An advanced exploration of technological functionalities addressing risk factors in earthmoving equipment operation on construction sites: a systematic literature review DOI
Nazi Soltanmohammadlou, Carol K.H. Hon, Robin Drogemuller

et al.

Smart and Sustainable Built Environment, Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 24, 2024

Purpose This paper aims to analyze the current state of technological advancements research in addressing diverse risk factors involved earthmoving equipment operations through Rasmussen's (1997) management framework. It examines how existing technologies capture, manage and disseminate information across various levels safety by defining their core functionalities. The highlights gaps solutions regarding flow emphasizes need for an integrated approach enhance holistic capable capturing risks different management. Design/methodology/approach employs a multistep approach. Initially, functionalities were identified systematic review scholarly works. Subsequently, social network analysis (SNA) Pareto applied evaluate determine importance improving them. Findings findings highlight multilevel approaches that expand address all combination focuses primarily on on-site monitoring, congested work sites, site layout/path planning, utility problems, training, blind spot visibility. Site monitoring warning systems, supported sensors computer vision (CV), are pivotal identifying enabling data-driven However, workforce-level cognitive (W1-W6), which influence behavior, remain underexplored enhancing functionality anticipation response during operation. Prevention is function solutions, emphasizing human such as sources hazards operations. Learning: AI IoT systems key future development, when grounded ontology-based knowledge earthwork, they gain structured types, interactions earthwork activities. enhances capabilities these capture complex between hazard (human equipment), supporting comprehensive Originality/value elucidates require more approach—grounded understanding technologies—to effectively Rasmussen should not only isolated but also ensure continuous multiple

Language: Английский

Optimising concreting equipment operations in India: An artificial intelligence and reliability-based approach DOI Creative Commons
Arka Ghosh, Jemal Abawajy

Expert Systems with Applications, Journal Year: 2025, Volume and Issue: unknown, P. 126672 - 126672

Published: Feb. 1, 2025

Language: Английский

Citations

0
Understanding Hazard Recognition Behavior Using Eye-tracking Metrics in a VR-Simulated Environment: Learning from Successful and Failed Conditions DOI Creative Commons
Yanfang Luo, JoonOh Seo, Sogand Hasanzadeh

et al.

KSCE Journal of Civil Engineering, Journal Year: 2025, Volume and Issue: unknown, P. 100173 - 100173

Published: Feb. 1, 2025

Language: Английский

Citations

0
The Potential of Using Mobile Eye-Tracking in Construction Safety Research—Review DOI
Marta Rusnak, Tomasz Nowobilski, Zuzanna Woźniak

et al.

Lecture notes in civil engineering, Journal Year: 2025, Volume and Issue: unknown, P. 45 - 53

Published: Jan. 1, 2025

Language: Английский

Citations

0
An advanced exploration of technological functionalities addressing risk factors in earthmoving equipment operation on construction sites: a systematic literature review DOI
Nazi Soltanmohammadlou, Carol K.H. Hon, Robin Drogemuller

et al.

Smart and Sustainable Built Environment, Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 24, 2024

Purpose This paper aims to analyze the current state of technological advancements research in addressing diverse risk factors involved earthmoving equipment operations through Rasmussen's (1997) management framework. It examines how existing technologies capture, manage and disseminate information across various levels safety by defining their core functionalities. The highlights gaps solutions regarding flow emphasizes need for an integrated approach enhance holistic capable capturing risks different management. Design/methodology/approach employs a multistep approach. Initially, functionalities were identified systematic review scholarly works. Subsequently, social network analysis (SNA) Pareto applied evaluate determine importance improving them. Findings findings highlight multilevel approaches that expand address all combination focuses primarily on on-site monitoring, congested work sites, site layout/path planning, utility problems, training, blind spot visibility. Site monitoring warning systems, supported sensors computer vision (CV), are pivotal identifying enabling data-driven However, workforce-level cognitive (W1-W6), which influence behavior, remain underexplored enhancing functionality anticipation response during operation. Prevention is function solutions, emphasizing human such as sources hazards operations. Learning: AI IoT systems key future development, when grounded ontology-based knowledge earthwork, they gain structured types, interactions earthwork activities. enhances capabilities these capture complex between hazard (human equipment), supporting comprehensive Originality/value elucidates require more approach—grounded understanding technologies—to effectively Rasmussen should not only isolated but also ensure continuous multiple

Language: Английский

Citations

0