To assess the exposure of citizens to pollutants like NOx or particulate matter in urban areas, land use regression (LUR) models are a well established method. LUR models leverage information about environmental and anthropogenic factors such as cars, heating, or industry to predict air pollution in areas where no measurements have been made. However, existing approaches are often not globally applicable and require tedious hyper-parameter tuning to enable high quality predictions. In this work, we tackle these issues by introducing OpenLUR, an off-the-shelf approach for modeling air pollution that (i) works on a set of novel features solely extracted from the globally and openly available data source OpenStreetMap and (ii) is based on state-of-the-art machine learning featuring automated hyper-parameter tuning in order to minimize manual effort. We show that our proposed features are able to outperform their counterparts from local and closed sources, and illustrate how automated hyper parameter tuning can yield competitve results while alleviating the need for expert knowledge in machine learning and manual effort. Importantly, we further demonstrate the potential of the global availability of our features by applying cross-learning across different cities in order to reduce the need for a large amount of training samples. Overall, OpenLUR represents an off-the-shelf approach that facilitates easily reproducible experiments and the development of globally applicable models.
Beschreibung
OpenLUR: Off-the-shelf air pollution modeling with open features and machine learning - ScienceDirect
%0 Journal Article
%1 lautenschlager2020openlur
%A Lautenschlager, Florian
%A Becker, Martin
%A Kobs, Konstantin
%A Steininger, Michael
%A Davidson, Padraig
%A Krause, Anna
%A Hotho, Andreas
%D 2020
%J Atmospheric Environment
%K accepted lur myown
%P 117535
%R https://doi.org/10.1016/j.atmosenv.2020.117535
%T OpenLUR: Off-the-shelf air pollution modeling with open features and machine learning
%U http://www.sciencedirect.com/science/article/pii/S1352231020302703
%V 233
%X To assess the exposure of citizens to pollutants like NOx or particulate matter in urban areas, land use regression (LUR) models are a well established method. LUR models leverage information about environmental and anthropogenic factors such as cars, heating, or industry to predict air pollution in areas where no measurements have been made. However, existing approaches are often not globally applicable and require tedious hyper-parameter tuning to enable high quality predictions. In this work, we tackle these issues by introducing OpenLUR, an off-the-shelf approach for modeling air pollution that (i) works on a set of novel features solely extracted from the globally and openly available data source OpenStreetMap and (ii) is based on state-of-the-art machine learning featuring automated hyper-parameter tuning in order to minimize manual effort. We show that our proposed features are able to outperform their counterparts from local and closed sources, and illustrate how automated hyper parameter tuning can yield competitve results while alleviating the need for expert knowledge in machine learning and manual effort. Importantly, we further demonstrate the potential of the global availability of our features by applying cross-learning across different cities in order to reduce the need for a large amount of training samples. Overall, OpenLUR represents an off-the-shelf approach that facilitates easily reproducible experiments and the development of globally applicable models.
@article{lautenschlager2020openlur,
abstract = {To assess the exposure of citizens to pollutants like NOx or particulate matter in urban areas, land use regression (LUR) models are a well established method. LUR models leverage information about environmental and anthropogenic factors such as cars, heating, or industry to predict air pollution in areas where no measurements have been made. However, existing approaches are often not globally applicable and require tedious hyper-parameter tuning to enable high quality predictions. In this work, we tackle these issues by introducing OpenLUR, an off-the-shelf approach for modeling air pollution that (i) works on a set of novel features solely extracted from the globally and openly available data source OpenStreetMap and (ii) is based on state-of-the-art machine learning featuring automated hyper-parameter tuning in order to minimize manual effort. We show that our proposed features are able to outperform their counterparts from local and closed sources, and illustrate how automated hyper parameter tuning can yield competitve results while alleviating the need for expert knowledge in machine learning and manual effort. Importantly, we further demonstrate the potential of the global availability of our features by applying cross-learning across different cities in order to reduce the need for a large amount of training samples. Overall, OpenLUR represents an off-the-shelf approach that facilitates easily reproducible experiments and the development of globally applicable models.},
added-at = {2020-06-03T08:56:23.000+0200},
author = {Lautenschlager, Florian and Becker, Martin and Kobs, Konstantin and Steininger, Michael and Davidson, Padraig and Krause, Anna and Hotho, Andreas},
biburl = {https://www.bibsonomy.org/bibtex/2990070887f2a7ce3048481cb3fccdd8e/msteininger},
description = {OpenLUR: Off-the-shelf air pollution modeling with open features and machine learning - ScienceDirect},
doi = {https://doi.org/10.1016/j.atmosenv.2020.117535},
interhash = {b8e2652a325259ae87548cec407ba018},
intrahash = {990070887f2a7ce3048481cb3fccdd8e},
issn = {1352-2310},
journal = {Atmospheric Environment},
keywords = {accepted lur myown},
pages = 117535,
timestamp = {2022-10-27T08:22:14.000+0200},
title = {OpenLUR: Off-the-shelf air pollution modeling with open features and machine learning},
url = {http://www.sciencedirect.com/science/article/pii/S1352231020302703},
volume = 233,
year = 2020
}