Sonstige
The European CASPER (Child Advanced Safety Project for European Roads) project studying car child safety includes a sociological approach in order to have a better understanding of the behaviour of parents driving children under 12 years old. A questionnaire was distributed via the internet in Europe with 998 parents (representing 1638 children) from 22 European countries responding. The results inform on the way parents secure their children during a car trip. Many parents did not control how their children were installed in the child restraint system (CRS). A toddler was more likely to travel into a child seat than an older child was. Regarding misuse situations, an important part of the participants did not think that they could make mistakes when fixing the child seat to the car (26%) or when placing the child into the seat (39%). This leaves an important field of action especially by communication via different media and in the CRS sale outlets.
The main objective of EC CASPER research project is to reduce fatalities and injuries of children travelling in cars. Accidents involving children were investigated, modelling of human being and tools for dummies were advanced, a survey for the diagnosis of child safety was carried out and demands and applications were analysed. From the many research tasks of the CASPER project, the intention of this paper is to address the following: • In-depth investigation of accidents and accident reconstruction. These will provide important points for the injury risk curve, in order to improve it. Different accident investigation teams collected data from real road accidents, involving child car passengers, in five different European countries. Then, a selection of the most appropriate cases for the injury risk curve and the purposes of the project was made for an in-depth analysis. The final stage of this analysis was to conduct an accident reconstruction to validate the results obtained. The in-depth analysis included on-scene accident investigation, creating virtual simulations of the accident/possible reconstruction, and conducting the reconstruction. In the cases of successful reconstructions, new points were introduced to the injury risk curves. Accident reconstructions of selected cases were carried out in test laboratories as the next step following in-depth road accident investigation. These cases were reconstructed using similar child restraint systems (CRS) and the same type make and model as in the real accidents. Reconstructing real cases has several limitations, such as crash angle, cars" approximation paths and crash speed. However, a few changes and applications on the testing conditions were applied to reduce the limitations and improved the representations of the real accidents. After conducting the reconstructions, a comparison between the deformations of the cars on the real accident and the vehicles from the reconstructions was made. Additionally, a correlation between the data captured from the dummies and the injury data from the real accident was sought. This finalises an in-depth analysis of the accident, which will provide new relevant points to the injury risk curve. The CASPER project conducted a large research programme on child safety. On technical points, a promising research area is the developing injury risk curves as a result of in-depth accident investigations and reconstructions. This abstract was written whilst the project was not yet finished and final results are not yet known, but they will be available by the time of the conference. All the works and findings will not necessarily be integrated in the industrial versions of evaluation tools as the CASPER project is a research program.
