Litcius/Paper detail

A hybrid deep learning framework for air quality prediction with spatial autocorrelation during the COVID-19 pandemic

Zixi Zhao, Jinran Wu, Fengjing Cai, Shaotong Zhang, You‐Gan Wang

2023Scientific Reports57 citationsDOIOpen Access PDF

Abstract

China implemented a strict lockdown policy to prevent the spread of COVID-19 in the worst-affected regions, including Wuhan and Shanghai. This study aims to investigate impact of these lockdowns on air quality index (AQI) using a deep learning framework. In addition to historical pollutant concentrations and meteorological factors, we incorporate social and spatio-temporal influences in the framework. In particular, spatial autocorrelation (SAC), which combines temporal autocorrelation with spatial correlation, is adopted to reflect the influence of neighbouring cities and historical data. Our deep learning analysis obtained the estimates of the lockdown effects as - 25.88 in Wuhan and - 20.47 in Shanghai. The corresponding prediction errors are reduced by about 47% for Wuhan and by 67% for Shanghai, which enables much more reliable AQI forecasts for both cities.

Topics & Concepts

AutocorrelationSpatial analysisCoronavirus disease 2019 (COVID-19)Air quality indexPandemicDeep learningComputer scienceEnvironmental scienceChinaAir pollutantsIndex (typography)2019-20 coronavirus outbreakEconometricsMeteorologyStatisticsGeographyAir pollutionArtificial intelligenceMathematicsEcologyMedicineBiologyWorld Wide WebPathologyDiseaseOutbreakArchaeologyInfectious disease (medical specialty)VirologyCOVID-19 impact on air qualityAir Quality Monitoring and ForecastingAir Quality and Health Impacts
A hybrid deep learning framework for air quality prediction with spatial autocorrelation during the COVID-19 pandemic | Litcius