Improving air quality assessment using physics-inspired deep graph learning

被引:0
|
作者
Lianfa Li
Jinfeng Wang
Meredith Franklin
Qian Yin
Jiajie Wu
Gustau Camps-Valls
Zhiping Zhu
Chengyi Wang
Yong Ge
Markus Reichstein
机构
[1] Chinese Academy of Sciences,State Key Laboratory of Resources and Environmental Information System, Institute of Geographic Sciences and Natural Resources Research
[2] University of Southern California,Department of Preventive Medicine
[3] University of Toronto,Department of Statistical Sciences
[4] University of València,Image Processing Laboratory (IPL)
[5] Chinese Academy of Sciences,National Engineering Research Center for Geomatics, Aerospace Information Research Institute
[6] Max Planck Institute for Biogeochemistry,undefined
来源
npj Climate and Atmospheric Science | / 6卷
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摘要
Existing methods for fine-scale air quality assessment have significant gaps in their reliability. Purely data-driven methods lack any physically-based mechanisms to simulate the interactive process of air pollution, potentially leading to physically inconsistent or implausible results. Here, we report a hybrid multilevel graph neural network that encodes fluid physics to capture spatial and temporal dynamic characteristics of air pollutants. On a multi-air pollutant test in China, our method consistently improved extrapolation accuracy by an average of 11–22% compared to several baseline machine learning methods, and generated physically consistent spatiotemporal trends of air pollutants at fine spatial and temporal scales.
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