New interpretable deep learning model to monitor real-time PM2.5 concentrations from satellite data

New interpretable deep learning model to monitor real-time PM2.5 concentrations from satellite data

Particulate matter with a mass concentration of particles with a diameter less than 2.5 μm (PM2.5) is a key air quality parameter. A real-time knowledge of PM2.5 is highly valuable for lowering the risk of detrimental impacts on human health. To achieve this goal, we developed a new deep learning mo...

Full description

Bibliographic Details
Main Authors: Xing Yan, Zhou Zang, Nana Luo, Yize Jiang, Zhanqing Li
Format: Article
Language:English
Published: Elsevier 2020-11-01
Series:Environment International
Subjects:
Deep learning
Satellite
PM2.5
Himawari-8
Online Access:http://www.sciencedirect.com/science/article/pii/S0160412020320158
id doaj-dd0e90798e184075b217429f512d7462
record_format Article
spelling doaj-dd0e90798e184075b217429f512d74622020-11-25T03:53:54ZengElsevierEnvironment International0160-41202020-11-01144106060New interpretable deep learning model to monitor real-time PM2.5 concentrations from satellite dataXing Yan0Zhou Zang1Nana Luo2Yize Jiang3Zhanqing Li4State Key Laboratory of Remote Sensing Science, College of Global Change and Earth System Science, Beijing Normal University, Beijing 100875, ChinaState Key Laboratory of Remote Sensing Science, College of Global Change and Earth System Science, Beijing Normal University, Beijing 100875, ChinaState Key Laboratory of Remote Sensing Science, College of Global Change and Earth System Science, Beijing Normal University, Beijing 100875, China; Department of Geography, San Diego State University, 5500 Campanile Dr., San Diego, CA 92182-4493, USAState Key Laboratory of Remote Sensing Science, College of Global Change and Earth System Science, Beijing Normal University, Beijing 100875, ChinaDepartment of Atmospheric and Oceanic Sciences and ESSIC, University of Maryland, College Park, MD, USA; Corresponding author.Particulate matter with a mass concentration of particles with a diameter less than 2.5 μm (PM2.5) is a key air quality parameter. A real-time knowledge of PM2.5 is highly valuable for lowering the risk of detrimental impacts on human health. To achieve this goal, we developed a new deep learning model-EntityDenseNet to retrieve ground-level PM2.5 concentrations from Himawari-8, a geostationary satellite providing high temporal resolution data. In contrast to the traditional machine learning model, the new model has the capability to automatically extract PM2.5 spatio-temporal characteristics. Validation across mainland China demonstrates that hourly, daily and monthly PM2.5 retrievals contain the root-mean-square errors of 26.85, 25.3, and 15.34 μg/m3, respectively. In addition to a higher accuracy achievement when compared with various machine learning inversion methods (backpropagation neural network, extreme gradient boosting, light gradient boosting machine, and random forest), EntityDenseNet can “peek inside the black box” to extract the spatio-temporal features of PM2.5. This model can show, for example, that PM2.5 levels in the coastal city of Tianjin were more influenced by air from Hebei than Beijing. Further, EntityDenseNet can still extract the seasonal characteristics that demonstrate that PM2.5 is more closely related within three month groups over mainland China: (1) December, January and February, (2) March, April and May, (3) July, August and September, even without meteorological information. EntityDenseNet has the ability to obtain high temporal resolution satellite-based PM2.5 data over China in real-time. This could act as an important tool to improve our understanding of PM2.5 spatio-temporal features.http://www.sciencedirect.com/science/article/pii/S0160412020320158Deep learningSatellitePM2.5Himawari-8
collection DOAJ
language English
format Article
sources DOAJ
author Xing Yan
Zhou Zang
Nana Luo
Yize Jiang
Zhanqing Li
spellingShingle Xing Yan
Zhou Zang
Nana Luo
Yize Jiang
Zhanqing Li
New interpretable deep learning model to monitor real-time PM2.5 concentrations from satellite data
Environment International
Deep learning
Satellite
PM2.5
Himawari-8
author_facet Xing Yan
Zhou Zang
Nana Luo
Yize Jiang
Zhanqing Li
author_sort Xing Yan
title New interpretable deep learning model to monitor real-time PM2.5 concentrations from satellite data
title_short New interpretable deep learning model to monitor real-time PM2.5 concentrations from satellite data
title_full New interpretable deep learning model to monitor real-time PM2.5 concentrations from satellite data
title_fullStr New interpretable deep learning model to monitor real-time PM2.5 concentrations from satellite data
title_full_unstemmed New interpretable deep learning model to monitor real-time PM2.5 concentrations from satellite data
title_sort new interpretable deep learning model to monitor real-time pm2.5 concentrations from satellite data
publisher Elsevier
series Environment International
issn 0160-4120
publishDate 2020-11-01
description Particulate matter with a mass concentration of particles with a diameter less than 2.5 μm (PM2.5) is a key air quality parameter. A real-time knowledge of PM2.5 is highly valuable for lowering the risk of detrimental impacts on human health. To achieve this goal, we developed a new deep learning model-EntityDenseNet to retrieve ground-level PM2.5 concentrations from Himawari-8, a geostationary satellite providing high temporal resolution data. In contrast to the traditional machine learning model, the new model has the capability to automatically extract PM2.5 spatio-temporal characteristics. Validation across mainland China demonstrates that hourly, daily and monthly PM2.5 retrievals contain the root-mean-square errors of 26.85, 25.3, and 15.34 μg/m3, respectively. In addition to a higher accuracy achievement when compared with various machine learning inversion methods (backpropagation neural network, extreme gradient boosting, light gradient boosting machine, and random forest), EntityDenseNet can “peek inside the black box” to extract the spatio-temporal features of PM2.5. This model can show, for example, that PM2.5 levels in the coastal city of Tianjin were more influenced by air from Hebei than Beijing. Further, EntityDenseNet can still extract the seasonal characteristics that demonstrate that PM2.5 is more closely related within three month groups over mainland China: (1) December, January and February, (2) March, April and May, (3) July, August and September, even without meteorological information. EntityDenseNet has the ability to obtain high temporal resolution satellite-based PM2.5 data over China in real-time. This could act as an important tool to improve our understanding of PM2.5 spatio-temporal features.
topic Deep learning
Satellite
PM2.5
Himawari-8
url http://www.sciencedirect.com/science/article/pii/S0160412020320158
work_keys_str_mv AT xingyan newinterpretabledeeplearningmodeltomonitorrealtimepm25concentrationsfromsatellitedata
AT zhouzang newinterpretabledeeplearningmodeltomonitorrealtimepm25concentrationsfromsatellitedata
AT nanaluo newinterpretabledeeplearningmodeltomonitorrealtimepm25concentrationsfromsatellitedata
AT yizejiang newinterpretabledeeplearningmodeltomonitorrealtimepm25concentrationsfromsatellitedata
AT zhanqingli newinterpretabledeeplearningmodeltomonitorrealtimepm25concentrationsfromsatellitedata
_version_ 1724475932266201088

Similar Items