MineLib: a library of open pit mining problems

Espinoza, Daniel; Goycoolea, Marcos; Moreno, Eduardo; Newman, Alexandra M.

doi:10.1007/s10479-012-1258-3

Cited by 121 publications

(75 citation statements)

References 30 publications

(39 reference statements)

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“…Then, we give the %Ave Gap, as defined earlier (the value of the relative gap between the average value Z average of the 10 solutions generated by SH-VND and the optimal value of the linear relaxation). This time, the optimal value of the linear relaxation has not been obtained using CPLEX, but it has been taken from [15]. The authors mention that it has been computed using a modified version of Bienstock-Zuckerberg's algorithm [3].…”

Section: Hybrid Methods Applied To the Instances In The Second Set Of mentioning

confidence: 99%

“…The last dataset on which the method proposed in this paper is tested consists of instances from MineLib, a library of publicly available test problem instances proposed by Espinoza et al [15] for three classical types of open pit mining problems. The authors refer to the variant of the open-pit mine production scheduling problem, denoted in this paper by MPSP, as the constrained pit limit problem, and they denote it by CPIT.…”

Section: Second Set Of Benchmark Instances: Minelib Test Instancesmentioning

confidence: 99%

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A hybrid method based on linear programming and variable neighborhood descent for scheduling production in open-pit mines

2014

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Production scheduling of open-pit mines is an important problem arising in surface mine planning as it determines the raw materials to be produced yearly over the life of the mine, assesses the value of the mine, and contributes to the sustainable utilization of mineral resources. Finding the optimal schedule is a complex task, involving large data sets and multiple constraints. This paper introduces a two-phase hybrid solution method. The first phase relies on solving a series of linear programming problems to generate an initial solution. In the second phase, a variable neighborhood descent procedure is applied to improve the solution. Upper bounds provided by CPLEX are used to evaluate the efficiency of the proposed method. Its performance is also assessed by comparing it to recent solution methods proposed in the literature and to an alternate method implemented in commercial mine planning software commonly used by professional mine planners. The results of these computational experiments indicate the efficiency of the proposed method and its superiority over the other methods. It finds excellent solutions (within less than 3.2 % of optimality on average) for large instances of the problem in a few seconds up to a few minutes. It also provides new best-known solutions for benchmark instances from the literature, and it can solve instances recently-published algorithms have found intractable.

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Section: Hybrid Methods Applied To the Instances In The Second Set Of mentioning

confidence: 99%

Section: Second Set Of Benchmark Instances: Minelib Test Instancesmentioning

confidence: 99%

A hybrid method based on linear programming and variable neighborhood descent for scheduling production in open-pit mines

2014

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“…Logistic approach application to management of material and accompanying information, financial and service flow has been successfully implemented in various of economy sectors [1][2], including in the area of solid minerals mining [3][4][5][6].…”

Section: Introductionmentioning

confidence: 99%

Logistic Principles Application for Managing the Extraction and Transportation of Solid Minerals

Tyurin

2017

E3S Web Conf.

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Abstract. Reducing the cost of resources in solid mineral extraction is an urgent task. For its solution the article proposes logistic approach use to management of mining company all resources, including extraction processes, transport, mineral handling and storage. The account of the uneven operation of mining, transport units and complexes for processing and loading coal into railroad cars allows you to identify the shortcomings in the work of the entire enterprise and reduce resources use at the planned production level. In the article the mining planning model taking into account the dynamics of the production, transport stations and export coal to consumers rail transport on example of Krasnoyarsk region Nazarovo JSC «Razrez Sereul'skiy». Rolling planning methods use and data aggregation allows you to split the planning horizon (month) on equal periods and to use of dynamic programming method for building mining optimal production programme for the month. Coal mining production program definition technique will help align the work of all enterprise units, to optimize resources of all areas, to establish a flexible relationship between manufacturer and consumer, to take into account the irregularity of rail transport.

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“…Finally, constraint [8] declares the nature of the variables involved in the model. The model proposed here (which we name OPBSEO for 'open pit block scheduling with exposed ore reserve') contains #B×T new binary variables with respect to the standard open pit scheduling model (see, for example, CPIT in Espinoza et al (2013)). The model has also #B×(T-1) additional constraints of type [6] and T-1 constraints of type [7].…”

mentioning

confidence: 99%

“…The instances considered for this study were obtained from Minelib (Espinoza et al, 2013), a publicly available library of test problem instances for open pit mining problems, some of which correspond to real-world mining projects, making it very interesting for comparison. In our case, we used the Newman1 and Marvin instances described below, because they were more appropriate for our study in terms of the size of the instances (as mentioned before, the resulting problem is quite complex and required long computational times).…”

mentioning

confidence: 99%

Optimizing open-pit block scheduling with exposed ore reserve

Saavedra-Rosas

Jéivez

Amaya

et al. 2016

J. South. Afr. Inst. Min. Metall.

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Open pit mines are characterized by high production levels and low operational costs compared to other exploitation methods. Unfortunately, when using this technique, material with poor economic value (waste) usually has to be removed to give access to more economically profitable material. Each block is characterized by its metal content, density, lithology, and other relevant attributes that are derived by using estimation techniques specifically designed to deal with the spatial nature of the mineralization. The value of a mine plan is thus determined by the value contained in the blocks that are extracted at certain periods and has a clear dependency on the block schedule, the order in which the material is extracted and processed.Generally speaking, different problems are usually considered by mining planners for the economic valuation, design, and planning of open-pit mines, as pointed out by Hustrulid and Kuchta (2006); for example, the 'final pit problem', also called the 'ultimate pit limit problem', which aims to find the region of maximal undiscounted economic value for exploitation under certain geotechnical stability constraints. Another example is known as the open pit production scheduling problem, which aims to find an optimal sequence of extraction in a certain finite time horizon with bounded capacities (for example, extraction and processing) at each period and where the usual optimality criterion is the total discounted profit. A common practice for the formulation of these problems consists of describing an ore reserve via the construction of a three-dimensional block model from the orebody with each block corresponding to the basic volume of extraction, characterized by several geological and economic properties that are estimated from sample data. For this reason, the open pit production scheduling problem is also known as the block scheduling problem. Block models can be represented as directed graphs where nodes are associated with blocks, while arcs correspond to the precedence of these blocks, induced by physical and operational requirements derived from the geomechanics of slope stability. This discrete approach gives rise to huge combinatorial problems, the mathematical formulations of which are special large-scale instances of integer programming (IP) optimization problems; see for instance Caccetta (2007). Precedence between blocks is one of the most important sets of constraints, as the extraction process proceeds from surface down to the bottom of the mineralization. This idea applies to every block in the model: it is not possible to access a given block in a certain time unless the blocks that are above have already been extracted, because stability of the pit walls Optimizing open-pit block scheduling with exposed ore reserve by J. Saavedra-Rosas*, E. Je lvez † , J. Amaya ‡ , and N. Morales † A crucial problem in the open pit mining industry is to determine the optimal block scheduling, defining how the orebody will be sequenced for exploitation. An orebody is often comprised ...

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MineLib: a library of open pit mining problems

Cited by 121 publications

References 30 publications

A hybrid method based on linear programming and variable neighborhood descent for scheduling production in open-pit mines

A hybrid method based on linear programming and variable neighborhood descent for scheduling production in open-pit mines

Logistic Principles Application for Managing the Extraction and Transportation of Solid Minerals

Optimizing open-pit block scheduling with exposed ore reserve

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