Slip and tilt: modeling falls over railings
Copyright policy )Slip and tilt: modeling falls over railings
AbstractFalls over railings are frequent case scenarios forensic experts are confronted with. An important issue is the differentiation of accidental and non-accidental falling scenarios. From a biomechanical point of view, this is a challenging task and should be addressed in a multifactorial approach. This work presents a simplified mechanical model in terms of a cranked rod that can be used in cases without relevant dynamic components in terms of pushing or jumping. If the anti-slip and the anti-tilt condition are violated, the possibility for a person to get over a railing should be assumed and investigated in more detail. Because our approach also involves uncertainties, the formulae should be understood to be part of a multifactorial approach. Numerical simulation, experimental reconstruction, injury pattern, and trace analysis can yield additional substantial connecting facts.
- Medical University of Graz Austria
- Medical University of Graz Austria
- Medical University of Graz Austria
- Medizinische Universität Graz Austria
- Medical University of Graz Austria
Forensic Sciences, Humans, Original Article, Accidental Falls, Models, Theoretical, Anti-tilt condition ; Original Article ; Models, Theoretical [MeSH] ; Anti-slip condition ; Humans [MeSH] ; Force equilibrium ; Forensic Sciences/methods [MeSH] ; Moment equilibrium ; Biomechanical Phenomena [MeSH] ; Accidental Falls [MeSH] ; Models, Biological [MeSH] ; Fall analysis, Models, Biological, Biomechanical Phenomena
Forensic Sciences, Humans, Original Article, Accidental Falls, Models, Theoretical, Anti-tilt condition ; Original Article ; Models, Theoretical [MeSH] ; Anti-slip condition ; Humans [MeSH] ; Force equilibrium ; Forensic Sciences/methods [MeSH] ; Moment equilibrium ; Biomechanical Phenomena [MeSH] ; Accidental Falls [MeSH] ; Models, Biological [MeSH] ; Fall analysis, Models, Biological, Biomechanical Phenomena
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