Self-calibrated boundary detection algorithm for horizon control in long-wall mining

2016 16th International Conference on Ground Penetrating Radar (GPR) Pub Date : 2016-06-13 DOI:10.1109/ICGPR.2016.7572623

J. Che, C. C. Chen, L. Stolarczyk

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Abstract

A novel sensor was previously developed for detecting rock boundaries behind uncut coal for controlling the horizon of the cutting head in long-wall mining environments. This boundary detection method is based on extracting the thickness of the uncut layer from the complex reflection coefficient of a narrowband antenna that is mounted directly on the rotating cutting drum. The main practical challenges of this detection method lie in the ability to (1) mitigate the much stronger reflection from the air-mine interface and (2) obtain the in situ dielectric constant and conductivity of the cut material in active mining environments. This paper presents a novel in situ calibration method and real-time uncut thickness estimation procedure which could be practically implemented into normal long-wall mining operations, and thus allowing real-time monitoring of distance to rock boundaries behind the uncut seam. This paper will also discuss the uncertainty of the resultant estimated thickness in relation to the variation of cutting drum positions, dielectric constant, and air gap.

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长壁开采水平控制的自标定边界检测算法

在长壁开采环境中，一种新型传感器用于检测未切煤后的岩石边界，以控制切割头的水平。该边界检测方法基于直接安装在旋转切割滚筒上的窄带天线的复反射系数提取未切割层的厚度。这种探测方法的主要实际挑战在于:(1)减轻来自空气-地雷界面的更强反射的能力;(2)在活跃的采矿环境中获得切割材料的原位介电常数和电导率。本文提出了一种新颖的原位标定方法和实时未切割厚度估算程序，可实际应用于正常的长壁采矿作业，从而实现对未切割煤层后至岩石边界距离的实时监测。本文还将讨论与切割滚筒位置、介电常数和气隙变化有关的所得估计厚度的不确定性。

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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2016 16th International Conference on Ground Penetrating Radar (GPR)

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