Yakin Hajlaoui , Richard Labib , Jean-François Plante , Michel Gamache
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引用次数: 0
Abstract
The blastability index (BI) is a measure that indicates the resistance of rock to fragmentation when blasting. With novel technologies, miners are now able to collect and calculate BI at different depths while drilling. In this research, we propose an approach to estimate the BI at multiple depths for new areas using only spatial locations and observed BI measurements of previously drilled holes. Spatial interpolation techniques are investigated. This study introduces a novel treatment for Gaussian Processes (GPs) and Inverse Distance Weighting (IDW). Variography is leveraged to ensure an appropriate fit between the data and the spatial component. The parameters controlling anisotropy are constrained to intervals chosen to reflect the observed anisotropy. Gradient descent with back-propagation is used for optimization. The proposed approach improves the performance of GP and IDW at predicting BI. The similarities between the IDW variant proposed and a single-layer neural network are discussed.
可爆性指数(BI)是表示爆破时岩石抗破碎能力的指标。利用新技术,矿工现在能够在钻探时收集和计算不同深度的可爆性指数。在这项研究中,我们提出了一种方法,仅利用空间位置和先前钻孔的观察 BI 测量值来估算新区域多个深度的 BI。研究了空间插值技术。该研究引入了一种新的高斯过程(GPs)和反距离加权(IDW)处理方法。利用变分法确保数据与空间分量之间的适当拟合。控制各向异性的参数受限于所选的区间,以反映观察到的各向异性。采用反向传播梯度下降法进行优化。所提出的方法提高了 GP 和 IDW 预测 BI 的性能。讨论了所提出的 IDW 变体与单层神经网络之间的相似性。
期刊介绍:
Computers & Geosciences publishes high impact, original research at the interface between Computer Sciences and Geosciences. Publications should apply modern computer science paradigms, whether computational or informatics-based, to address problems in the geosciences.