Automated content analysis for construction safety: a natural language processing system to extract precursors and outcomes from unstructured injury reports | Natural language processing | Data extraction and structuring | Tixier et al. (2016) |
Safety hazard identification on construction projects | Database | Decision support system | Carter and Smith (2006) |
Computer-aided DSS for safety monitoring of geotechnicalconstruction | Geographic information system (GIS) | Decision support system | Cheng et al. (2002) |
OHS LogIntegrated safety in design | Conceptual framework | Design for safety suggestions | Schultz and Jørgensen (2014) |
Design for construction safety toolboxTool to design for construction worker safety | Database | Design for safety suggestions | Gambatese et al. (1997) |
ToolSHeD™: the development and evaluation of a decision support tool for health and safety in constructiondesign | Knowledge-based system | Design for safety suggestions | Cooke et al. (2008) |
The development of a knowledge-based system to deliver health and safety information to designers in the construction industry | Knowledge-based system | Design for safety suggestions | NNC Limited (2003) |
MAARDPrevention guide for designers based on analysis of about 2000 accidents | Management model | Design for safety suggestions | Soeiro et al. (2014) |
Integrative model for quantitative evaluation of safety on construction sites with tower cranes | Model for quantitative evaluation of safety levels | H&S issues with temporary structures | Shapira et al. (2012) |
Application of 4D visualization technology for safety management in metro construction | Four-dimensional computer-aided design (4D CAD) | Hazard identification | Zhou et al. (2013) |
ASPPAutomated safety planning approach for residential construction sites in Malaysia | Database | Hazard identification | Zolfagharian et al. (2014) |
Application of geographic information systems in construction safety planning | GIS, database | Hazard identification | Bansal (2011) |
PECASODynamic quantification and analysis of the construction workspace congestion utilizing 4D visualization | 4D CAD | Hazard identification (workplace congestion hazards) | Mallasi (2006) |
CHAIRSafety in design tool | Prompt words | Hazard identification, design for safety suggestions | Workcover (2011) |
CHASTEConstruction job safety analysis | Database | Hazard identification, job hazard analysis | Rozenfeld et al. (2010) |
CHASTE‘CHASTE’: construction hazard assessment with spatial and temporal exposure | Database | Hazard identification, job hazard analysis | Rozenfeld et al. (2009) |
CHASTESpatial and temporal exposure to safety hazards in construction | Database | Hazard identification, job hazard analysis | Sacks et al. (2009) |
Activity-based safety risk quantification for concrete formwork construction | Risk assessment software | Hazard identification, risk classification | Hallowell and Gambatese (2009) |
Design-for-safety-process toolCapturing safety knowledge using design-for-safety-process tool | Knowledge-based system | Hazard identification, safety training | Hadikusumo and Rowlinson (2004) |
Design-for-safety-process toolIntegration of virtually real construction model and design-for-safety-process database | Knowledge-based system | Hazard identification, safety training | Hadikusumo and Rowlinson (2002) |
VP-based safety management in large-scale construction projects: a conceptual framework | Virtual prototyping | Hazard identification, safety training | Guo et al. (2013) |
CVPThe use of virtual prototyping for hazard identification in the early design stage | Virtual reality (VR), 4D CAD | Hazard identification, visualization | Chan King et al. (2012) |
CHSMCSHM: web-based safety and health monitoring system for construction management | Web-based system | Monitoring and assessing construction health and safety (H&S) performance | Cheung et al. (2004) |
Heat map generation for predictive safety planning: preventing struck-by and near miss interactions between workers-on-foot and construction equipment | Hazard index heat map | Preventing struck-by hazards | Golovina et al. (2016) |
Risk assessor modelRisk assessment in construction | Risk assessment software | Quantifying safety risk for activities | Jannadi and Almishari (2003) |
SliDeRulEQuantification and assessment of safety risk in the design of multistory buildings | Online tool | Quantifying safety risk for building elements | Dharmapalan et al. (2014) |
Safety planning and control modelSafety and production: an integrated planning and control model | Safety management tool | Safety planning | Saurin et al. (2004) |
A pilot study of a 3D game environment for construction safety education | Serious games | Safety training | Lin et al. (2011) |
Predicting movements of onsite workers and mobile equipment for enhancing construction site safety | Sensing technologies (cameras) | Sensing and warning | Zhu et al. (2016) |
Autonomous pro-active real-time construction worker and equipment operator proximity safety alert system | Sensing technologies (radiofrequency identification [RFID]) | Sensing and warning | Teizer et al. (2010) |
Recommendations for evaluating & implementing proximity warning systems on surface mining equipment | Sensing technologies (RFID, radar, sonar, infrared, sonar, cameras) | Sensing and warning | Ruff (2007) |