Optimal junction localization minimizing maximum miners’ evacuation distance in underground mining network

IF 1.8 Q3 MINING & MINERAL PROCESSING
Zhixuan Shao, Maximilien Meyrieux, M. Kumral
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引用次数: 0

Abstract

ABSTRACT Safety is a primary consideration in underground mining operations. Accidents could cause fatalities, injuries, and permanent disability of labourers, as well as irreparable financial and reputational losses. As an underground mine consists of many workspaces distributed in various zones, the selection of a junction location will be significant for timely evacuation of miners from different areas. This paper aims to determine the optimal location of the junction point for emergency evacuation in the underground network. The location problem is formulated as a MiniMax problem. Three methods are presented: Elzinga–Hearn algorithm, a three-dimensional extension of the Elzinga–Hearn algorithm, and the Welzl algorithm. The proposed methods are fully implemented in Python, and their functionality is demonstrated by conducting various case studies in 2D and 3D. The case studies showed that the proposed approaches could be used to determine junction point(s) in an underground network to serve as an evacuation location.
井下采矿网络中最大矿工疏散距离最小化的最优结点定位
安全是地下采矿作业的首要考虑因素。事故可能导致劳动者死亡、受伤和永久残疾,以及无法弥补的经济和声誉损失。由于地下矿井由多个工作空间组成,分布在不同的区域,因此选择一个接点位置对于从不同区域及时疏散矿工具有重要意义。本文的目的是确定地下网络中应急疏散枢纽的最优位置。定位问题被表述为一个极大极小问题。提出了三种方法:Elzinga-Hearn算法、Elzinga-Hearn算法的三维扩展和Welzl算法。所提出的方法在Python中完全实现,并且通过在2D和3D中进行各种案例研究来演示其功能。案例研究表明,所提出的方法可用于确定地下网络中的连接点作为疏散地点。
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
CiteScore
2.20
自引率
9.10%
发文量
5
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