Calibration of DEM macro and micro parameters via XGBoost method

IF 2.3 3区 工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Granular Matter Pub Date : 2022-09-05 DOI:10.1007/s10035-022-01264-0
Zongqing Zhou, Songsong Bai, Kaiwei Chu, Jinglong Li, Jiwei Sun, Meixia Wang, Yi Sun, Minghao Li, Yuhan Liu
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引用次数: 2

Abstract

To solve the complicated macro and micro parameter calibration problem in the discrete element method (DEM) simulation of rock mechanics, macro parameter prediction and micro parameter inversion model are established based on the XGBoost model. Firstly, a parameter database for the uniaxial compressive test in DEM has been established by literature research and numerical simulation. The critical parameters in the uniaxial compressive test have been chosen with data and theoretical analysis. The influence of the number of selected parameters on accuracy has also been discussed. Then, the prediction model and inversion model have been established which can complete the calibration quickly. The two models were tested by test samples, and the accuracy of the model can generally reach more than 90%. This research has great significance for improving the efficiency of discrete element modeling.

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用XGBoost方法标定DEM宏、微观参数
为解决岩石力学离散元法(DEM)模拟中复杂的宏、微观参数标定问题,基于XGBoost模型建立了宏观参数预测和微观参数反演模型。首先,通过文献研究和数值模拟,建立了DEM中单轴压缩试验参数库;通过数据和理论分析,确定了单轴压缩试验的关键参数。还讨论了所选参数数目对精度的影响。建立预测模型和反演模型,快速完成定标。两种模型通过测试样本进行了测试,模型的准确率一般可以达到90%以上。该研究对提高离散元建模效率具有重要意义。
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来源期刊
Granular Matter
Granular Matter Materials Science-General Materials Science
CiteScore
4.60
自引率
8.30%
发文量
95
审稿时长
6 months
期刊介绍: Although many phenomena observed in granular materials are still not yet fully understood, important contributions have been made to further our understanding using modern tools from statistical mechanics, micro-mechanics, and computational science. These modern tools apply to disordered systems, phase transitions, instabilities or intermittent behavior and the performance of discrete particle simulations. >> Until now, however, many of these results were only to be found scattered throughout the literature. Physicists are often unaware of the theories and results published by engineers or other fields - and vice versa. The journal Granular Matter thus serves as an interdisciplinary platform of communication among researchers of various disciplines who are involved in the basic research on granular media. It helps to establish a common language and gather articles under one single roof that up to now have been spread over many journals in a variety of fields. Notwithstanding, highly applied or technical work is beyond the scope of this journal.
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