Prediction of PM2.5 via precursor method using meteorological parameters

Prediction of PM2.5 via precursor method using meteorological parameters

Air pollution is one of the major environmental concerns faced by many countries including Pakistan. Being the major component of the pollution, particulate matters 2.5µm diameter (PM2.5), are known to highly raise health risks to people in the country. The present study investigates the modelling a...

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Bibliographic Details
Main Authors: Naeem Sadiq, Zaheer Uddin
Format: Article
Language:English
Published: University of Bologna 2025-02-01
Series:EQA
Subjects:
pm2.5
meteorological parameters
artificial neural network
air quality index
lahore
karachi
Online Access:https://eqa.unibo.it/article/view/21009
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Summary:Air pollution is one of the major environmental concerns faced by many countries including Pakistan. Being the major component of the pollution, particulate matters 2.5µm diameter (PM2.5), are known to highly raise health risks to people in the country. The present study investigates the modelling and prediction of particulate matter 2.5µm using its precursor values and meteorological parameters; temperature, humidity levels, and wind speeds in Lahore and Karachi. The air quality of Lahore repeatedly plummets to hazardous levels in the winter season which is a severe threat to the public health and environment. An Artificial Neural Network (ANN) architecture  was designed to predict PM2.5 by employing meteorological parameters (temperature, relative humidity & wind speed) and precursor values of PM2.5. The model consists of an input layer with four input variables, a hidden layer with 10 neurons, and an output layer consisting of  PM2.5. The model was used for both the cities of Lahore and Karachi. The Root Mean Square Error (RMSE) value for Karachi was less than 18 and for Lahore, it was 39. The prediction of PM2.5 via ANN was good for Lahore and Karachi. However, the results of the modeling are better for Karachi. The accuracy of  results were further verified by Mean Absolute Percentage Error (MAPE), Mean Absolute Bias Error (MABE), and Chi square statistics (Chi).
ISSN:2039-9898
2281-4485

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