Review of previous applications of innovative information technologies in construction health and safety
, oraz
06 cze 2019
O artykule
Kategoria artykułu: Literature Review
Data publikacji: 06 cze 2019
Zakres stron: 1952 - 1967
Otrzymano: 13 paź 2018
Przyjęty: 02 mar 2019
DOI: https://doi.org/10.2478/otmcj-2019-0004
Słowa kluczowe
© 2019 Matej Mihić et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
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Application of building information modelling (BIM) in health and safety (H&S) research_
| Use of building information modeling in design to prevent construction worker falls | BIM | Design for safety suggestions | |
| 8D BIM modelling tool for accident prevention through design | BIM | Design for safety suggestions | |
| Integration of construction worker fall safety in design through the use of building information modeling | BIM | Design for safety suggestions | |
| Integration of safety in design through the use of building information modelling | BIM | Design for safety suggestions | |
| BIM-based planning of temporary structures for construction safety | BIM | H&S issues with temporary structures | |
| Integrated building information model to identify possible crane instability caused by strong winds | BIM | H&S issues with temporary structures | |
| Temporary facility planning of a construction project using BIM (building information modeling) | BIM | H&S issues with temporary structures | |
| Automatic design and planning of scaffolding systems using building information modeling | BIM | H&S issues with temporary structures | |
| Using BIM for smarter and safer scaffolding and formwork construction: a preliminary methodology | BIM | H&S issues with temporary structures | |
| Integration of safety risk factors in BIM for scaffolding construction | BIM | H&S issues with temporary structures | |
| Leveraging project models for automated identification of construction safety requirements | BIM | Hazard identification | |
| Tuning up BIM for safety analysis proposing modeling logics for application of BIM in Design for Safety (DfS) | BIM | Hazard identification (fall hazards), rule checking, design for safety suggestions | |
| Building information modeling (BIM) and safety: automatic safety checking of construction models and schedules | BIM | Hazard identification (fall hazards), rule checking | |
| Utilization of BIM-based automated safety checking in construction planning | BIM | Hazard identification (fall hazards), rule checking | Sulankivi et al. (2013) |
| A case study on automated safety compliance checking to assist fall protection design and planning in building information models | BIM | Hazard identification (fall hazards), rule checking | |
| Framework for work-space planning using four-dimensional BIM in construction projects | BIM | Hazard identification (workplace congestion hazards) | |
| Design for safety: theoretical framework of the safety aspect of BIM system to determine the safety index | BIM | Hazard identification, others – determining safety index | |
| BIM-based fall hazard identification and prevention in construction safety planning | BIM | Hazard identification, rule checking, fall hazards | |
| Classification of rules for automated BIM rule checking development | BIM | Rule checking | |
| Automatic rule-based checking of building designs | BIM | Rule checking | |
| Construction safety risk drivers: a BIM approach | BIM | Safety risk drivers, hazard identification | |
| Developing a BIM-enabled bilingual safety training module for the construction industry | BIM | Safety training | |
| The development of a framework for a design for safety BIM tool | BIM | Safety training | |
| A BIM-based approach for communicating and implementing a construction site safety plan | BIM | Site safety plan |
H&S research in innovative technologies that does not include BIM_
| 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 | |
| Safety hazard identification on construction projects | Database | Decision support system | |
| Computer-aided DSS for safety monitoring of geotechnicalconstruction | Geographic information system (GIS) | Decision support system | |
| OHS Log | Conceptual framework | Design for safety suggestions | |
| Design for construction safety toolbox | Database | Design for safety suggestions | |
| ToolSHeD™: the development and evaluation of a decision support tool for health and safety in constructiondesign | Knowledge-based system | Design for safety suggestions | |
| 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 | |
| MAARD | Management model | Design for safety suggestions | |
| 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 | |
