Modelling the effect of multi-stakeholder interactions on construction site layout planning using agent-based decentralized optimization

Modelling the effect of multi-stakeholder interactions on construction site layout planning using agent-based decentralized optimization

Construction site layout planning (CSLP) is important to ensure that cost, time, quality and environmental impacts are strictly controlled. Even though extensive research has been conducted on CSLP problems, the effect of the multi-stakeholder interactions on optimal site layout plans has been less...

Full description

Saved in:
Bibliographic Details
Published in:Automation in construction Vol. 107; p. 102927
Main Authors: Song, Xiaoling, Peña-Mora, Feniosky, Shen, Charles, Zhang, Zhe, Xu, Jiuping
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-11-2019
Elsevier BV
Subjects:
Agent-based modelling
Construction materials
Construction sites
Decentralized optimization
Decisions
Environmental impact
Layouts
Logistics
Mathematical models
Multi-stakeholder interaction
Particle swarm optimization
Planning
Safety management
Security planning
Site layout
Stakeholders
Supply channel design
Site layout
Security planning
Agent-based modelling
Supply channel design
Decentralized optimization
Multi-stakeholder interaction
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Construction site layout planning (CSLP) is important to ensure that cost, time, quality and environmental impacts are strictly controlled. Even though extensive research has been conducted on CSLP problems, the effect of the multi-stakeholder interactions on optimal site layout plans has been less studied. Therefore, this paper proposes an agent-based decentralized bi-level mathematical model that incorporates decisions from three stakeholders, to examine the CSLP multi-stakeholder interactions. To solve the model, a particle swarm optimization (PSO)-based solution approach is developed to generate the CSLP, construction material logistics planning (CMLP) and security planning (SP) solutions in an integrated CSLP-CMLP/SP system. Specifically, the stakeholders are modelled as individual agents with respective decisions and objective functions, and the inter-dependencies between the layout planner and the other two stakeholders (i.e. the logistics planner and the safety manager) are simultaneously incorporated and dealt with using the bi-level model. The multi-stakeholder interactions are realized by iteratively updating the individual decisions to determine an optimal integrated solution in which the potential stakeholder conflicts in the construction stage are minimized. A case study is given to validate the practicality of the designed model in addressing the CSLP-CMLP and CSLP-SP interactions. The contributions of this research are its applicability to model the effect of multi-stakeholder interactions in agent-based decentralized models, the design of a PSO-based solution approach to achieve an integrated CSLP-CMLP/SP solution, and the provision of academic and practical guidance for decision makers to further enrich global decentralized CSLP research. •An agent-based decentralized model is proposed to study the effect of multi-stakeholder interactions on CSLP.•The system stakeholders are modeled as individual agents with their respective decisions and objective functions.•Agent-based modelling and bi-level programming are integrated to model the mutual interactions.•The paper enriches CSLP research by guiding academic and practical decision makers in a decentralized and coordinated manner.
ISSN:0926-5805
1872-7891
DOI:10.1016/j.autcon.2019.102927