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Using deep transfer learning and satellite imagery to estimate urban air quality in data-poor regions

Nishant Yadav, Meytar Sorek‐Hamer, Michael Von Pohle, Ata Akbari Asanjan, Adwait Sahasrabhojanee, Esra Süel, Raphael E. Arku, Violet Lingenfelter, Michael Bräuer, Majid Ezzati, Nikunj C. Oza, Auroop R. Ganguly

2023Environmental Pollution14 citationsDOIOpen Access PDF

Abstract

Urban air pollution is a critical public health challenge in low-and-middle-income countries (LMICs). At the same time, LMICs tend to be data-poor, lacking adequate infrastructure to monitor air quality (AQ). As LMICs undergo rapid urbanization, the socio-economic burden of poor AQ will be immense. Here we present a globally scalable two-step deep learning (DL) based approach for AQ estimation in LMIC cities that mitigates the need for extensive AQ infrastructure on the ground. We train a DL model that can map satellite imagery to AQ in high-income countries (HICs) with sufficient ground data, and then adapt the model to learn meaningful AQ estimates in LMIC cities using transfer learning. The trained model can explain up to 54% of the variation in the AQ distribution of the target LMIC city without the need for target labels. The approach is demonstrated for Accra in Ghana, Africa, with AQ patterns learned and adapted from two HIC cities, specifically Los Angeles and New York.

Topics & Concepts

UrbanizationSatellite imageryAir quality indexSatelliteTransfer of learningDeep learningAir pollutionEstimationComputer scienceDeveloping countryDistribution (mathematics)Environmental planningRemote sensingGeographyMeteorologyArtificial intelligenceEconomic growthMathematicsEngineeringEconomicsManagementAerospace engineeringChemistryMathematical analysisOrganic chemistryAir Quality and Health ImpactsAir Quality Monitoring and ForecastingCOVID-19 impact on air quality
Using deep transfer learning and satellite imagery to estimate urban air quality in data-poor regions | Litcius