References
- Kalita M. Konstrukcja ochronna operatora ładowarki górniczej w świetle przepisów i badań niszczących Maszyny Górnicze 2013; 20-4: 322-34.
- Karliński J, Ptak M, Działak P, Kułakowski K. Analiza zagrożeń działających na operatorów samojezdnych maszyn górniczych podczas tąpań, Górnictwo Odkrywkowe 2014;55-4/5:155-59. https://www.faa.gov/10.11.2021
- Działak P, Karliński J, Rusiński E. Method of operator safety assessment for underground mobile mining equipment. E3S Web of Conferences 2018;29: 1-9.
- Liang CC, Chiang CF. A study on biodynamic models of seated human subjects exposed to vertical vibration. International Journal of Industrial Ergonomics 2006;36-10:869-90.
- Singh HJ, Wereley NM. Biodynamic Model of a Seated Occupant Exposed to Intense Impacts. AIAA Journal 2015;53-2:426-35.
- Bai XX, Xu S, Cheng W, Qian LJ. On 4-degree-of-freedom biodynamic models of seated occupants: Lumped-parameter modeling. Journal of Sound and Vibration 2017;402:122-41.
- Boileau PÉ, Wu X, Rakheja S. Definition of a range of idealized values to characterize seated body biodynamic response under vertical vibration. J. Sound Vib. 1998;215:841-62.
- Wan Y, Schimmels JM. A simple model that captures the essential dynamics of a seated human exposed to whole body vibration. ASME-PublicationsBED 1995:333-34.
- Abbas W, Abouelatta OB, El-Azab M, Elsaidy M, Megahed AA. Optimization of biodynamic seated human models using genetic algorithms. Engineering 2010;2:710-19.
- Zhang E, Xu LA, Liu ZH, Li XL. Dynamic modeling and vibration characteristics of multi-DOF upper part system of seated human body. Chin. J. Eng. Des. 2008;15:244-49.
- Liu XX, Shi J, Li GH, Le X, Zhao B, Yue M, Ke W. Biodynamic response and injury estimation of ship personnel to ship shock motion induced by underwater explosion, in: Proceeding of 69th Shock and Vibration Symposium 1998;18:1-18.
- Singh HJ, Wereley NM. Biodynamic model of a seated occupant exposed to intense impacts. AIAA Journal 2014;53:426-35.
- Srdjevic Z, Cveticanin L. Entropy compromise programming method for parameter identification in the seated driver biomechanical model. Int. J. Ind. Ergon. 2004;34:307-18.
- Coermann RR. The mechanical impedance of the human body in sitting and standing position at low frequencies. Human Factors. 1962;227-53.
- Fairley TE. Predicting seat transmissibilities: The effect of the legs. U.K. and French Joint Meeting on Human Response to Vibration. INRS. Vandoeuvre. France 1988.
- Pheasant S. 1986. Bodyspace - Anthropometry, Ergonomics and Design. Taylor & Francis. London.
- Kazarian L. Dynamic response characteristics of the human vertebral column: an experimental study on human autopsy specimens. Acta Orthop. Scand. 1972;43:1-188.
- Mertens H. Nonlinear behavior of sitting humans under increasing gravity. Aviat. Space Environ. Med. 1978;49:287-98.
- Boileau PÉ, Rakheja S. Whole-body vertical biodynamic response characteristics of the seated vehicle driver: measurement and model development. Int. J. Ind. Ergon. 1998;22:449-72.
- Działak P, Rusiński E, Karliński J. Ptak M., Analiza obciążeń działających na operatorów samojezdnych maszyn górniczych podczas tąpań. Górnictwo Odkrywkowe 2014;55-4/5:191-96.
- Działak P, Ptak M, Karliński J, Iluk A. Injury biomechanics of a mining machine operator. W: 2014 International Research Council on the Biomechanics of Injury: IRCOBI 2014: conference proceedings. Berlin Germany. 10th-12th September 2014. Zurich: International Research Council on the Biomechanics of Injury. 2014; 495-505.
- Matworks documentation - Matlab Simulink. https://www.mathworks.com/help/simulink/gui/solver.html