related to their health, especially in developing countries. Air quality is a part of the Chinese weather forecast, and the government has developed air quality monitoring systems and built high-quality monitoring stations (HQMS). With the data from HQMS, many companies and research institutes demonstrate an accurate air pollution map on the Internet, which is valuable for many issues related to air quality, including exposure modeling and urban planning. Due to the high equipment and operating costs, the distribution of HQMS is too uneven and sparse to achieve a high-resolution air pollution map. Thus, people try to deploy a large number of high precision sensors in and around the city for detecting air pollution. However, these sensors require frequent calibrations with the HQMS to maintain data accuracy. On the other side, to reduce the cost of sensor deployment, people begin to use mobile sensors instead of fixed sensors, which make sensor route planning a very important issue. Nevertheless, existing works on the route planning of mobile sensors largely focus on data reconstruction, which either ignores calibration or views it as an independent problem. In this paper, we propose a novel scheme to improve the accuracy of data reconstruction, which jointly considers sensor calibration and data reconstruction in route planning for mobile sensors. We formulate a novel sensor route planning problem (SRPP) that aims to maximize the mutual information and guarantee the accuracy of measurements through the sensor calibration. We also propose a heuristic algorithm to solve the SRPP, which supports calibration between mobile sensors and HQMS in route planning. The extensive simulation results well justify the effectiveness of our approach that can reduce 83% root mean square error on average compared with the traditional approach.
topic Air quality
air pollution map
collaborative data collection
sensor route planning
mutual information
url https://ieeexplore.ieee.org/document/8626122/
work_keys_str_mv AT bozhang mutualinformationmaximizationbasedcollaborativedatacollectionwithcalibrationconstraint
AT tengxi mutualinformationmaximizationbasedcollaborativedatacollectionwithcalibrationconstraint
AT xiangyanggong mutualinformationmaximizationbasedcollaborativedatacollectionwithcalibrationconstraint
AT wendongwang mutualinformationmaximizationbasedcollaborativedatacollectionwithcalibrationconstraint
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