Ziel dieses Forschungsprojektes war es, eine bundesweite Analyse von Schulwegplänen durchzuführen. Dabei wurden sowohl der Entstehungsprozess als auch die Verbreitung und Nutzung betrachtet. Im Ergebnis sollten daraus Handlungsempfehlungen für eine zukünftige Ausrichtung abgeleitet werden. Dazu wurden umfangreiche Erhebungen und Analysen durchgeführt. Neben einer Befragung der zuständigen Länderministerien für Kultus, Inneres und Verkehr zur Erlasslage und weiteren landesweiten Hintergründen erfolgte eine bundesweite Bestandsaufnahme von Schulwegplänen in Kommunen und Schulen. Hierzu wurde eine repräsentative, geschichtete Zufallsstichprobe von 1.178 Kommunen gebildet. Es lagen aus 377 Kommunen und 1.646 Schulen auswertbare Antworten vor. Insgesamt wurden in diesem Zusammenhang 622 Schulwegpläne zur Verfügung gestellt, deren Inhalte systematisch klassifiziert und entsprechend aufbereitet wurden. Ergänzend zu diesem Gesamtüberblick erfolgten Detailanalysen zu knapp 100 Schulwegplänen. Hierzu wurden neben der Verwaltung der Kommunen erneut die Schulen und zusätzlich die Polizei befragt. Im Rahmen von Elternbefragungen an 16 Schulen wurden Erkenntnisse zur Nutzung, Bedeutung und Bewertung von Schulwegplänen gesammelt. Abschließend erfolgte für 26 Schulwegpläne eine Überprüfung ausgewählter Inhalte im Rahmen von Vor-Ort-Begehungen. Die aus diesen Erhebungen und Analysen abgeleiteten Handlungsempfehlungen wurden auf einem Workshop mit Experten aus Praxis und Wissenschaft diskutiert, um zu gewährleisten, dass diese möglichst praxis- und bedarfsgerecht sind. Im Ergebnis konnten für 17 Problembereiche Handlungsempfehlungen abgeleitet werden, die übersichtlich dargestellt und mit konkreten Beispielen ergänzt sind. Zudem wurden Hinweise formuliert, die zukünftig bei der Erarbeitung von Schulwegplänen berücksichtigt werden sollten. Schulwegpläne sind ein bekanntes und angenommenes Instrument zur Erhöhung der Verkehrssicherheit auf Schulwegen. Dies zeigen die Ergebnisse in Bezug auf den Verbreitungsgrad, zumindest für einige Bundesländer. Aber obwohl es zahlreiche sehr gute Beispiele von Schulwegplänen, Radschulwegplänen, Schulwegratgebern und Kinderstadt(teil)plänen gibt, wird es für erforderlich gehalten, die gewonnenen empirischen Erkenntnisse in zukünftigen Empfehlungen und Hinweisen zur Erstellung von Schulwegplänen stärker zu berücksichtigen. Dies ist notwendig, da sich der Bedarf aufgrund gesellschaftlicher Veränderungen in den Kommunen und Schulen " z. B. im Hinblick auf das Mobilitätsverhalten der Kinder " bereits zeigt. Die Frage, was ein guter Schulwegplan ist und was dieser enthalten soll, hängt von den Problemen und Zielen ab, die vor Ort beschrieben und konkretisiert werden müssen. Den "einen optimalen Schulwegplan" kann es daher nicht geben. Ein guter Schulwegplan ist grundsätzlich ein Hilfsmittel, um sowohl allgemein übliche als auch vor Ort konkretisierte Ziele zu erreichen. Grundlage eines guten Schulwegplanes ist neben der Unfallanalyse die Berücksichtigung der örtlichen Rahmenbedingungen und der Bedürfnisse der Kinder und Eltern auf den Schulwegen. Die Überprüfung der Schulwegpläne hat ergeben, dass die Empfehlungen oft fehlerhaft sind. Häufige Defizite auf empfohlenen Schulwegen sind zu hohe zulässige Geschwindigkeiten, mangelnde Sichtbeziehungen und zu weite, nicht akzeptierte Umwege. Daher sind bei der Erstellung eines Schulwegplanes Vor-Ort-Begehungen unerlässlich, um derartige Fehler und falsche Wegeempfehlungen zu vermeiden. Gefahrenstellen sind mindestens textlich, am besten mittels Bildern zu erläutern und es sollten Handlungsoptionen für die Bewältigung der Gefahrenstellen angegeben werden. Zudem können didaktische Hilfestellungen für Eltern zum Einüben der Schulwege sinnvoll sein. Ein weiteres Ergebnis dieses Forschungsvorhabens ist ein Leitfaden, der Schritt für Schritt auch für "Laien" die Erstellung von Schulwegplänen beschreibt und dabei die Erkenntnisse dieses Projektes berücksichtigt. Inhaltliche Schwerpunkte dieses Leitfadens sind neben Beispielen die Bestandsaufnahmen und Schulweganalysen mittels Checklisten und die Bereitstellung aller notwendigen Vorlagen und Grafiken.
Although the statistics show a decreasing rate of child injuries and fatalities in German road accidents more efforts can be made to protect children in cars e.g. by developing appropriate child restraint systems. An important part in of this work can be achieved with the help of crash tests using child dummies. However these crash tests cannot completely reflect the situation of real world crashes as factors like children moving out of the optimal position or children incorrectly fastened by their parents are difficult to predict. Therefore this study gives an overview over the current accident and injury situation of child occupants in cars in German road accidents.
