81 Unfallstatistik
Berichtet wird über Wildunfälle in Deutschland im Jahre 1997. Sie werden in der amtlichen Straßenverkehrsunfallstatistik nur berücksichtigt, wenn sie Personenschäden oder schwere Sachschäden zur Folge hatten oder unter Alkoholeinfluss geschahen. Analysiert wurden 3.154 Wildunfälle der amtlichen Unfallstatistik. Die Zahl der Verunglückten je 1.000 Unfälle mit Personenschaden ist bei Wildunfällen geringer als bei sonstigen Unfällen, allerdings ist eine rückläufige Tendenz der schweren Unfälle im Gesamtunfallgeschehen bei den Wildunfällen nicht zu erkennen.
Über 80 Prozent aller an Unfällen mit Personenschaden beteiligten Kraftfahrzeuge sind Pkw. Für die Beschreibung der Unfallbeteiligung von Pkw unterschiedlicher Fahrzeugtypen und nach unterschiedlichen Fahrzeug- und Haltermerkmalen haben absolute Unfallzahlen jedoch nur eine geringe Aussagefähigkeit. Soll ein Vergleich der Beteiligung unterschiedlicher Teilkollektive von Pkw am Unfallgeschehen vorgenommen werden, so ist das Ausmaß ihrer Verkehrsbeteiligung zu berücksichtigen. Mit der "Fahrleistungserhebung 1990" (Hautzinger et al., 1993) liegen hierzu erstmals auch Fahrleistungsangaben differenziert nach Pkw-Typgruppen und nach Halter- und Fahrzeugmerkmalen vor. Grundlage der Untersuchung sind die Daten der an Unfällen mit Personenschaden und schwerem Sachschaden im Lande Nordrhein-Westfalen in den Jahren 1989 und 1990 beteiligten Pkw, ergänzt um fahrzeugtechnische Angaben des Kraftfahrt-Bundesamtes. Das fahrleistungsbezogene Unfallrisiko (Unfallrate) von Pkw wurde zunächst in Abhängigkeit von ausgewählten Fahrzeugmerkmalen (zum Beispiel Fahrzeugalter, Hubraum, Motorleistung) beschrieben und mit dem bestandsbezogenen Unfallrisiko (Unfall-belastung) verglichen. Danach wurde das Unfallrisiko von 228 verschiedenen Pkw-Typgruppen untersucht. Dabei wurden Zusammenhänge zwischen den Unfallraten der verschiedenen Gruppen, der mittleren Jahresfahrleistung, der Motorleistung und dem Alter der unfallbeteiligten Fahrer deutlich. Um den Zusammenhang zwischen dem fahrleistungsbezogenen Unfallrisiko verschiedener Pkw-Typgruppen und weiteren - nicht fahrzeugspezifischen - Einflussgrößen zu verdeutlichen, wurde anschließend die Pkw-Unfallrate in Abhängigkeit von wichtigen Strukturmerkmalen des Unfallgeschehens (zum Beispiel Ortslage, Fahreralter, Unfallursache) untersucht. Es zeigte sich, dass die festgestellten deutlichen Zusammenhänge zwischen Fahrzeugmerkmalen und Risikokenngrößen beziehungsweise die zwischen verschiedenen Pkw-Typgruppen gegebenen Unterschiede bei der Unfallrate und bei der mittleren Jahresfahrleistung einhergehen mit unterschiedlichen Fahrerpopulationen und unterschiedlicher Fahrzeugnutzung. So ist davon auszugehen, dass Pkw mit bestimmten Fahrzeugmerkmalen beziehungsweise bestimmte Pkw-Typgruppen, die hohe Unfallraten aufweisen, stärker von jungen Fahrern genutzt werden, und die im Mittel niedrigeren Jahresfahrleistungen dieser Pkw-Typgruppen zu einem vergleichsweise geringen Anteil auf den (sichereren) Autobahnen erbracht werden.
Die Beteiligung von Kleintransportern über 2,8 t bis 3,5 t an Unfällen mit Personenschaden hat sich von 1996 bis 2001 verdreifacht, während sich im gleichen Zeitraum der Bestand dieser Fahrzeuggruppe etwa verdoppelt hat. Nach einem kontinuierlichen Anstieg der Unfallzahlen von 1996 bis 2001 konnten im Jahr 2002 erstmals Rückgänge bei Unfall- und Verunglücktenzahlen von Kleintransportern über 2,8 t bis 3,5 t beobachtet werden, während der Bestand weiter angestiegen ist. Auf Autobahnen waren Kleintransporter an allen Unfällen mit Personenschaden mit rund 1,5 Prozent beteiligt. Mehr als ein Drittel der unfallbeteiligten Kleintransporter und mehr als die Hälfte der dabei Getöteten sind in Abschnitten mit bestehenden Geschwindigkeitsbeschränkungen (einschließlich Baustellen) zu verzeichnen. Die Auswirkungen eines von mehreren Bundesländern und Verbänden geforderten allgemeinen Tempolimits für Kleintransporter auf Autobahnen würde nach den vorliegenden Analysen nur einen geringen Anteil der Unfälle von Kleintransportern und der dabei Verunglückten betreffen.
