Developing a framework for selecting alternative materials for construction projects using BIM and the particle swarm optimization algorithm

Mahdi Salari; Milad Ghanbari; Martin Skitmore; Majid Alipour

doi:10.1108/CI-12-2023-0309

Developing a framework for selecting alternative materials for construction projects using BIM and the particle swarm optimization algorithm

Mahdi Salari
, Milad Ghanbari^*
, Martin Skitmore
, Majid Alipour

^*Corresponding author for this work

Research output: Contribution to journal › Article › Research › peer-review

1 Citation (Scopus)

115 Downloads (Pure)

Abstract

Purpose:

This paper aims to create a comprehensive framework for selecting alternative materials in construction projects, integrating building information modeling (BIM) and the particle swarm optimization (PSO) algorithm. Materials comprise 60%–65% of the total project cost, and current methods require significant time and human resources.

Design/methodology/approach:

A prototype framework is developed that considers multiple criteria to optimize the material selection process, addressing the significant investment of time and resources required in current methods. The study uses surveys and interviews with construction professionals to collect primary data on alternative materials selection.

Findings:

The results show that integrating BIM and the PSO algorithm improves cost optimization and material selection outcomes.

Originality/value:

This comprehensive tool enhances decision-making capabilities and resource utilization, improving project outcomes and resource utilization. It offers a systematic approach to evaluating and selecting materials, making it a valuable resource for construction professionals.

Original language	English
Pages (from-to)	745-767
Number of pages	23
Journal	Construction Innovation
Volume	26
Issue number	3
DOIs	https://doi.org/10.1108/CI-12-2023-0309
Publication status	Published - 17 Sept 2024

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10.1108/CI-12-2023-0309

AAM_Developing a framework for selecting alternative materials for construction projects using BIM and the particle swarm optimization algorithmAccepted author manuscript, 2.16 MBLicence: CC BY-NC

Cite this

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title = "Developing a framework for selecting alternative materials for construction projects using BIM and the particle swarm optimization algorithm",

abstract = "Purpose:This paper aims to create a comprehensive framework for selecting alternative materials in construction projects, integrating building information modeling (BIM) and the particle swarm optimization (PSO) algorithm. Materials comprise 60\%–65\% of the total project cost, and current methods require significant time and human resources. Design/methodology/approach: A prototype framework is developed that considers multiple criteria to optimize the material selection process, addressing the significant investment of time and resources required in current methods. The study uses surveys and interviews with construction professionals to collect primary data on alternative materials selection. Findings: The results show that integrating BIM and the PSO algorithm improves cost optimization and material selection outcomes. Originality/value: This comprehensive tool enhances decision-making capabilities and resource utilization, improving project outcomes and resource utilization. It offers a systematic approach to evaluating and selecting materials, making it a valuable resource for construction professionals.",

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doi = "10.1108/CI-12-2023-0309",

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T1 - Developing a framework for selecting alternative materials for construction projects using BIM and the particle swarm optimization algorithm

AU - Salari, Mahdi

AU - Ghanbari, Milad

AU - Skitmore, Martin

AU - Alipour, Majid

PY - 2024/9/17

Y1 - 2024/9/17

N2 - Purpose:This paper aims to create a comprehensive framework for selecting alternative materials in construction projects, integrating building information modeling (BIM) and the particle swarm optimization (PSO) algorithm. Materials comprise 60%–65% of the total project cost, and current methods require significant time and human resources. Design/methodology/approach: A prototype framework is developed that considers multiple criteria to optimize the material selection process, addressing the significant investment of time and resources required in current methods. The study uses surveys and interviews with construction professionals to collect primary data on alternative materials selection. Findings: The results show that integrating BIM and the PSO algorithm improves cost optimization and material selection outcomes. Originality/value: This comprehensive tool enhances decision-making capabilities and resource utilization, improving project outcomes and resource utilization. It offers a systematic approach to evaluating and selecting materials, making it a valuable resource for construction professionals.

AB - Purpose:This paper aims to create a comprehensive framework for selecting alternative materials in construction projects, integrating building information modeling (BIM) and the particle swarm optimization (PSO) algorithm. Materials comprise 60%–65% of the total project cost, and current methods require significant time and human resources. Design/methodology/approach: A prototype framework is developed that considers multiple criteria to optimize the material selection process, addressing the significant investment of time and resources required in current methods. The study uses surveys and interviews with construction professionals to collect primary data on alternative materials selection. Findings: The results show that integrating BIM and the PSO algorithm improves cost optimization and material selection outcomes. Originality/value: This comprehensive tool enhances decision-making capabilities and resource utilization, improving project outcomes and resource utilization. It offers a systematic approach to evaluating and selecting materials, making it a valuable resource for construction professionals.

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DO - 10.1108/CI-12-2023-0309

M3 - Article

AN - SCOPUS:85204059723

SN - 1471-4175

VL - 26

SP - 745

EP - 767

JO - Construction Innovation

JF - Construction Innovation

IS - 3

ER -

Developing a framework for selecting alternative materials for construction projects using BIM and the particle swarm optimization algorithm

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