Validation of human pedestrian models using laboratory data as well as accident reconstruction
(2007)
Human pedestrian models have been developed and improved continually. This paper shows the latest stage in development and validation of the multibody pedestrian model released with MADYMO. The biofidelity of the multibody pedestrian model has been verified using a range of full pedestrian-vehicle impact tests with a large range in body sizes (16 male, 2 female, standing height 160-192cm, weight 53.5-90kg). The simulation results were objectively correlated to experimental data. Overall, the model predicted the measured response well. In particular the head impact locations were accurately predicted, indicated by global correlation scores over 90%. The correlation score for the bumper forces and accelerations of various body parts was lower (47-64%), which was largely attributed to the limited information available on the vehicle contact characteristics (stiffness, damping, deformation). Also, the effects of the large range in published leg fracture tolerances on the predicted risk to leg fracture by the pedestrian model were evaluated and compared with experimental results. The validated mid-size male model was scaled to a range of body sizes, including children and a female. Typical applications for the pedestrian models are trend studies to evaluate vehicle front ends and accident reconstructions. Results obtained in several studies show that the pedestrian models match pedestrian throw distances and impact locations observed in real accidents. Larger sets of well documented cases can be used to further validate the models especially for specific populations as for instance children. In addition, these cases will be needed to evaluate the injury predictive capability of human models. Ongoing developments include a so-called facet pedestrian model with a more accurate geometry description and a more humanlike spine and neck and a full FE model allowing more detailed injury analysis.
This study is aimed to investigate the correlations of impact conditions and dynamic responses with the injuries and injury severity of child pedestrians by accident reconstruction. For this purpose, the pedestrian accident cases were selected from Sweden and Germany with detailed information about injuries, accident cars, and accident environment. The selected accident cases were reconstructed using mathematical models of pedestrian and passenger car. The pedestrian models were generated based on the height, weight, and age of the pedestrian involved in accidents. The car models were built up based on the corresponding accident car. The impact speeds in simulations were defined based on the reported data. The calculated physical quantities were analyzed to find the correlation with injury outcomes registered in the accident database. The reconstruction approaches are discussed in terms of data collection, estimating vehicle impact speeds, pedestrian moving speeds and initial posture, secondary ground impact, validity of the mathematical models, as well as impact biomechanics.
The so-called "seat-belt injuries" or "seat-belt syndromes", described as 2-point seat-belt injuries, contain heavy inflection injuries of the lumbal spinal column, combined with heavy abdominal injuries as rupture of the upper intestinal bold or heavy injuries of the upper entrails. With "playing" children in the font of the car, with inappropriate plant of 3-point belts, identical injuries can occur.
Since the compulsory use of child restraints for children up to 5 years of age was introduced in 2000, restraint use among younger children has increased significantly. However, the observed rate of child restraint use plateaus at around 50%, and apparently little spillover effect has been found for older children who are not covered by the law. This report examines the restraint use patterns for children who were injured in cars in relation to driver and child passenger characteristics. Univariate and multivariate analyses were conducted to describe the association between the outcome measure (the proper use of restraints for children) and relevant variables. Better ways for parents and caregivers to improve the use of restraints for children are also discussed.
This study examines the severity and types of injuries sustained by child pedestrians aged 18 years and below in order to identify the body regions at greatest risk for injury in a pedestrian accident. Detailed medical diagnoses were reviewed retrospectively for 572 child pedestrians admitted to an urban pediatric trauma center with injuries during the time period from January 2001 to December 2005. Eighty percent of these children sustained AIS 2 or greater injuries, most commonly to the lower extremity (41%) and head (34%). Fortyfour percent of admitted children had more significant AIS 3 or greater injuries primarily to the head (58%), thorax (17%) and lower extremities (14%). Testing procedures to assess the child- interaction with the motor vehicle should include injury assessment for the pediatric head, thorax and lower extremities. This understanding of how child pedestrians interact with motor vehicles may provide insight into effective countermeasures with potential for implementation in vehicle designs world-wide.
The primary goal of this investigation was to determine the relative risk of traffic accidents in students. In a two year period, a survey amongst 2,325 students was carried out, and 3,645 injuries sustained by students treated at our hospital were analyzed. Moped-riding in adolescents were associated with a 23.75-fold increased risk for injury as compared to biking. Children who ride bicycles have a 2.2-fold increased risk for an injury sustained by traffic accidents compared to pedestrians. None of 50 injured bicycle riders with helmet had an AIS for head injuries of more than 2. 24 of 233 injured bicycle drivers without helmet had an AIS for head injuries of more than 2. The use of a protective helmet significantly reduced the severity of head injuries. The level of awareness towards danger and a history of previous accidents correlate with the likelihood of future accidents. Due to the severity of traffic accidents, more adequate prevention measures (wearing of bicycle helmets and better education for moped riders) are urgently needed.