Overview
About 41 600 people were killed and more than 1.7 million injured in European road accidents in 2005. Although the number of road fatalities has declined by more than 17% since 2001, more efforts will have to be made if the EC's targets on reduction of road fatalities and injuries are to be met. The THORAX Project focusses on reduction and prevention of thoracic injuries, one of the dominant causes for fatalities and injuries in car crashes.
Thoracic injuries are one of the dominant causes for fatalities and injuries in car crashes today. The tools available today for studying these injuries are not up to par with the latest implementation of restraint systems and air bags.
The objective of THORAX is to develop the required understanding in thoracic injury mechanisms and to implement this into numerical and experimental tools that will enable the design and evaluation of advanced vehicle restraint systems that offer optimal protection for a wide variety of car occupants. In order to maximise the safety benefits gained from new vehicle technology for different genders, ages and sizes, these tools will have to be more sensitive to the in-vehicle occupant environment than what is the case today.
THORAX mobilises the European research community and car industry to study real world loading conditions and related injury mechanisms given the variation in occupant characteristics and system functionalities offered by modern restraint systems. The gained know-how will be implemented in hardware and software demonstrators that will be evaluated for their added potential on restraint optimisation.
THORAX aims to stimulate the introduction of new technologies in vehicles to further reduce road fatalities and injuries to car occupants in Europe and make the traffic safer for young and older drivers. The project also aims to increase the level of competitiveness of the European automobile industry. Safety is a proven selling point, as underlined by a substantial involvement of European car industry in THORAX. The developed tools will be forwarded for usage in design of lS vehicle systems and assessment procedures of such systems. For this purpose THORAX will cooperate with related projects, as defined in a CSA 'COVER'.
Funding
Results
THORAX focused on the reduction and prevention of thoracic injuries through an improved understanding of the thoracic injury mechanisms and the application of these findings in the design for the thorax-shoulder complex of the THOR-dummy, which should enable the design and evaluation of advanced restraint systems.
The hardware was developed in five steps (identification of the dominant thoracic injury types from field data, specification of biomechanical requirements, identification of injury parameters and necessary instrumentations, dummy hardware development and evaluation of the demonstration); these resulted in the definition of new biofidelity and instrumentation requirements for the update of the thorax-shoulder complex.
Innovation aspects
The project is part of a larger basic research project, COVER, for improving the vehicle safety.
Technical Implications
The new dummy from the update of the thorax-shoulder complex should enable the more to-the-point evaluation of restraint systems and improve their design.
Strategy targets
An efficient and integrated mobility system: acting on transport safety