BitanY.JaffeE. (2017). Studying paramedics working environment in a trauma scene. Proceedings of the International Symposium on Human Factors and Ergonomics in Health Care, 6(1) 109-110.
2.
BitanY., 2017. Changes from within – How paramedic services can lead the way human factors is implemented in healthcare, in: KeeblerJ.LazzaraE.MisasiP. (Eds.), Ergonomics and Human Factors of Prehospital Emergency Care. Taylor & Francis Group, LLC, pp. 165–176.
3.
BorgG. (1998). Borg’s perceived exertion and pain scales. Champaign, IL: Human kinetics.
4.
FischerS. L.SindenK. E.MacPheeR. S. (2017). Identifying the critical physical demanding tasks of paramedic work: Towards the development of a physical employment standard. Applied Ergonomics, 65, 233-239.
5.
HarariY.BecharA.RaschkeU.RiemerR. (2017). Automated simulation-based workplace design that considers ergonomics and productivity. International Journal of Simulation Modelling (IJSIMM), 16(1), 5-18
6.
HarariY.RiemerR.BecharA. (2018). Factors determining workers’ pace while conducting continuous sequential lifting, carrying, and lowering tasks. Applied Ergonomics, 67, 61-70.
7.
MyersJ. B.SlovisC. M.EcksteinM.GoodloeJ. M.IsaacsS. M.LoflinJ. R.PepeP. E. (2008). Evidence-based performance measures for emergency medical services systems: A model for expanded EMS benchmarking: A statement developed by the 2007 consortium US metropolitan municipalities’ EMS medical directors. Prehospital Emergency Care, 12(2), 141-151.