Developing an interactive pile training module for construction risk management and gaging users’ intentions

IF 3.1 Q2 CONSTRUCTION & BUILDING TECHNOLOGY
Wei Du, Samad M.E. Sepasgozar, A. Khan, S. Shirowzhan, Juan Garzon Romero
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引用次数: 0

Abstract

Purpose This study aims to develop a novel theoretical model for predicting the users’ intention to use virtual tools designed for construction risk evaluation. Risk evaluation is a vital objective for construction managers. This paper intends to examine critical factors such as potential benefits, motivation, performance expectancy and rich sources of information that may affect users’ intention to use virtual technology. Design/methodology/approach A pile training module (PTM) was developed in a virtual environment to analyze the proposed virtual reality-technology acceptance model (VR-TAM) factors. Further, a questionnaire survey was conducted with the participation of 102 construction professionals in China to validate the proposed VR-TAM model and PTM tool. The retrieved data was computed to test the proposed model by using partial least squares structural equation modeling and the significance of the PTM tool in a virtual environment. Findings The results of this study reveal that high-significance paths represent five relationships between crucial factors affecting users’ intention to use a selected virtual reality (VR) module. Five of seven hypothesis paths were significant with acceptable t-values. By quantitative measurement of high-significance paths, this research has found that each factor under VR-TAM has received significant loadings, with many above the 0.7 threshold mark and others around 0.6. The top factors include “motivation” and “benefits” and have multiplier effects on “intention to use” as the source factors. Practical implications The finding of this study presents crucial factors for VR adoption, and the proposed VR-TAM model contributes to the body of knowledge toward managing construction risk using pre-optimization and understanding in a virtual environment. This study supports Chinese construction company managers in effectively using VR technology in their construction projects for risk assessment and management. Originality/value This study offered the development of a novel VR-TAM integrated with risk assessment techniques for piling processes. Further, the developed model was analyzed by using a survey of Chinese construction professionals to collect perceptions about the modified theoretical model of VR-TAM.
开发用于施工风险管理和测量用户意图的互动式桩训练模块
目的本研究旨在建立一个新的理论模型来预测使用者使用虚拟工具的意图。风险评估是施工管理人员的重要目标。本文旨在研究可能影响用户使用虚拟技术意愿的关键因素,如潜在利益、动机、性能期望和丰富的信息来源。设计/方法/方法在虚拟环境中开发了桩训练模块(PTM),分析了所提出的虚拟现实技术接受模型(VR-TAM)的影响因素。此外,我们还对102名中国建筑专业人员进行了问卷调查,以验证所提出的VR-TAM模型和PTM工具。利用偏最小二乘结构方程建模和PTM工具在虚拟环境中的显著性对检索数据进行了计算,以验证所提出的模型。本研究的结果显示,高显著性路径代表了影响用户使用所选虚拟现实(VR)模块意图的关键因素之间的五种关系。7个假设路径中有5个具有可接受的t值。通过对高显著性路径的定量测量,本研究发现,VR-TAM下的每个因素都收到了显著的负载,其中许多高于0.7阈值,而其他因素则在0.6左右。排名靠前的因素包括“动机”和“利益”,并且对“使用意图”作为源因素具有乘数效应。本研究的发现提出了采用VR的关键因素,提出的VR- tam模型有助于在虚拟环境中使用预优化和理解来管理施工风险的知识体系。本研究为中国建筑企业管理者有效利用VR技术进行建筑项目风险评估和管理提供了支持。独创性/价值本研究提供了一种新颖的VR-TAM,与打桩过程的风险评估技术相结合。此外,通过对中国建筑专业人员的调查,收集对改进后的VR-TAM理论模型的看法,对所开发的模型进行了分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Construction Innovation-England
Construction Innovation-England CONSTRUCTION & BUILDING TECHNOLOGY-
CiteScore
7.10
自引率
12.10%
发文量
71
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