Data-Driven Framework for Understanding and Predicting Air Quality in Urban Areas

Monitoring, predicting, and controlling the air quality in urban areas is one of the effective solutions for tackling the climate change problem. Leveraging the availability of big data in different domains like pollutant concentration, urban traffic, aerial imagery of terrains and vegetation, and w...

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Veröffentlicht in:Frontiers in big data Jg. 5; S. 822573
Hauptverfasser: Babu Saheer, Lakshmi, Bhasy, Ajay, Maktabdar, Mahdi, Zarrin, Javad
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Switzerland Frontiers Media S.A 25.03.2022
Schlagworte:
aerial view image recognition
Big Data
climate change mitigation
machine learning and deep learning algorithms
regression based prediction algorithms
urban air quality
urban vegetation detection
urban vegetation detection
climate change mitigation
machine learning and deep learning algorithms
aerial view image recognition
regression based prediction algorithms
urban air quality
cost effective modeling
ISSN:2624-909X, 2624-909X
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Zusammenfassung:Monitoring, predicting, and controlling the air quality in urban areas is one of the effective solutions for tackling the climate change problem. Leveraging the availability of big data in different domains like pollutant concentration, urban traffic, aerial imagery of terrains and vegetation, and weather conditions can aid in understanding the interactions between these factors and building a reliable air quality prediction model. This research proposes a novel cost-effective and efficient air quality modeling framework including all these factors employing state-of-the-art artificial intelligence techniques. The framework also includes a novel deep learning-based vegetation detection system using aerial images. The pilot study conducted in the UK city of Cambridge using the proposed framework investigates various predictive models ranging from statistical to machine learning and deep recurrent neural network models. This framework opens up possibilities of broadening air quality modeling and prediction to other domains like vegetation or green space planning or green traffic routing for sustainable urban cities. The research is mainly focused on extracting strong pieces of evidence which could be useful in proposing better policies around climate change.
Bibliographie:ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
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Edited by: Yves Philippe Rybarczyk, Dalarna University, Sweden
This article was submitted to Data-driven Climate Sciences, a section of the journal Frontiers in Big Data
Reviewed by: Roberto Corizzo, American University, United States; Rasa Zalakeviciute, University of the Americas, Ecuador
ISSN:2624-909X
2624-909X
DOI:10.3389/fdata.2022.822573