Block-based construction worker trajectory prediction method driven by site risk

Different from pedestrian trajectory prediction, construction worker trajectories are usually affected by risks and have complex movement patterns. Track point-based prediction methods require high prediction accuracy for safety management. This paper presents a block-based construction worker traje...

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Published inAutomation in construction Vol. 167; p. 105721
Main Authors Duan, Pinsheng, Zhou, Jianliang, Qiao, Yaning, Guo, Ping
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2024
Subjects
Construction workers
Movement pattern
Safety risk
Trajectory prediction
Transformer
Trajectory prediction
Movement pattern
Transformer
Safety risk
Construction workers
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Abstract Different from pedestrian trajectory prediction, construction worker trajectories are usually affected by risks and have complex movement patterns. Track point-based prediction methods require high prediction accuracy for safety management. This paper presents a block-based construction worker trajectory prediction method driven by site risk. First, the construction site is divided into multiple blocks and the site safety risk within different blocks is quantified. Second, stopping, large and small turning segments in worker's trajectory are detected to divide the dataset. Finally, a transformer-based trajectory prediction model for construction workers is developed and trained separately for different datasets. The worker's next go-to block and the duration within the next block are predicted. The results show that the accuracy of block direction prediction within 120° reach 93%, and the error of duration prediction can be 0.52 s. The study has theoretical and practical value for promoting block-based safety management and enhancing safety proactivity. •A block-based trajectory prediction method for construction workers is proposed.•A Transformer-LSTM model for worker trajectory prediction is established.•Stopping and turning segments in worker trajectories are detected.•The feasibility of the proposed method is verified by empirical evidence.•The method has potential advantages in long-term trajectory prediction.
AbstractList Different from pedestrian trajectory prediction, construction worker trajectories are usually affected by risks and have complex movement patterns. Track point-based prediction methods require high prediction accuracy for safety management. This paper presents a block-based construction worker trajectory prediction method driven by site risk. First, the construction site is divided into multiple blocks and the site safety risk within different blocks is quantified. Second, stopping, large and small turning segments in worker's trajectory are detected to divide the dataset. Finally, a transformer-based trajectory prediction model for construction workers is developed and trained separately for different datasets. The worker's next go-to block and the duration within the next block are predicted. The results show that the accuracy of block direction prediction within 120° reach 93%, and the error of duration prediction can be 0.52 s. The study has theoretical and practical value for promoting block-based safety management and enhancing safety proactivity. •A block-based trajectory prediction method for construction workers is proposed.•A Transformer-LSTM model for worker trajectory prediction is established.•Stopping and turning segments in worker trajectories are detected.•The feasibility of the proposed method is verified by empirical evidence.•The method has potential advantages in long-term trajectory prediction.
ArticleNumber 105721
Author Qiao, Yaning
Guo, Ping
Duan, Pinsheng
Zhou, Jianliang
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Movement pattern
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Safety risk
Construction workers
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Snippet Different from pedestrian trajectory prediction, construction worker trajectories are usually affected by risks and have complex movement patterns. Track...
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SubjectTerms Construction workers
Movement pattern
Safety risk
Trajectory prediction
Transformer
Title Block-based construction worker trajectory prediction method driven by site risk
URI https://dx.doi.org/10.1016/j.autcon.2024.105721
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