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Garrett, J W and Teizer, J (2009) Human Factors Analysis Classification System Relating to Human Error Awareness Taxonomy in Construction Safety. Journal of Construction Engineering and Management, 135(08), 754–63.

Girmscheid, G (2009) NPV Model for Evaluating the Economic Efficiency of Municipal Street Maintenance by Private Providers. Journal of Construction Engineering and Management, 135(08), 701–9.

Imbeah, W and Guikema, S (2009) Managing Construction Projects Using the Advanced Programmatic Risk Analysis and Management Model. Journal of Construction Engineering and Management, 135(08), 772–81.

Islam, M M and Mohamed, S (2009) Bid-Winning Potential Optimization for Concession Schemes with Imprecise Investment Parameters. Journal of Construction Engineering and Management, 135(08), 690–700.

Manley, K, McFallan, S and Kajewski, S (2009) Relationship between Construction Firm Strategies and Innovation Outcomes. Journal of Construction Engineering and Management, 135(08), 764–71.

Marzouk, M, Said, H and El-Said, M (2009) Framework for Multiobjective Optimization of Launching Girder Bridges. Journal of Construction Engineering and Management, 135(08), 791–800.

Puddicombe, M S (2009) Why Contracts: Evidence. Journal of Construction Engineering and Management, 135(08), 675–82.

Rosner, J W, Thal, A E and West, C J (2009) Analysis of the Design-Build Delivery Method in Air Force Construction Projects. Journal of Construction Engineering and Management, 135(08), 710–7.

Sacks, R, Rozenfeld, O and Rosenfeld, Y (2009) Spatial and Temporal Exposure to Safety Hazards in Construction. Journal of Construction Engineering and Management, 135(08), 726–36.

• Type: Journal Article
• Keywords: Algorithms; Construction management; Lean construction; Occupational safety; Spatial analysis; Time dependence;
• ISBN/ISSN: 0733-9364
• URL: https://doi.org/10.1061/(ASCE)0733-9364(2009)135:8(726)
• Abstract:
  Given the dynamic nature of construction sites, analysis of construction activities and their related hazards is inadequate for reliable risk assessment if it does not explicitly account for the likelihood of exposure of potential victims to hazardous situations. In traditional risk level calculations for manufacturing industries, the number of victims is factored with the likelihood of an accident and the potential severity, but the victims are simply assumed to be those typically present at the accident location. In construction, exposure cannot be accounted for at a generic metaproject level: it must be assessed at the level of the activities and the physical context in which they are performed. Conceptually, accidents are “loss-of-control events” to which victims are exposed; without exposure, no accident is assumed to occur. A set of algorithms has been developed to demonstrate estimation of the likelihood of exposure of construction workers to loss-of-control events. The algorithms have been implemented in a prototype software application designed to predict fluctuating risk levels in construction projects. The software implements the “construction hazard assessment with spatial and temporal exposure” model for managing safety in construction, which empowers planners at all levels to adjust construction plans to mitigate high levels of risk or to undertake appropriate proactive measures to ensure safety when high risk levels are unavoidable.

Senouci, A and El-Rayes, K (2009) Time-Profit Trade-Off Analysis for Construction Projects. Journal of Construction Engineering and Management, 135(08), 718–25.

Yip, B and Rowlinson, S (2009) Job Redesign as an Intervention Strategy of Burnout: Organizational Perspective. Journal of Construction Engineering and Management, 135(08), 737–45.

Yiu, T W and Lai, W Y (2009) Efficacy of Trust-Building Tactics in Construction Mediation. Journal of Construction Engineering and Management, 135(08), 683–9.

Yu, H, Tweed, T, Al-Hussein, M and Nasseri, R (2009) Development of Lean Model for House Construction Using Value Stream Mapping. Journal of Construction Engineering and Management, 135(08), 782–90.

Zhai, D, Goodrum, P M, Haas, C T and Caldas, C H (2009) Relationship between Automation and Integration of Construction Information Systems and Labor Productivity. Journal of Construction Engineering and Management, 135(08), 746–53.