A hybrid simulation framework for modelling construction projects using agent-based modelling and system dynamics: an application to model construction workers' safety behavior
Authored by Mostafa Khanzadi, Farnad Nasirzadeh, Mostafa Mir
Date Published: 2018
DOI: 10.1080/15623599.2017.1285485
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Model Documentation:
ODD
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Mathematical description
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Abstract
The integration of system dynamics (SD) with ideas from agent-based
modelling (ABM) offers potential to combine the strengths of the two
methodologies. By investigation of the previous research works, it is
revealed that there is a lack of a simple and applicable framework to
develop a hybrid SD-ABM simulation approach. This research proposes a
hybrid SD-ABM simulation framework for modelling construction projects.
The dynamics of project environment arising from the complex
interrelated structure of various influencing continuous factors are
taken into account using SD. The complexity of the system emerges from
the interactions between different agents is also accounted by ABM. The
SD and ABM simulation paradigms are finally combined. To evaluate the
performance of the proposed hybrid simulation framework, it is
implemented in a real construction project. The safety behaviour of
different working groups involved in the project is modelled using the
proposed hybrid simulation framework. The influence of safety behaviour
of different working groups on the project performance is finally
assessed. The achieved simulation results show how the value of unsafe
behaviour of different agents is varied throughout the project duration
due to the interactions with other agents as well as the safety-related
regulations that exist in the site.
Tags
Agent-based modelling
System dynamics
Management
modelling
Hybrid simulation
Protocol
State
Construction projects
Art