Modelling the Pm2.5 concentration in cities with high traffic noise using artificial intelligence-based ensemble approach

IF 0.5 Q4 MULTIDISCIPLINARY SCIENCES Trakya University Journal of Natural Sciences Pub Date : 2022-08-25 DOI:10.23902/trkjnat.1062091
I. Umar, M. N. Yahya
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Abstract

Fine particulate matter (PM2.5) has been linked to a number of adverse health effects, hence its prediction for epidemiolocal studies has become very crucial. In this study, a novel ensemble technique was proposed for the prediction of PM2.5 concentration in cities with high traffic noise using traffic noise as an input parameter. Air pollutants concentration (P), meteorological parameters (M) and traffic data (T) simultaneously collected from seven sampling points in North Cyprus were used for conducting the study. The modelling was done in 2 scenarios. In scenario I, PM2.5 was modelled using 4-different input combination without traffic noise as input parameter while in scenario II, traffic noise was added as an input variable for 4 input combinations. The models were evaluated using four performance criteria including Nash-Sutcliffe efficiency (NSE), root mean square error (RMSE), correlation coefficient (CC) and bias (BIAS). Modelling PM2.5 with combined relevant input parameters of P, M and T could improve the performance of the model developed with only one set of the parameters by up to 12, 17 and 29% for models containing only P, M and T respectively. All the models in scenario II have demonstrated high prediction accuracy than the corresponding model in scenario I by up to 12% in the verification stage. The SVR-E could improve the performance accuracy of the single models by up to 17% in the verification stage.
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基于人工智能的集成方法模拟高交通噪声城市Pm2.5浓度
细颗粒物(PM2.5)与许多不利的健康影响有关,因此对流行病学研究的预测变得非常重要。本研究以交通噪声为输入参数,提出了一种预测高交通噪声城市PM2.5浓度的集成方法。空气污染物浓度(P)、气象参数(M)和交通数据(T)同时从北塞浦路斯的七个采样点收集,用于进行研究。建模分为两种情况。在情景1中,PM2.5模型采用4种不同的输入组合,不使用交通噪声作为输入参数;在情景2中,在4种输入组合中加入交通噪声作为输入变量。采用Nash-Sutcliffe效率(NSE)、均方根误差(RMSE)、相关系数(CC)和偏倚(bias) 4个性能标准对模型进行评价。对于只包含P、M和T的模型,将相关输入参数P、M和T组合在一起建模PM2.5,可以使仅使用一组参数开发的模型的性能分别提高12%、17%和29%。在验证阶段,场景II的所有模型都比场景I的对应模型显示出较高的预测精度,最高可达12%。在验证阶段,SVR-E可以将单个模型的性能精度提高17%。
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Trakya University Journal of Natural Sciences
Trakya University Journal of Natural Sciences MULTIDISCIPLINARY SCIENCES-
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