Deep learning Feedforward Neural Network in predicting model of Environmental risk factors in the Sohar region

Artificial Intelligence & Robotics Development Journal Pub Date : 2023-01-01 DOI:10.52098/airdj.202257

Yusra Khamis, Jabar H. Yousif

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引用次数: 2

Abstract

AQI (Air Quality Index) is the standard degree that guides us to measure air pollution levels such as PM2.5, O3, NO2, and SO2 to show the state of air quality. Polluted gas causes much damage and problems to people, plants, and the environment because of its negative impact. Data mining successfully examines an enormous cluster of data to recognize associations, determine relations between variables, and predict future values. In this paper, an experimental study was performed on analyzing the previous dataset of (PM2.5 and O3) for accurately predicting AQI using deep learning Feedforward Neural network techniques. The deep learning (Feedforward Neural Network (FFNN) predicting models are employed to evaluate based on R, R², MSE, MAE, and RMSE criteria using historical data from (the Ministry of Environment-Oman). Different epochs and a different number of hidden layers are deployed to improve and boost performance. In FFNN, the epochs number increase by 50,100 and 500 while the hidden layer utilized to 1,5 and 10. This optimization technique exceeds the performance from R=0.892 to R=0.992 in predicting the level of (PM2.5) and the (O3) from R=0.864 to R=0.999. The results show that the Sohar Region in a safe level of AQI.

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深度学习前馈神经网络在苏哈尔地区环境风险因素预测模型中的应用

AQI(空气质量指数)是指导我们测量PM2.5、O3、NO2、SO2等空气污染水平，以显示空气质量状况的标准度。由于其负面影响，被污染的气体对人类、植物和环境造成了很大的损害和问题。数据挖掘成功地检查了大量的数据，以识别关联，确定变量之间的关系，并预测未来的值。本文利用深度学习前馈神经网络技术，对(PM2.5和O3)数据集进行分析，实现对空气质量的准确预测。采用深度学习前馈神经网络(FFNN)预测模型，基于R、R²、MSE、MAE和RMSE标准，使用阿曼环境部的历史数据进行评估。部署不同的时代和不同数量的隐藏层来改进和提高性能。在FFNN中，epoch数分别增加了50,100和500，而隐含层则分别增加了1,5和10。该优化技术在预测PM2.5水平和O3水平上的性能分别优于R=0.892 ~ 0.992和R=0.864 ~ 0.999。结果表明，苏哈尔区空气质量处于安全水平。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Artificial Intelligence & Robotics Development Journal

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