Decision-focused neural adaptive search and diving for optimizing mining complexes

IF 6 2区 管理学 Q1 OPERATIONS RESEARCH & MANAGEMENT SCIENCE European Journal of Operational Research Pub Date : 2024-07-27 DOI:10.1016/j.ejor.2024.07.024
Yassine Yaakoubi, Roussos Dimitrakopoulos
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Abstract

Optimizing industrial mining complexes, from extraction to end-product delivery, presents a significant challenge due to non-linear aspects and uncertainties inherent in mining operations. The two-stage stochastic integer program for optimizing mining complexes under joint supply and demand uncertainties leads to a formulation with tens of millions of variables and non-linear constraints, thereby challenging the computational limits of state-of-the-art solvers. To address this complexity, a novel solution methodology is proposed, integrating context-aware machine learning and optimization for decision-making under uncertainty. This methodology comprises three components: (i) a hyper-heuristic that optimizes the dynamics of mining complexes, modeled as a graph structure, (ii) a neural diving policy that efficiently performs dives into the primal heuristic selection tree, and (iii) a neural adaptive search policy that learns a block sampling function to guide low-level heuristics and restrict the search space. The proposed neural adaptive search policy introduces the first soft (heuristic) branching strategy in mining literature, adapting the learning-to-branch framework to an industrial context. Deployed in an online fashion, the proposed hybrid methodology is shown to optimize some of the most complex case studies, accounting for varying degrees of uncertainty modeling complexity. Theoretical analyses and computational experiments validate the components’ efficacy, adaptability, and robustness, showing substantial reductions in primal suboptimality and decreased execution times, with improved and more robust solutions that yield higher net present values of up to 40%. While primarily grounded in mining, the methodology shows potential for enabling smart, robust decision-making under uncertainty.
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优化采矿综合体的决策神经自适应搜索和潜水
由于采矿作业中固有的非线性因素和不确定性,对从开采到最终产品交付的工业采矿综合体进行优化是一项重大挑战。在联合供需不确定性条件下优化矿业综合体的两阶段随机整数程序会产生数以千万计的变量和非线性约束,从而挑战最先进求解器的计算极限。为了解决这一复杂问题,我们提出了一种新颖的求解方法,将情境感知机器学习与不确定性条件下的决策优化相结合。该方法由三个部分组成:(i) 超启发式,可优化以图结构为模型的采矿复合体的动态;(ii) 神经潜入策略,可高效地潜入原始启发式选择树;(iii) 神经自适应搜索策略,可学习块采样函数,以指导低级启发式并限制搜索空间。所提出的神经自适应搜索策略在采矿文献中首次引入了软(启发式)分支策略,将 "从学习到分支"(learning-to-branch)框架应用于工业环境。通过在线部署,所提出的混合方法能够优化一些最复杂的案例研究,并考虑到不同程度的不确定性建模复杂性。理论分析和计算实验验证了这些组件的有效性、适应性和稳健性,显示了原始次优性的大幅降低和执行时间的减少,以及改进后的更稳健的解决方案,其净现值最高可提高 40%。虽然该方法主要以采矿为基础,但也显示出在不确定情况下实现智能、稳健决策的潜力。
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来源期刊
European Journal of Operational Research
European Journal of Operational Research 管理科学-运筹学与管理科学
CiteScore
11.90
自引率
9.40%
发文量
786
审稿时长
8.2 months
期刊介绍: The European Journal of Operational Research (EJOR) publishes high quality, original papers that contribute to the methodology of operational research (OR) and to the practice of decision making.
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