Understanding small remotely piloted aircraft system (sRPAS) to human head impacts is
needed to better protect human head during sRPAS ground collision accidents. Recent …

Investigating head responses during hockey-related blunt impacts and hence understanding
how to mitigate brain injury risk from such impacts still needs more exploration. This study …

A novel Human Head Surrogate was obtained from available MRI scans of a 50th percentile
male human head. Addictive manufacturing was used to produce the skull, the brain and the …

Head injuries, and concussion in particular, have become a source of interest in the sport of
ice hockey. This study proposes a monorail test methodology combined with a finite element …

This paper summarizes the use of surrogate head forms in biomechanical research
pertaining to head injury and, more specifically, mild traumatic brain injury. Because …

Injury due to underbody loading is increasingly relevant to the safety of the modern
warfighter. To accurately evaluate injury risk in this loading modality, a biofidelic …

Due to growing concern on brain injury in sport, and the role that helmets could play in
preventing brain injury caused by impact, biomechanics researchers and helmet certification …

This study established a finite element (FE) model of human body head (HBM-head) in
accordance with human head anatomy. The anatomical structure of HBM-head was …

In helmet impact testing, parameters including acceleration and velocity are measured using
instrumented head-neck models that are meant to be mechanically realistic (ie biofidelic) …

Objective: The objective was to quantify head injury metric sensitivity of the 50th percentile
male Hybrid III, THOR, and Global Human Body Models Consortium simplified occupant …