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Chapter Safety Training for Rigging Using Virtual Reality (2024)

Lemouchi, Rafik ; Assaf, Mohamed ; Al-Hussein, Mohamed ; [et al.]

Firenze University Press

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Publication Date: 2024-04-07

Description: Tower and Mobile Cranes are some of the most commonly used heavy equipment in all construction sites, and any crane failures could lead to significant human and monetary losses. Moreover, rigging configuration determination is a critical task that requires the rigging crew to have significant experience and knowledge of various failure modes that can be encountered when performing lifting operations. However, despite the criticality of training riggers, there has yet to be a comprehensive tool used to train and guide inexperienced riggers, and hence, more practical tools are needed. This paper proposes a framework for using Virtual reality (VR) and simulation to train riggers to identify the optimal rigging configurations based on the lift type and the external conditions. Through 3D modeling, the critical components of the rigging system are modeled to accurately simulate the rigging system and their performance when faced with critical loading scenarios. The developed framework is expected to allow inexperienced riggers to identify critical failure modes and enhance construction operations' overall safety performance and productivity. Furthermore, several scenarios are assessed based on historical evidence for rigging configuration failures, and the efficiency of the training tool is assessed through real-life scenarios and tests

Keywords: Crane Operations ; Lift Planning ; Rigging ; Safety ; Training ; Virtual Reality ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization

Language: English

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Chapter A Collaborative Planning Model for Offsite Construction Based on Virtual Reality and Game Engines (2024)

Assaf, Mohamed ; Lemouchi, Rafik ; Al-Hussein, Mohamed ; [et al.]

Firenze University Press

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Publication Date: 2024-04-04

Description: Accurate process planning is essential for successfully implementing offsite construction projects. New technologies, such as virtual reality (VR), have been proposed as potential proactive solutions that allow users to experience and train on OSC processes to ensure safety and efficiency in an immersive environment. However, current VR applications in OSC projects (VR-OSC) problems are limited to residential projects and target single phases of the OSC implementation. This study proposes a VR framework to train participants on modular bridge construction processes. The developed model comprises several OSC phases, such as fabrication, transportation, and assembly. Furthermore, the study explores the use of collaborative platforms that can be associated with the VR model to ease the model and the developed scenes. The model is tested on a sample of participants that evaluated the performance of the model and provided areas of improvement. The results showed the capabilities of the model in providing an immersive experience for participants and connecting different phases of the OSC projects. Also, the results show that the experiment length and complex controlling buttons are among the areas of improvement. The developed model is expected to facilitate safe and efficient training for complex OSC projects

Keywords: Offsite Construction ; Building Information Modeling ; Virtual Reality ; Game Engines ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization

Language: English

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