A Re-Look Into Modified Scaled Distance Regression for Prediction of Blast-Induced Ground Vibration

IF 0.5 Q4 ENGINEERING, GEOLOGICAL International Journal of Geotechnical Earthquake Engineering Pub Date : 2021-01-01 DOI:10.4018/IJGEE.2021010103

S. Dauji

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引用次数: 2

Abstract

Underground blasts are conducted for deep excavations, tunneling, or mining activities. Scaled distance regression analysis is performed in industry to estimate peak particle velocity from charge weight and distance. For addressing the uncertainties in estimating safe charge weight for controlled blasting, 95% confidence expression is generally used. For addressing inaccuracies arising from superimposition of blast waves in multi-hole blasting when using attenuation equation developed from single-hole blast data, a modified approach was proposed in literature. This article presents comparisons to establish that industrial practice of scaled distance regression would be as satisfactory as the proposed modified approach, when various performance measures (including parsimony) are considered together. Furthermore, industrial practice of using 95% confidence expression generated from sufficient data (say, 40 numbers) would result in safe charge weight estimation, whereas modified scaled distance approach (mean expression) could still result in few non-conservative values.

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修正比例距离回归预测爆破诱发地面振动的再探讨

地下爆破是为深挖、隧道开挖或采矿活动而进行的。在工业应用中，利用电荷量和距离来估计粒子峰值速度的方法是按比例距离回归分析。对于控制爆破安全装药量估算中的不确定性，一般采用95%置信度表达式。针对利用单孔爆破数据推导的衰减方程求解多孔爆破中冲击波叠加产生的误差，提出了一种修正方法。本文提出了比较，以确定当各种性能度量(包括节俭)一起考虑时，缩放距离回归的工业实践将与提出的修改方法一样令人满意。此外，使用从足够的数据(例如，40个数字)生成的95%置信度表达式的工业实践将导致安全的电荷重估计，而修改的缩放距离方法(平均表达式)仍然可能导致少数非保守值。

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来源期刊

International Journal of Geotechnical Earthquake Engineering ENGINEERING, GEOLOGICAL-

CiteScore

1.90

自引率

25.00%

发文量