土方设备多目标多变量优化

IF 2.2 Q3 MANAGEMENT

Journal of Facilities Management Pub Date : 2022-05-03 DOI:10.1108/jfm-10-2021-0129

Odey Alshboul, Ali Shehadeh, O. Tatari, Ghassan Almasabha, Eman Saleh

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引用次数: 10

摘要

目的土方设备的有效管理对建筑工程管理决策者至关重要。因此，本文的目的是谨慎地识别、选择、管理和优化卡车和装载机设备的相关决策变量（如容量、数量和速度），以最大限度地降低成本和时间目标。设计/方法论/方法本文提出了一个创新的多目标和多变量数学优化模型，以生成帕累托最优解集，该解集提供了最小化土方活动成本和时间之间的最佳权衡。所提出的模型有三个主要阶段：首先，定义卡车和装载机的所有相关决策变量，并检测影响优化模型的所有相关约束；其次，推导数学优化模型，应用多目标遗传算法，对与数学模型相关的所有输入和输出进行分类；第三，模型验证。发现基于从真实建筑工地收集的数据，通过土方活动的案例研究，验证了所提出的优化模型的有效性。所进行的优化过程的输出保证了该模型在生成最优时间和成本目标的最优解方面的独创性和效率。独创性/价值该模型为决策者提供了一个有效的工具来选择最佳设计变量，以最大限度地减少活动的时间和成本。

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Multiobjective and multivariable optimization for earthmoving equipment

Purpose Efficient management of earthmoving equipment is critical for decision-makers in construction engineering management. Thus, the purpose of this paper is to prudently identify, select, manage and optimize the associated decision variables (e.g. capacity, number and speed) for trucks and loaders equipment to minimize cost and time objectives. Design/methodology/approach This paper addresses an innovative multiobjective and multivariable mathematical optimization model to generate a Pareto-optimality set of solutions that offers insights of optimal tradeoffs between minimizing earthmoving activity’s cost and time. The proposed model has three major stages: first, define all related decision variables for trucks and loaders and detect all related constraints that affect the optimization model; second, derive the mathematical optimization model and apply the multiobjective genetic algorithms and classify all inputs and outputs related to the mathematical model; and third, model validation. Findings The efficiency of the proposed optimization model has been validated using a case study of earthmoving activities based on data collected from the real-world construction site. The outputs of the conducted optimization process promise the model’s originality and efficiency in generating optimal solutions for optimal time and cost objectives. Originality/value This model provides the decision-maker with an efficient tool to select the optimal design variables to minimize the activity's time and cost.

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来源期刊

Journal of Facilities Management MANAGEMENT-

CiteScore

4.30

自引率

15.80%

发文量

期刊介绍： Journal of Facilities Management is a strategic level journal for Heads of Facilities and Corporate Real Estate. Guided by its international and expert Editorial Board, Journal of Facilities Management publishes high-quality, authoritative, and detailed analysis, briefings and case studies on how facilities can and do play a vital part in helping deliver corporate strategy. This quarterly publication features contributions from leading practitioners and thinkers in the field of Facilities Management, from some of the leading companies, government institutions, and universities in the world. The journal features a combination of theoretical and practical articles, complemented by a wide range of case studies and regular features, identifying key implications for senior practitioners in Facilities Management.