Artificial neural networks to predict deformation modulus of rock masses considering overburden stress

IF 1.7 Q3 ENGINEERING, GEOLOGICAL Geomechanics and Geoengineering-An International Journal Pub Date : 2021-11-28 DOI:10.1080/17486025.2021.2008518

K. Tokgozoglu, Ç. Aladag, C. Gokceoglu

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引用次数: 1

Abstract

ABSTRACT The effect of overburden stress on the rock mass deformation modulus is a known issue. However, the effect of overburden stress has been studied less with empirical methods due to the lack of appropriate data. In this study, it is aimed to investigate the effect of overburden stress on rock mass deformation modulus using artificial neural network (ANN). Four ANN models have been developed in accordance with the purpose of the study. Two of these models do not contain the overburden stress parameter, but the other two models contain the overburden stress parameter. The prediction performance of the models containing the overburden stress parameter was obtained drastically higher than the others. In other words, the value account for (VAF) and root-mean-square error (RMSE) indices of the model having the inputs of rock mass rating (RMR) and elasticity modulus of intact rock (Ei) are 73.3% and 462, respectively, while those of the model having the inputs of RMR, Ei and overburden stress are 90% and 265. The other models developed in the present study yielded similar results. Consequently, with the ANN models developed in this study, the effect of overburden stress on Em is revealed, clearly.

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考虑覆岩应力的岩体变形模量人工神经网络预测

覆岩应力对岩体变形模量的影响是一个已知的问题。然而，由于缺乏适当的数据，用经验方法研究覆盖层应力的影响较少。本文采用人工神经网络(ANN)研究了覆盖层应力对岩体变形模量的影响。根据研究的目的，开发了四个人工神经网络模型。其中两个模型不包含覆岩应力参数，而另外两个模型包含覆岩应力参数。含覆岩应力参数的模型预测效果明显优于其他模型。也就是说，以岩体等级(RMR)和完整岩石弹性模量(Ei)为输入的模型的VAF值和RMSE值分别为73.3%和462，而以RMR、Ei和覆盖层应力为输入的模型的VAF值和RMSE值分别为90%和265。本研究中开发的其他模型也得出了类似的结果。因此，利用本研究建立的人工神经网络模型，可以清楚地揭示覆盖层应力对Em的影响。

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

Geomechanics and Geoengineering-An International Journal ENGINEERING, GEOLOGICAL-

CiteScore

3.80

自引率

0.00%

发文量

期刊介绍： Geomechanics is concerned with the application of the principle of mechanics to earth-materials (namely geo-material). Geoengineering covers a wide range of engineering disciplines related to geo-materials, such as foundation engineering, slope engineering, tunnelling, rock engineering, engineering geology and geo-environmental engineering. Geomechanics and Geoengineering is a major publication channel for research in the areas of soil and rock mechanics, geotechnical and geological engineering, engineering geology, geo-environmental engineering and all geo-material related engineering and science disciplines. The Journal provides an international forum for the exchange of innovative ideas, especially between researchers in Asia and the rest of the world.