Improving Safety through Leveraging Machine Learning and Safety-Related Data in the Construction Industry

Casper Pilskog Orvik
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Abstract

This study presents a conceptual framework for integrating safety-related data with machine learning to improve its understanding of safety performance and construction safety management. Machine Learning techniques could discover latent hazards and risks by utilizing project-specific safety-related data and improve safety and decision-making processes. Findings suggest that machine learning can significantly improve safety performance by proactively identifying risks and measures from safety-related data rather than relying solely on historical safety outcomes and data. This could also provide a better understanding of the forthcoming construction projects’ complex challenges and the impact of increasingly technical and organizational complexities on safety. However, challenges such as data compatibility, lack of standardization, misinformation risks, and ethical concerns (transparency, privacy, and fairness) necessitate a cautious approach to the use of machine learning. This proactive approach could lead to safer construction environments and continuous improvements in safety management. Future work will refine data collection and develop predictive models, with the current research in the ‘DiSCo’ project aiming for sustainable safety improvements in the construction industry.
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在建筑行业利用机器学习和安全相关数据提高安全性
本研究提出了一个将安全相关数据与机器学习相结合的概念框架,以提高对安全性能和施工安全管理的理解。机器学习技术可以利用特定项目的安全相关数据发现潜在的危险和风险,并改进安全和决策过程。研究结果表明,机器学习可以从安全相关数据中主动识别风险和措施,而不是仅仅依赖于历史安全结果和数据,从而显著提高安全绩效。这也可以让人们更好地了解即将到来的建筑项目的复杂挑战,以及日益复杂的技术和组织对安全的影响。然而,由于数据兼容性、缺乏标准化、错误信息风险和道德问题(透明度、隐私和公平性)等挑战,有必要谨慎使用机器学习。这种积极主动的方法可以带来更安全的施工环境,并不断改进安全管理。未来的工作将完善数据收集并开发预测模型,"DiSCo "项目目前的研究旨在实现建筑行业的可持续安全改进。
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