利用最优深度神经网络模型增强曼谷底土的三维地质和岩土工程模型

IF 2.8 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES Environmental Earth Sciences Pub Date : 2024-11-13 DOI:10.1007/s12665-024-11942-2
Punthin Pintusorachai, Weeradetch Tanapalungkorn, Suched Likitlersuang
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引用次数: 0

摘要

了解底土的岩土特性对于设计和施工过程中的安全和效率非常重要。尤其是曼谷大都会地区的底土长期积累了软质海相粘土,形成了厚厚的软质粘土层,这给工程师带来了挑战。本研究提出了一种对曼谷大都会地区底土进行建模的方法,即利用大量钻孔数据集,并通过深度神经网络(DNN)模型进行增强,来绘制三维岩土地图。对 DNN 的超参数进行了调整,以适应数据集的土层分类,并生成回归模型来预测曼谷底土的岩土工程特性,包括体积单位重、含水量、塑性指数、排水剪切强度和 SPT-N 值。对 DNN 模型的性能进行了评估,以确保其预测的准确性和可靠性。生成的三维岩土地图与传统克里金法获得的地图进行了比较,以验证地图的准确性以及这两种方法的结果差异。这项研究展示了机器学习技术在改进岩土工程制图和岩土工程信息方面的潜力。这项研究的成果还有助于实现可持续发展目标(SDGs),特别是可持续发展目标 9(通过提供准确的岩土数据来加强可持续基础设施规划)和可持续发展目标 11(通过完善城市地区的底土模型来促进更安全、更可持续的城市发展,同时降低施工中的环境风险)。
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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Enhancing 3D geological and geotechnical engineering model of Bangkok subsoil using optimal deep neural network models

Understanding the geotechnical characteristics of subsoil is important for safety and efficiency in design and construction processes. In particular, the subsoil in the Bangkok Metropolitan area has accumulated soft marine clay over a long period, resulting in a thick layer of soft clay, which poses challenges for engineers. This study presents an approach to modelling the subsoil of the Bangkok Metropolitan region by utilising a large dataset of borehole data, enhanced with a Deep Neural Network (DNN) model, to develop a 3D geotechnical map. The hyperparameters of the DNN were tuned to fit the dataset for classifying the soil layers and the regression models were generated to predict the geotechnical engineering properties of the Bangkok subsoil, including the bulk unit weight, water content, plasticity index, undrained shear strength, and SPT-N values. The DNN model performance has been evaluated to ensure the accuracy and reliability of its predictions. The generated 3D geotechnical map was compared with the map obtained from the traditional kriging method to verify the map accuracy and differences in results between these two approaches. This study demonstrates the potential of machine learning techniques for improving geotechnical mapping and geotechnical engineering information. The outcomes of this research also support Sustainable Development Goals (SDGs), particularly SDG 9, by providing accurate geotechnical data to enhance sustainable infrastructure planning, and SDG 11, by refining the subsoil model in urban areas, which contributes to safer and more sustainable urban development while reducing environmental risks in construction.

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来源期刊
Environmental Earth Sciences
Environmental Earth Sciences 环境科学-地球科学综合
CiteScore
5.10
自引率
3.60%
发文量
494
审稿时长
8.3 months
期刊介绍: Environmental Earth Sciences is an international multidisciplinary journal concerned with all aspects of interaction between humans, natural resources, ecosystems, special climates or unique geographic zones, and the earth: Water and soil contamination caused by waste management and disposal practices Environmental problems associated with transportation by land, air, or water Geological processes that may impact biosystems or humans Man-made or naturally occurring geological or hydrological hazards Environmental problems associated with the recovery of materials from the earth Environmental problems caused by extraction of minerals, coal, and ores, as well as oil and gas, water and alternative energy sources Environmental impacts of exploration and recultivation – Environmental impacts of hazardous materials Management of environmental data and information in data banks and information systems Dissemination of knowledge on techniques, methods, approaches and experiences to improve and remediate the environment In pursuit of these topics, the geoscientific disciplines are invited to contribute their knowledge and experience. Major disciplines include: hydrogeology, hydrochemistry, geochemistry, geophysics, engineering geology, remediation science, natural resources management, environmental climatology and biota, environmental geography, soil science and geomicrobiology.
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