Model for Automated Monitoring of Fall Hazards in Building Construction
Publication: Journal of Construction Engineering and Management
Volume 132, Issue 7
Abstract
Construction professionals do not attribute to accident prevention the same importance as they do to the main (“value adding”) activities. As a result, not enough time and effort are invested in safety issues. Fall from heights (“fall”) is the main cause for fatalities and injuries in construction projects. The objective of the present research is to automate fall prevention procedures. An automated model that identifies the dangerous activities in the project’s schedule was developed. It also defines the areas in the building where these hazards appear, proposes protective activities (guardrails erection), and integrates them into the schedule. Additionally, it constantly compares the planned guardrails (location and time) and the ones actually used on site. The model provides textual and graphical reports and warns when guardrails are missing, are incomplete, or have been partially removed. The model was implemented, tested in an ongoing project, and presented to 14 experts who were asked to evaluate it. The experts’ main conclusions were (1) the model is accurate; (2) the model is a very useful managerial tool in that it identifies all fall hazards, including ones in less visible areas; (3) it enables early detection of fall hazards before and during construction, even during the design stage; and (4) the model is an important managerial, monitoring, and control tool keeping track of all fall hazards and protective measures, and warns when a safety problem occurs.
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Acknowledgments
This research was supported by Technion V.P.R. Fund—this support is gratefully acknowledged. It is the writers pleasure to thank all the participants in the field survey for the state-of-the-art review and the expert opinion survey. They are as follows: A. Aronson, N. Raviv, Y. Shemer, I. Hilo, N. Abraham, M. Mansur, Z. Rolider, H. Omiya, Y. Levy, N. Kutai, E. Leibowitz, E. Dadi, M. Magdi, N. Levy, E. Cohan, E. Harel, B. Hussein, D. Levy, R. Sacks, I. Shohet, A. Grippel, M. Atir, L. Colonel, E. Benisti, M. Koriski, A. Zimmer I. Shribman, S. Dorphberg, G. Katz, D. Lifshuetz, and S. Abramovitz.
References
Abdelhamid, T. S., and Everett, J. G. (2000). “Identifying root causes of construction accidents.” J. Constr. Eng. Manage., 126(1), 52–60.
Bjork, B. C. (2002). “A formalised model of the information and materials handling activities in the construction process.” Constr. Innovation, 2(3), 133–149.
Bobick, T. G. (2004). “Falls through roof and floor openings and surfaces, including skylights: 1992–2000.” J. Constr. Eng. Manage., 130(6), 895–907.
Burkart, M. J. (2002). “Wouldn’t it be nice if…!” Pract. Period. Struct. Des. Constr., 7(2), 61–67.
Cattledge, G. H., Hendricks, S., and Stanevich, R. (1996). “Fatal occupational falls in the US construction industry, 1980–1989.” Accid. Anal Prev., 28(5), 647–654.
Eastman, C. M. (1999). Building product models: Computer environments supporting design and construction, CRC, Boca Raton, Fla.
Everett, J. G., and Frank, P. B. J. (1996). “Costs of accidents and injuries to the construction industry.” J. Constr. Eng. Manage., 122(2), 158–164.
Faraj, I., Alshawi, M., Aouad, G., Child, T., and Underwood, J. (1999). “Distributed object environment: Using international standards for data exchange in the construction industry.” Comput. Aided Civ. Infrastruct. Eng., 14(6), 395–405.
Gambatese, J. A., Behm, M., and Hinze, J. W. (2005). “Viability of designing for construction worker safety.” J. Constr. Eng. Manage., 131(9), 1029–1036.
Han, C. S., Kunz, J. C., and Law, K. H. (1999). “Building design services in a distributed architecture.” J. Comput. Civ. Eng., 13(1), 12–22.
Hinze, J. W., Huang, X., and McGlothlin, J. D. (2002). “Review of fall accidents in construction.” Proc., 10th Int. Symp. for Construction Innovation and Global Competitiveness, Cincinnati, 1117–1132.
Hinze, J., Huang, X., and Terry, L. (2005). “The nature of struck-by accidents.” J. Constr. Eng. Manage., 131(2), 262–268.
Hinze, J. W., and Pannullo, J. (1978). “Safety: Function of job control.” J. Constr. Div., Am. Soc. Civ. Eng., 104(2), 241–249.
Levitt, E. R., Parker, H. W., and Samuelson, N. M., (1981). Improving construction safety performance: The user’s role, Stanford University Press, Stanford, Calif.
Occupational Safety and Health Administration (OSHA). (1990). Analysis of construction fatalities 1985–1989, U.S. Dept. of Labor, Washington, D.C.
Occupational Safety and Health Administration (OSHA). (2002). Fall accidents in the construction industry, U.S. Dept. of Labor, Washington, D.C.
Samelson, N. M., and Levitt, R. E. (1982). “Owners’ guidelines for selecting safe contractors.” J. Constr. Div., Am. Soc. Civ. Eng., 108(4), 617–623.
Son, K. S., Melchers, R. E., and Kal, W. M. (2000). “An analysis of safety control effectiveness.” Reliab. Eng. Syst. Saf., 68, 187–194.
Stanton, W. A., and Willenbrock, J. H. (1990). “Conceptual framework for computer-based construction safety control.” J. Constr. Eng. Manage., 116(3), 383–398.
Tarrants, W. E. (1980). The measurement of safety performance, Garland STPM P, New York.
Tolman, F. P., Ozsariyildiz, S., and Schevers, H. (2000). “Computer aided inception of large scale engineering projects: Evaluation value vs. cost.” Proc., INCITE 2000: Implementing IT to Obtain a Competitive Advantage in the 21st Century, Polytechnic University Press, Hong Kong, 744–755.
Toole, T. M. (2002). “Construction site safety roles.” J. Constr. Eng. Manage., 128(3), 203–210.
Weinstein, M., Gambatese, J., and Hecker, S. (2005). “Can design improve construction safety?: Assessing the impact of a collaborative safety-in-design process.” J. Constr. Eng. Manage., 131(10), 1125–1134.
Widner, J. T. (1973). Selected readings in safety, Academy, Macom, Ga.
Young, S. (1996). “Construction safety: A vision for the future.” J. Manage. Eng., 12(4), 33–36.
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© 2006 ASCE.
History
Received: Mar 25, 2005
Accepted: Dec 14, 2005
Published online: Jul 1, 2006
Published in print: Jul 2006
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