Estimation of PM2.5 Concentration Using Deep Bayesian Model Considering Spatial Multiscale

Abstract: Directly establishing the relationship between satellite data and PM2.5 concentration through deep learning methods for PM2.5 concentration estimation is an important means for estimating regional PM2.5 concentration. However, due to the lack of consideration of uncertainty in deep learning methods, methods based on deep learning have certain overfitting problems in the process of PM2.5 estimation. In response to this problem, this paper designs a deep Bayesian PM2.5 estimation model that takes into account mu… Show more

“…With the development of computer technology, machine learning (including deep learning) methods are increasingly used in the estimation of PM 2.5 concentrations due to their powerful non-linear modelling capabilities [16,17]. Such as support vector regression models [18,19], random forest models [20,21], artificial neural network models [22,23], Bayesian methods [24,25], generalised regression neural network models [26,27] and long and short-term memory networks [28], all of which have shown better performance than traditional statistical models in the estimation of PM 2.5 concentrations. In terms of the selection of influencing factors, these machine learning models used PM 2.5 information including adjacent temporal and spatial observations [29], land use information [30], vegetation index information [31], nitrogen dioxide (NO 2 ) concentration information [32], population density [33] and elevation [34], in addition to AOD and conventional meteorological observation parameters.…”

Spatio-Temporal Characteristics of PM2.5 Concentrations in China Based on Multiple Sources of Data and LUR-GBM during 2016–2021

“…With the development of computer technology, machine learning (including deep learning) methods are increasingly used in the estimation of PM 2.5 concentrations due to their powerful non-linear modelling capabilities [16,17]. Such as support vector regression models [18,19], random forest models [20,21], artificial neural network models [22,23], Bayesian methods [24,25], generalised regression neural network models [26,27] and long and short-term memory networks [28], all of which have shown better performance than traditional statistical models in the estimation of PM 2.5 concentrations. In terms of the selection of influencing factors, these machine learning models used PM 2.5 information including adjacent temporal and spatial observations [29], land use information [30], vegetation index information [31], nitrogen dioxide (NO 2 ) concentration information [32], population density [33] and elevation [34], in addition to AOD and conventional meteorological observation parameters.…”

Spatio-Temporal Characteristics of PM2.5 Concentrations in China Based on Multiple Sources of Data and LUR-GBM during 2016–2021

A comprehensive review delineates advancements in retrieving particulate matter utilising satellite aerosol optical depth: Parameter consideration, data processing, models development and future perspectives

DNN model reveals sharp decline in PM _2.5 concentration in the Yangtze River Delta during COVID-19 lockdown and lift lockdown