Metrika članka

  • citati u SCindeksu: [2]
  • citati u CrossRef-u:[1]
  • citati u Google Scholaru:[=>]
  • posete u poslednjih 30 dana:6
  • preuzimanja u poslednjih 30 dana:5
članak: 1 od 1  
Journal of Applied Engineering Science
2015, vol. 13, br. 4, str. 299-306
jezik rada: engleski
vrsta rada: izvorni naučni članak
objavljeno: 03/02/2016
doi: 10.5937/jaes13-9564
Creative Commons License 4.0
Crane cabins' safety and ergonomics characteristics evaluation based on data collected in Sweden port
(naslov ne postoji na srpskom)
aUniverzitet u Beogradu, Mašinski fakultet
bUniverzitet u Beogradu, Mašinski fakultet, Inovacioni centar



SAF€RA - Coordination of European Research on Industrial Safety towards Smart and Sustainable Growth (EU-FP7 - 291812)


(ne postoji na srpskom)
This paper presents an evaluation of crane cabins safety and ergonomics characteristics. It is based on previous research data collected for benchmarking analysis for crane cabins operating in one port in Sweden. Six crane cabin types are examined regarding eight characteristic divided in three groups: operator-control devices interaction, safety and anthropometric adjustment according to needs weighting data. Primary analysis of those data was conducted using Pareto analysis. Further analysis are done using developed indexes of characteristics performances while final conclusions were drawn for characteristic of crane cabins using crane index of performance. Taking into account all examined crane cabins only 52.5% of operator-control devices interaction, 75% of safety and 60% of anthropometric adjustment issues are satisfied in current designs.

Ključne reči

Crane cabin; Operator-control devices interaction; Safety; Anthropometric adjustment; Pareto analysis; Index of performance; Crane index of performance


*** (2006) Tower crane compliance campaign report. Queensland: Queensland Government-Department of Industrial relations-Health and safety, 2005
Brkic-Spasojevic, V.K., Klarin, M.M., Brkić, A.Dj. (2015) Ergonomic design of crane cabin interior: The path to improved safety. Safety Science, 73: 43-51
Cheng, T., Teizer, J. (2011) Crane operator visibility of ground operations. u: Proceedings of the 28th International Symposium on Automation and Robotics in Construction, Seoul, Korea
Darley, P.M., Liang, J. (1998) Crane modernization: Why and how?. u: TOCASIA, 1998
Dondur, N., Spasojević-Brkić, V., Brkić, A. (2012) Crane cabins with integrated visual systems for the detection and interpretation of environment - economic appraisal. Journal of Applied Engineering Science, vol. 10, br. 4, str. 191-196
Huysmans, M.A., de Looze, M.P., Hoozemans, M.J.M., van der Beek, A.J., van Dieën, J.H. (2006) The effect of joystick handle size and gain at two levels of required precision on performance and physical load on crane operators. Ergonomics, 49(11): 1021-1035
Lee, G., Cho, J., Ham, S., Lee, T., Lee, G., Yun, S., Yang, H. (2012) A BIM- and sensor-based tower crane navigation system for blind lifts. Automation in Construction, 26: 1-10
Mardiyanto, E., Ardyanto, D., Notobroto, H.B. (2015) Container crane operator ergonomics analysis PT. X Port of Tanjung Perak, Surabaya. Civil and Environmental Research, Vol. 7, No. 4, pp. 86-89
Neitzel, R.L., Seixas, N.S., Ren, K.K. (2001) A review of crane safety in the construction industry. Applied Occupational and Environmental Hygiene, Volume 16(12), str. 1106-1117
Nordin, F., Olsson, S. (2008) Development of driver environment crane cabin, Lulea University of technology. 1402-1617; Master Thesis
Punnett, L., Wegman, D.H. (2004) Work-related musculoskeletal disorders: the epidemiologic evidence and the debate. Journal of Electromyography and Kinesiology, 14(1): 13-23
Ray, P.K., Tewari, V.K. (2011) Ergonomic design of crane cabins: a case study from a steel plant in India. Reading, Mass: Work, 41, pp. 5972-5976
Tam, V.W.Y., Fung, I.W.H. (2011) Tower crane safety in the construction industry: A Hong Kong study. Safety Science, 49(2): 208-215