危险废物
建筑工程
工程类
计算机科学
土木工程
废物管理
作者
Si Van-Tien Tran,Hai Chien Pham,Quang Tuan Le,Ung-Kyun Lee
标识
DOI:10.1016/j.autcon.2025.106357
摘要
Construction sites are among the most hazardous occupational environments, making effective monitoring systems for hazardous area entry essential to prevent fatalities and severe injuries. Despite a growing body of research on advanced monitoring technologies, a systematic review remains necessary. Utilizing the PRISMA methodology, this paper analyzes 81 peer-reviewed articles, categorizing hazardous area entry scenarios into three distinct patterns: personnel entry into static hazards, interactions with dynamic hazards, and overlapping multi-equipment operations. The findings highlight prominent digital technologies, with computer vision (CV), Internet of Things (IoT), and integrated solutions representing 37 %, 42 %, and 21 % of the reviewed articles, respectively. Additionally, the analysis identifies several challenges, including limitations of current CV and IoT technologies and difficulties in deploying these solutions under dynamic construction conditions. The study outlines opportunities to enhance system intelligence, refine deployment strategies, and better integrate safety training, guiding future advancements in construction safety monitoring, particularly regarding hazardous area entry. • Reviews monitoring solutions for construction site hazardous area entry. • Maps hazard interaction patterns for safety monitoring in construction. • Evaluates monitoring effectiveness of computer vision, IoT, and technological integrations. • Suggests future directions to improve hazardous area entry monitoring.
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