| Application of 4D visualization technology for safety management in metro construction | Four-dimensional computer-aided design (4D CAD) | Hazard identification | |
| ASPP | Database | Hazard identification | |
| Application of geographic information systems in construction safety planning | GIS, database | Hazard identification | |
| PECASO | 4D CAD | Hazard identification (workplace congestion hazards) | |
| CHAIR | Prompt words | Hazard identification, design for safety suggestions | |
| CHASTE | Database | Hazard identification, job hazard analysis | |
| CHASTE | Database | Hazard identification, job hazard analysis | |
| CHASTE | Database | Hazard identification, job hazard analysis | |
| Activity-based safety risk quantification for concrete formwork construction | Risk assessment software | Hazard identification, risk classification | |
| Design-for-safety-process tool | Knowledge-based system | Hazard identification, safety training | |
| Design-for-safety-process tool | Knowledge-based system | Hazard identification, safety training | |
| VP-based safety management in large-scale construction projects: a conceptual framework | Virtual prototyping | Hazard identification, safety training | |
| CVP | Virtual reality (VR), 4D CAD | Hazard identification, visualization | |
| CHSM | Web-based system | Monitoring and assessing construction health and safety (H&S) performance | |
| 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 | |
| Risk assessor model | Risk assessment software | Quantifying safety risk for activities | |
| SliDeRulE | Online tool | Quantifying safety risk for building elements | |
| Safety planning and control model | Safety management tool | Safety planning | |
| A pilot study of a 3D game environment for construction safety education | Serious games | Safety training | |
| Predicting movements of onsite workers and mobile equipment for enhancing construction site safety | Sensing technologies (cameras) | Sensing and warning | |
| Autonomous pro-active real-time construction worker and equipment operator proximity safety alert system | Sensing technologies (radiofrequency identification [RFID]) | Sensing and warning | |
| Recommendations for evaluating & implementing proximity warning systems on surface mining equipment | Sensing technologies (RFID, radar, sonar, infrared, sonar, cameras) | Sensing and warning |
Research combining building information modelling (BIM) with other innovative technologies_
| Information retrieval framework for hazard identification in construction | BIM, database | Automated information retrieval | |
| CoSMoS | BIM, wireless sensors | Hazard identification (confined spaces) | |
| Challenges in data management when monitoring confined spaces using BIM and wireless sensor technology | BIM, wireless sensors | Hazard identification (confined spaces) | |
| Integrating safety and BIM: automated construction hazard identification and prevention | BIM, ontology | Hazard identification (fall hazards and congestion hazards), job hazard analysis (JHA), rule checking, design evaluation | |
| Automated hazardous area identification using laborers’ actual and optimal routes | BIM, radiofrequency identification (RFID) | Hazard identification (hazards from moving through a construction site) | |
| CAVE | BIM, virtual reality (VR) | Hazard identification, education | |
| Ontology-based semantic modeling of safety managementknowledge | BIM, ontology | Hazard identification, JHA | |
| Geotechnical and safety protective equipment planning using range point cloud data and rule checking in building information modeling | BIM, laser scanning, point cloud | Hazard identification, rule checking | |
| Ontology-based semantic modeling of construction safety knowledge: towards automated safety planning for job hazard analysis (JHA | BIM, ontology | JHA | |
| Collecting fire evacuation performance data using BIM-based immersive serious games for performance-based fire safety design | BIM, serious games | Others – collecting data related to evacuation performance | |
| SAVES | BIM, augmented virtuality (AV) | Safety training | |
| SAVES | BIM, AV | Safety training | |
| Construction safety training using immersive virtual reality | BIM, VR | Safety training | |
| A BIM-RFID unsafe on-site behavior warning system | BIM, RFID | Sensing and warning | |
| A framework for construction safety management and visualization system | BIM, augmented reality (AR), Game technologies | Visualization, education | Park and |
| CAVE | VR, BIM | Visualization, others – hazard identification testing | |
| Safety by design: dialogues between designers builders using virtual reality | VR, BIM | Visualization, others – testing collaboration potential |