- Library Home /
- Search Collections /
- Open Collections /
- Browse Collections /
- International Construction Specialty Conference of the Canadian Society for Civil Engineering (ICSC) (5th : 2015) /
- Enhancing the construction safety training by using...
Open Collections
International Construction Specialty Conference of the Canadian Society for Civil Engineering (ICSC) (5th : 2015)
Enhancing the construction safety training by using virtual environment : V-SAFE Kiral, Isik Ates; Comu, Semra; Kavaklioglu, Can
Abstract
Construction is one of the most high-risk industries in the world. The safety records of the construction sector report that, construction workers are approximately over three times more likely to be exposed to serious accidents comparing to other industries. In addition to these injuries and fatalities, work-related accidents also cause financial damage, conflictual cases and pecuniary penalties for the construction companies. Therefore, the significance of the safety management process has been increasing in the construction industry. However, since the majority of the construction activities are complex and require collaboration between the workers, the provision of the safety has become one of the challenging tasks. So, the behavior-based skills of the workers play a crucial role in the safety management. Traditional safety training methods have been merely focusing on information-based techniques such as lectures, videos, written materials, etc. On the other hand, previous research has indicated that adequate safety training should also involve behavioral modeling and hands-on training, together with traditional learning methods. Due to the nature of the construction projects, hands-on training in the construction field is not practicable. In this sense, using virtual environments is an effective method that enables a safe environment for the users without being exposed to adverse effects of the failed tasks. Thus, virtual environments allow visual simulation that is helpful for the improvement of the trainees’ behavior-based skills. Therefore, virtual environments provide an important opportunity to advance the level of safety training. The main aim of the study is to describe the developed virtual safety training environment called V-SAFE (Virtual Safety Analysis For Engineering applications), which involves methods to simulate, and visualize construction operation scenarios. V-SAFE is based on the Unreal game engine for the visualization of the environment, and USARSim is used for the high-fidelity simulation of the robot behavior and environment mapping. V-SAFE is projected to establish a base to identify construction-specific safety risks and to improve the behavior-based skills of the construction project participants. In brief, V-SAFE has high potential to improve the risk recognition capability, and situational awareness of the construction managers, workers, safety managers, field engineers. So, V-SAFE could be beneficial for the construction organizations aim to advance the effectiveness of the safety training.
Item Metadata
| Title |
Enhancing the construction safety training by using virtual environment : V-SAFE
|
| Creator | |
| Contributor | |
| Date Issued |
2015-06
|
| Description |
Construction is one of the most high-risk industries in the world. The safety records of the construction sector report that, construction workers are approximately over three times more likely to be exposed to serious accidents comparing to other industries. In addition to these injuries and fatalities, work-related accidents also cause financial damage, conflictual cases and pecuniary penalties for the construction companies. Therefore, the significance of the safety management process has been increasing in the construction industry. However, since the majority of the construction activities are complex and require collaboration between the workers, the provision of the safety has become one of the challenging tasks. So, the behavior-based skills of the workers play a crucial role in the safety management. Traditional safety training methods have been merely focusing on information-based techniques such as lectures, videos, written materials, etc. On the other hand, previous research has indicated that adequate safety training should also involve behavioral modeling and hands-on training, together with traditional learning methods. Due to the nature of the construction projects, hands-on training in the construction field is not practicable. In this sense, using virtual environments is an effective method that enables a safe environment for the users without being exposed to adverse effects of the failed tasks. Thus, virtual environments allow visual simulation that is helpful for the improvement of the trainees’ behavior-based skills. Therefore, virtual environments provide an important opportunity to advance the level of safety training. The main aim of the study is to describe the developed virtual safety training environment called V-SAFE (Virtual Safety Analysis For Engineering applications), which involves methods to simulate, and visualize construction operation scenarios. V-SAFE is based on the Unreal game engine for the visualization of the environment, and USARSim is used for the high-fidelity simulation of the robot behavior and environment mapping. V-SAFE is projected to establish a base to identify construction-specific safety risks and to improve the behavior-based skills of the construction project participants. In brief, V-SAFE has high potential to improve the risk recognition capability, and situational awareness of the construction managers, workers, safety managers, field engineers. So, V-SAFE could be beneficial for the construction organizations aim to advance the effectiveness of the safety training.
|
| Genre | |
| Type | |
| Language |
eng
|
| Date Available |
2015-11-26
|
| Provider |
Vancouver : University of British Columbia Library
|
| Rights |
Attribution-NonCommercial-NoDerivs 2.5 Canada
|
| DOI |
10.14288/1.0076485
|
| URI | |
| Affiliation | |
| Citation |
Froese, T. M., Newton, L., Sadeghpour, F. & Vanier, D. J. (EDs.) (2015). Proceedings of ICSC15: The Canadian Society for Civil Engineering 5th International/11th Construction Specialty Conference, University of British Columbia, Vancouver, Canada. June 7-10.
|
| Peer Review Status |
Unreviewed
|
| Scholarly Level |
Faculty; Other
|
| Rights URI | |
| Aggregated Source Repository |
DSpace
|
Item Media
Loading media...
Item Citations and Data
Permanent URL (DOI):
Copied to clipboard.Rights
Attribution-NonCommercial-NoDerivs 2.5 Canada