通过综合深度学习方法推进含水层脆弱性绘图工作

IF 9.7 1区 环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL
Fatemeh Faal, Mohammad Reza Nikoo, Seyed Mohammad Ashrafi, Jirka Simunek
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引用次数: 0

摘要

地下水脆弱性地图对于保护地下水质量至关重要。在利用先进的数据融合技术识别受海水入侵影响的区域方面存在研究空白。针对这一空白,本研究对 GALDIT 方法进行了改进,并结合机器学习技术,应用了多种深度学习模型,以提高含水层脆弱性绘图的精度。新的 GALDITMW 模型纳入了海水混合指数以及与生产井密度和含水层多孔介质相关的参数。首次将深度神经网络、深度信念网络、深度堆叠自动编码器和卷积神经网络等监督和非监督深度学习模型用于脆弱性绘图。第二阶段,融合各种机器学习模型的结果以提高性能。伊朗中部与盐湖水力相连的含水层面临地下水枯竭和盐碱化问题,使用基于总溶解固体(TDS)的脆弱性指数对模型的有效性进行了评估。根据性能指标和混淆矩阵对模型进行的评估表明,初始深度学习模型表现良好。在涉及机器学习模型的第二阶段,观察到了显著的改进,证实了这些模型与观测到的氯化物值具有很强的相关性(R2 > 0.985)。与第一阶段模型相比,GPR 模型的 F1 得分为 86.92%,NSE 为 0.911,RMSE 降低了 0.026 mg/L。所提出的方法为识别脆弱区域提供了一种新颖而准确的方法,并为地下水资源管理提供了有用的信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Advancing Aquifer Vulnerability Mapping through Integrated Deep Learning Approaches

Advancing Aquifer Vulnerability Mapping through Integrated Deep Learning Approaches
Groundwater vulnerability maps are crucial for safeguarding groundwater quality. A research gap exists in using advanced data fusion techniques to identify areas subject to seawater intrusion. To address this gap, this research enhances the GALDIT method and applies diverse deep learning models, combined with machine learning techniques, to improve the precision of aquifer vulnerability mapping. The new GALDITMW model incorporates the seawater mixing index and the parameters related to the production well density and aquifer porous medium. For the first time, supervised and unsupervised deep learning models, such as deep neural networks, deep belief networks, deep stacked autoencoders, and convolutional neural networks, are used for vulnerability mapping. In the second stage, the results of various machine learning models are fused to improve performance. The models' effectiveness is evaluated using a vulnerability index based on total dissolved solids (TDS) in an aquifer hydraulically connected with Salt Lake in central Iran, which faces groundwater depletion and salinization. The evaluation of the models based on performance metrics and the confusion matrix demonstrates that initial deep-learning models perform well. Significant improvements were observed in the second stage involving machine learning models, confirming their strong correlation (R2 > 0.985) with observed chloride values. The GPR model achieved an F1 score of 86.92%, an NSE of 0.911, and an RMSE reduction of 0.026 mg/L compared to the first-stage models. The proposed method offers a novel and accurate method for identifying vulnerable areas and provides helpful information for groundwater resource management.
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来源期刊
Journal of Cleaner Production
Journal of Cleaner Production 环境科学-工程:环境
CiteScore
20.40
自引率
9.00%
发文量
4720
审稿时长
111 days
期刊介绍: The Journal of Cleaner Production is an international, transdisciplinary journal that addresses and discusses theoretical and practical Cleaner Production, Environmental, and Sustainability issues. It aims to help societies become more sustainable by focusing on the concept of 'Cleaner Production', which aims at preventing waste production and increasing efficiencies in energy, water, resources, and human capital use. The journal serves as a platform for corporations, governments, education institutions, regions, and societies to engage in discussions and research related to Cleaner Production, environmental, and sustainability practices.
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