An efficient algorithm for the precedence constraint knapsack problem with reference to large-scale open-pit mining pushback design

Nayan Maiti, P. Pathak, B. Samanta
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引用次数: 2

Abstract

ABSTRACT In this paper, a new Specific Breakpoint Algorithm (SBA), which can efficiently search appropriate breakpoints of parametric maximum-flow-related problems, is presented. The algorithm is used to solve Lagrangian Relaxed Precedence Constrained Knapsack Problem (LRPCKP) and Linear Programming Relaxed Precedence Constrained Knapsack Problem (LPRPCKP) in mine pushback design. The relaxed solutions are then processed through Rounded Topo-Sort (RoTS) heuristic to produce feasible solutions. The study results on seven bench mark datasets on Minelib for two approaches, referred here as LRPCKP-SBA and LPRPCKP-SBA, indicate that LRPCKP-SBA in spite of being faster, produces inferior quality solutions than well known BZ and CPLEX solutions. However, LPRPCKP-SBA produces a comparable quality of solutions as BZ in a computationally more efficient manner. Furthermore, the RoTS heuristics operated on relaxed solutions produce a better quality of feasible solutions than an existing technique, Expected Topo-Sort heuristic (ExTS).
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一种求解优先约束背包问题的有效算法,可用于大型露天矿开采推退设计
提出了一种新的特定断点算法(Specific Breakpoint Algorithm, SBA),该算法能有效地搜索参数化最大流量相关问题的适当断点。将该算法应用于矿井推压设计中的拉格朗日放松优先约束背包问题(LRPCKP)和线性规划放松优先约束背包问题(LPRPCKP)。然后,通过圆角拓扑排序(RoTS)启发式方法对松弛解进行处理,得到可行解。在Minelib的7个基准数据集上对LRPCKP-SBA和LPRPCKP-SBA两种方法的研究结果表明,LRPCKP-SBA虽然速度更快,但得到的解的质量不如众所周知的BZ和CPLEX解。然而,LPRPCKP-SBA以计算效率更高的方式产生与BZ相当质量的解决方案。此外,在松弛解上操作的rot启发式比现有的期望拓扑排序启发式(期望拓扑排序启发式)技术产生更好的可行解质量。
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CiteScore
2.20
自引率
9.10%
发文量
5
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