基于遗传算法的多工程项目时间财务优化模型

IF 1.7 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY

Journal of the Mechanical Behavior of Materials Pub Date : 2022-01-01 DOI:10.1515/jmbm-2022-0032

Musaab Hasan, S. Mohammed

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引用次数: 0

摘要

建筑承包商通常同时承担多个建筑项目。这种情况涉及共享不同类型的资源，包括资金、设备和人力，这在许多情况下可能成为一个重大挑战。在本研究中，同时处理和调查了多个项目的财务方面。该研究考虑了资金短缺问题，提出了以利润最大化为目标的多项目调度优化模型，同时使项目总工期最小。利用优化遗传算法和基于财务的调度来生成可行的调度，以平衡任何时间活动的财务和可用资金。该模型在多个场景下进行了测试，并对结果进行了分析。结果表明，在第一种情况下，企业I的负现金流量从- 693,784减少到- 634,514，企业II的负现金流量从- 2,646,408减少到- 2,529,324，第二种情况下，企业I的负现金流量减少到- 612,768，利润为+200,116，企业II的负现金流量减少到- 2,597,290，利润为+1,537,632。

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Time and finance optimization model for multiple construction projects using genetic algorithm

Abstract Construction contractors usually undertake multiple construction projects simultaneously. Such a situation involves sharing different types of resources, including monetary, equipment, and manpower, which may become a major challenge in many cases. In this study, the financial aspects of working on multiple projects at a time are addressed and investigated. The study considers dealing with financial shortages by proposing a multi-project scheduling optimization model for profit maximization, while minimizing the total project duration. Optimization genetic algorithm and finance-based scheduling are used to produce feasible schedules that balance the finance of activities at any time with the available funds. The model has been tested in multi scenarios, and the results are analyzed. The results show that negative cash flow is minimized from −693,784 to −634,514 in enterprise I and from −2,646,408 to −2,529,324 in enterprise II in the first scenario and also results show that negative cash flow is minimized to −612,768 with a profit of +200,116 in enterprise I and to −2,597,290 with a profit of +1,537,632 in enterprise II in the second scenario.

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来源期刊

Journal of the Mechanical Behavior of Materials Materials Science-Materials Science (miscellaneous)

CiteScore

3.00

自引率

11.10%

发文量

审稿时长

30 weeks

期刊介绍： The journal focuses on the micromechanics and nanomechanics of materials, the relationship between structure and mechanical properties, material instabilities and fracture, as well as size effects and length/time scale transitions. Articles on cutting edge theory, simulations and experiments – used as tools for revealing novel material properties and designing new devices for structural, thermo-chemo-mechanical, and opto-electro-mechanical applications – are encouraged. Synthesis/processing and related traditional mechanics/materials science themes are not within the scope of JMBM. The Editorial Board also organizes topical issues on emerging areas by invitation. Topics Metals and Alloys Ceramics and Glasses Soils and Geomaterials Concrete and Cementitious Materials Polymers and Composites Wood and Paper Elastomers and Biomaterials Liquid Crystals and Suspensions Electromagnetic and Optoelectronic Materials High-energy Density Storage Materials Monument Restoration and Cultural Heritage Preservation Materials Nanomaterials Complex and Emerging Materials.