Forecasting hourly PM2.5 concentrations based on decomposition-ensemble-reconstruction framework incorporating deep learning algorithms

Data Science and Management Pub Date : 2023-03-01 DOI:10.1016/j.dsm.2023.02.002

Peilei Cai, Chengyuan Zhang, Jian Chai

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引用次数: 8

Abstract

Accurate predictions of hourly PM_2.5 concentrations are crucial for preventing the harmful effects of air pollution. In this study, a new decomposition-ensemble framework incorporating the variational mode decomposition method (VMD), econometric forecasting method (autoregressive integrated moving average model, ARIMA), and deep learning techniques (convolutional neural networks (CNN) and temporal convolutional network (TCN)) was developed to model the data characteristics of hourly PM_2.5 concentrations. Taking the PM_2.5 concentration of Lanzhou, Gansu Province, China as the sample, the empirical results demonstrated that the developed decomposition-ensemble framework is significantly superior to the benchmarks with the econometric model, machine learning models, basic deep learning models, and traditional decomposition-ensemble models, within one-, two-, or three-step-ahead. This study verified the effectiveness of the new prediction framework to capture the data patterns of PM_2.5 concentration and can be employed as a meaningful PM_2.5 concentrations prediction tool.

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基于结合深度学习算法的分解-集成-重建框架的每小时PM2.5浓度预测

准确预测每小时PM2.5浓度对于防止空气污染的有害影响至关重要。在本研究中，结合变分模式分解方法（VMD）、计量经济预测方法（自回归综合移动平均模型，ARIMA）和深度学习技术（卷积神经网络（CNN）和时间卷积网络（TCN）），开发了一个新的分解集成框架，对PM2.5小时浓度的数据特征进行建模。以中国甘肃省兰州市PM2.5浓度为样本，实证结果表明，所开发的分解集成框架显著优于计量经济模型、机器学习模型、基础深度学习模型和传统分解集成模型的基准，领先一步、两步或三步。本研究验证了新预测框架捕捉PM2.5浓度数据模式的有效性，可作为一种有意义的PM2.5浓度预测工具。

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来源期刊

Data Science and Management

CiteScore

7.50

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0.00%

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