References
- Hoła B. Methodology of hazards identification in construction work course. J Civ Eng Manag. 2010;16(4):577–585. doi: 10.3846/jcem.2010.64
- Dong XS, Largay JA, Choi SD, et al. Fatal falls and PFAS use in the construction industry: findings from the NIOSH FACE reports. Accid Anal Prev. 2017;102:136–143. doi: 10.1016/j.aap.2017.02.028
- Ministry of Manpower. Workplace Safety and Health Report 2018. Singapore: Ministry of Manpower; 2019.
- Mehmood A, Maung Z, Consunji RJ, et al. Work related injuries in Qatar: a framework for prevention and control. J Occup Med Toxicol. 2018;13:29–39. doi: 10.1186/s12995-018-0211-z
- United States Department of Labor. Fall protection in residential construction [Internet]; [cited 2011 Aug 20]. Available from: https://www.osha.gov/doc/guidance.html
- Workplace Safety and Health (Work at Heights) Regulations 2013, Stat. S 233 (2013). Singapore: Singapore Statutes Online; 2018.
- The Work at Height Regulations 2005. Richmond: The National Archives; 2005.
- Goh YM, Wang Q. Investigating the adequacy of horizontal lifeline system design through case studies from Singapore. J Constr Eng Manag. 2015;141(7). doi: 10.1061/(ASCE)CO.1943-7862.0000989
- Behm M. Linking construction fatalities to the design for construction safety concept. Saf Sci. 2005;43(8):589–611. doi: 10.1016/j.ssci.2005.04.002
- Singapore Standards (SS). Specification for personal fall-arrest systems. Singapore: SS; 2018. Standard No. SS 528: Part 4:2006 (2014).
- Standards Council of Canada. Design of active fall-protection systems. Ottawa (ON): Standards Council of Canada; 2018. Standard No. Z259.16-04 (R2014).
- Wu JZ, Powers JR, Harris JR, et al. Estimation of the kinetic energy dissipation in fall-arrest system and manikin during fall impact. Ergonomics. 2011;54(4):367–379. doi: 10.1080/00140139.2010.549966
- Baszczyński K. Modelling performance of selected textile elements of personal protective equipment protecting against falls from a height during fall arrest. Fibres Text East Eur. 2013;4(100):130–136.
- Baszczyński K. Effect of repeated loading on textile rope and webbing characteristics in personal equipment protecting against falls from a height. Fibres Text East Eur. 2015;4(112):110–118.
- Baszczyński K. Modeling the performance of horizontal anchor lines during fall arrest. Fibres Text East Eur. 2017;25(125):95–103. doi: 10.5604/01.3001.0010.4634
- Yu XA. Time history analysis of the dynamic response of horizontal lifelines. Cincinnati (OH): University of Cincinnati; 2003.
- Drabble F, Brookfield DJ. Safety of fall arrest systems: a numerical and experimental study. Proc. Inst. Mech Eng, Part C. 2000;214(10):1221–1233. doi: 10.1243/0954406001523227
- Singapore Standards (SS). Specification for design of active fall-protection systems. Singapore: SS; 2015. Standard No. SS 607:2015.
- Canadian Standards Association (CSA). Design of active fall-protection systems. Ottawa (ON): CSA; 2018. Standard No. Z259.16-15.
- American National Standards Institute (ANSI). Specifications and design requirements for active fall protection systems. Washington (DC): ANSI; 2016. Standard No. ANSI/ASSE Z359.6-2016.
- Miura N. Introduction to horizontal lifelines. In: Sulowski AC, editor. Fundamentals of fall protection. Miamisburg: International Society for Fall Protection; 1991. p. 406.
- Singapore Standards (SS). Specification for personal fall-arrest systems. Singapore: SS; 2018. Standard No. SS 528-2:2006 (2014).
- Lit AJZL. An investigation into the fall arrest equipment used on construction sites. Singapore: National University of Singapore; 2018.
- Singapore Standards (SS). Specification for personal protective equipment for protection against falls from a height – single point anchor devices and flexible horizontal lifeline systems Singapore: SS; 2011. Standard No. SS 570:2011.
- Singapore Standards (SS). Specification for personal fall-arrest systems. Singapore: SS; 2018. Standard No. SS 528: Part 6:2006 (2014).
- British Standards Institution (BSI). Personal protective equipment against falls from a height. Test methods. London: British Standards Institution; 2018. Standard No. BS EN 364:1993.
- International Organization for Standardization (ISO). Protection against falling and slipping. Geneva: ISO; 1999–2012. Standards No. 10333.
- Goh YM. Empirical investigation of the average deployment force of personal fall-arrest energy absorbers. J Constr Eng Manag. 2015;141(1). doi: 10.1061/(ASCE)CO.1943-7862.0000910
- Barraclough J. PhysMo – video motion analysis. Melbourne: Barraclough, J.; 2011. http://physmo.sf.net
- Chin WW. Commentary: issues and opinion on structural equation modeling. MIS Quart. 1998;22(1):vii–xvi.