A Comprehensive Study of Several Meta-Heuristic Algorithms for Open-Pit Mine Production Scheduling Problem Considering Grade Uncertainty

IF 1.1 Q3 MINING & MINERAL PROCESSING
Kamyar Tolouei, E. Moosavi, A. H. B. Tabrizi, P. Afzal, A. A. Bazzazi
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引用次数: 3

Abstract

It is significant to discover a global optimization in the problems dealing with large dimensional scales to increase the quality of decision-making in the mining operation. It has been broadly confirmed that the long-term production scheduling (LTPS) problem performs a main role in mining projects to develop the performance regarding the obtainability of constraints, while maximizing the whole profits of the project in a specific period. There is a requirement for improving the scheduling methodologies to get a good solution since the production scheduling problems are non-deterministic polynomial-time hard. The current paper introduces the hybrid models so as to solve the LTPS problem under the condition of grade uncertainty with the contribution of Lagrangian relaxation (LR), particle swarm optimization (PSO), firefly algorithm (FA), and bat algorithm (BA). In fact, the LTPS problem is solved under the condition of grade uncertainty. It is proposed to use the LR technique on the LTPS problem and develop its performance, speeding up the convergence. Furthermore, PSO, FA, and BA are projected to bring up-to-date the Lagrangian multipliers. The consequences of the case study specifies that the LR method is more influential than the traditional linearization method to clarify the large-scale problem and make an acceptable solution. The results obtained point out that a better presentation is gained by LR–FA in comparison with LR-PSO, LR-BA, LR-Genetic Algorithm (GA), and traditional methods in terms of the summation net present value. Moreover, the CPU time by the LR-FA method is approximately 16.2% upper than the other methods.
考虑品位不确定性的露天矿生产调度问题的几种元启发式算法的综合研究
发现大维尺度问题的全局优化对提高采矿作业决策质量具有重要意义。已经广泛证实,长期生产调度(LTPS)问题在采矿项目中发挥着主要作用,以发展关于约束可获得性的性能,同时在特定时期内最大化项目的整体利润。由于生产调度问题是非确定性多项式时间难题,因此需要改进调度方法以获得良好的解决方案。本文介绍了拉格朗日松弛(LR)、粒子群优化(PSO)、萤火虫算法(FA)和蝙蝠算法(BA)的混合模型,以解决等级不确定条件下的LTPS问题。事实上,LTPS问题是在等级不确定的情况下解决的。建议将LR技术用于LTPS问题,并发展其性能,加快收敛速度。此外,PSO、FA和BA预计将带来最新的拉格朗日乘子。案例研究的结果表明,LR方法比传统的线性化方法更有影响力,可以澄清大规模问题并给出可接受的解决方案。结果表明,与LR-PSO、LR-BA、LR遗传算法(GA)和传统方法相比,LR–FA在求和净现值方面有更好的表现。此外,LR-FA方法的CPU时间比其他方法高大约16.2%。
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
Journal of Mining and Environment
Journal of Mining and Environment MINING & MINERAL PROCESSING-
CiteScore
1.90
自引率
25.00%
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0
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