Comparative study of potential whiplash injuries for different occupant seated positions during rear end accidents.

Purpose: Whiplash injuries to the cervical spine represent a considerable economic burden on society with medical conditions, in some cases persisting for more than a year. Numerous studies of whiplash injuries have been made for occupant normal seated position, leaving the analysis of neck injuries for out-of-normal positions not well documented. For that purpose, a detailed human cervical spine finite element model was developed.

Loading rate effect on mechanical properties of cervical spine ligaments.

Mechanical properties of cervical spine ligaments are of great importance for an accurate finite element model when analyzing the injury mechanism. However, there is still little experimental data in literature regarding fresh human cervical spine ligaments under physiological conditions. The focus of the present study is placed on three cervical spine ligaments that stabilize the spine and protect the spinal cord: the anterior longitudinal ligament, the posterior longitudinal ligament and the ligamentum flavum.

Failure properties and damage of cervical spine ligaments, experiments and modeling.

Cervical spine ligaments have an important role in providing spinal cord stability and restricting excessive movements. Therefore, it is of great importance to study the mechanical properties and model the response of these ligaments. The aim of this study is to characterize the aging effects on the failure properties and model the damage of three cervical spine ligaments: the anterior and the posterior longitudinal ligament and the ligamentum flavum.

Comparative study of European tunnel emergency-stop-area-wall protection measures.

Due to the increasing number of traffic accidents involving the collisions of vehicles with the emergency-stop-area head walls in tunnels, a comparative numerical analysis in accordance with the EN 1317 standard has been performed in order to assess the quality of the available protective safety barriers. Based on the simulation results, the values of the relevant injury criteria - the acceleration severity index (ASI), the theoretical head impact velocity (THIV) and the post-impact head deceleration (PHD) - were computed for several collision scenarios involving two different passenger vehicles colliding with two different safety barriers in various ways. The results show that due to the geometrical restrictions in the tunnel's emergency stop area none of the barriers can provide total protection for the occupants of the vehicle in the event of a collision.

i3Drive, a 3D interactive driving simulator.

i3Drive, a wheeled-vehicle simulator, can accurately simulate vehicles of various configurations with up to eight wheels in real time on a desktop PC. It presents the vehicle dynamics as an interactive animation in a virtual 3D environment. The application is fully GUI-controlled, giving users an easy overview of the simulation parameters and letting them adjust those parameters interactively.

Computer simulation of the accident with nine victims.

In the paper we wish to emphasise the significance of vehicle driving dynamics analysis in the collision phase and occupant load analysis by means of using a software environment. Thereby we also wish to present the results of the simulation of the course of a traffic accident with nine victims that arose from a collision between an Audi A6 passenger car and the VW Caravelle van. In treating the traffic accident the forensic expert was faced with the questions about what caused the injuries to the front passenger in the Audi A6 passenger car, about the way the two vehicles had collided, about their collision velocities, about the way the two vehicles were handled and about the causes that originated the traffic accident.