Carbon emissions prediction based on ensemble models: An empirical analysis from China

IF 4.8 2区环境科学与生态学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Environmental Modelling & Software Pub Date : 2025-03-18 DOI:10.1016/j.envsoft.2025.106437

Song Hu , Shixuan Li , Lin Gong , Dan Liu , Zhe Wang , Gangyan Xu

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引用次数: 0

Abstract

The global warming problem has seriously threatened the sustainable development of human society. In order to effectively control carbon emissions, this study integrates economic, social, energy, and environment (ESEE) factors to develop a comprehensive, multi-dimensional carbon emissions prediction (CEP) index system, crucial for analyzing the determinants of carbon emissions and forecasting future emissions. Then employ a grey correlation analysis (GRA), followed by a genetic algorithm-based (GA-based) feature extraction method to demonstrate the strong correlation between selected factors and carbon emissions and refine the input of single and ensemble machine learning models for predicting carbon emissions in China. The number of selected economic factors is the highest, followed by energy factors, with only one social and environmental factors being selected. Meanwhile, the prediction results show that Bagging-ANN outperforms other algorithms with the lowest R² value of 0.8792, followed by Voting, Stacking, ANN, Bagging-SVR and SVR.

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基于集合模型的碳排放预测：来自中国的实证分析

全球变暖问题已经严重威胁到人类社会的可持续发展。为了有效控制碳排放，本研究整合经济、社会、能源和环境（ESEE）因素，构建了一个综合性、多维度的碳排放预测（CEP）指标体系，这对于分析碳排放的决定因素和预测未来排放至关重要。然后采用灰色关联分析（GRA）和基于遗传算法（ga）的特征提取方法来证明所选因素与碳排放之间的强相关性，并改进单一和集成机器学习模型的输入，用于预测中国的碳排放。选择的经济因素数量最多，其次是能源因素，只有一个社会和环境因素被选择。同时，预测结果显示Bagging-ANN算法的R2值最低，为0.8792，其次是Voting、Stacking、ANN、Bagging-SVR和SVR。

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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来源期刊

Environmental Modelling & Software 工程技术-工程：环境

CiteScore

9.30

自引率

8.20%

发文量

241

审稿时长

60 days

期刊介绍： Environmental Modelling & Software publishes contributions, in the form of research articles, reviews and short communications, on recent advances in environmental modelling and/or software. The aim is to improve our capacity to represent, understand, predict or manage the behaviour of environmental systems at all practical scales, and to communicate those improvements to a wide scientific and professional audience.