Traffic accidents were ranked the third among the major causes of death in Thailand. About 13,438 deaths and the death rate from traffic accident was 21.5 per 100,000 of population in 2002. The deaths and death rate varied upon the economic situation. After the economic crisis, traffic accidents were increased as well as the period of the bubble economy. In the Central region of Thailand numbers of road traffic crashes were lower than Bangkok Metropolis, but the highest in the number of deaths, death rate and serious injuries in 2002. Men aged 15"29 years old had higher numbers of deaths than men in other age groups and higher than women. Deaths and injuries from road traffic crashes were the highest in April and January, because there was a long weekend in those months. About 80 percent of road traffic crashes were caused by private car and motorcycle. In 2000 about 51 percent of traffic accidents took place on the straight way, followed by the junction and curves. In 2002, about 97 percent of road traffic crashes were caused by human factors including improper passing, speeding and disregarding to traffic signal, however, the identification of causes of traffic accident needed to improve. Drunk driving, disregarding on safety equipment usage, inefficiency of law enforcement and discontinuing of road safety programs were the deepest causes of traffic accidents. Research based information, a broad coalition of stakeholder and urban planning policy were needed to incorporate for a comprehensive road safety policy formulation and actions.
A total survey of road traffic accidents involving most severely injured, defined as sustaining a polytrauma or severe monotrauma (ISS > 15) or being killed, was conducted over 14 months in a large study region in Germany. Data on injuries, pre-clinical and clinical care, crash circumstances and vehicle damage were obtained both prospectively and retrospectively from trauma centers, dispatch centers, police and fire departments. 149 patients with a polytrauma and eight with a severe monotrauma were recorded altogether. 22 patients died in hospital. Another 76 victims had deceased at the accident scene. In 2008, 49 % of patients treated with life-threatening injuries were car or van occupants, 21 % motorcyclists, 18 % cyclists and 10 % pedestrians. Among fatalities at the scene, vehicle occupants constituted an even larger portion. The number of road users with life-threatening trauma in the region was extrapolated to the German situation. It suggests that 10 % among the "seriously injured" as defined in national accident statistics are surviving accident victims with a polytrauma or severe monotrauma.
Es wird über die Ergebnisse eines standardisierten Erhebungsverfahrens berichtet, mit dem die BASt seit Jahren das Verhalten der Verkehrsteilnehmer hinsichtlich der Benutzung von Sicherheitsgurten und von Kindersitzen in Pkw ermittelt. Die Beobachtungsergebnisse des Jahres 1996 und der Stand der Sicherungsquoten in anderen europäischen Staaten werden dargestellt.
Pedestrian accidents are one of the major concerns related with road accidents around the world. Portugal has one of the highest rates of pedestrian fatalities in Europe. In this paper an overview conditions were the pedestrian accidents occurred in Portugal is presented. In the last years, a project related with the pedestrian accidents has run in Portugal for the period 2004-2006 where 603 people died, 2097 have been severely injured and about 17000 slightly injured. Within this project all the pedestrian accidents in this period have been analysed providing global information about a wide range of aspects, since location, driver and pedestrian characteristics, weather and road conditions, among others. In addition, 50 in-depth accidents have been investigated and the data collected according the Pendant methodology. For this in-depth methodology detailed information about the accident has been collected, including injuries, vehicle damage, road conditions and road user- behaviour and actions. An accident reconstruction has been carried for each case including the determination of the speeds and driver actions, and the analysis of the contributing factors for the accident. Depending of the accident complexity, different methodologies have been used to analyse these accident, from the classical analytical equations such as Simms and Woods, to the use of detailed computational pedestrian models as those included in the commercial software- PC-Crash-® or Madymo-®. Also one of the goals of our investigation is the development of multibody models and methodologies for the reconstruction of pedestrian accidents. Some of these tools integrated in the commercial software Cosmos Motion-® are presented. The advantages of the different approaches are compared and discussed for some of the accidents investigated. With these tools the impact speed can be determined from the projection distance with analytical tools or PC-Crash-®, but more complex tools should be used to determine speed from the injuries, what is especially important for fatal accidents. The influence of the vehicle geometry and stiffness characteristics is another aspect analysed, where the influence of the vehicle stiffness has been determined using a combined multibody-finite elements approach within the software Madymo-®.
Today, Euro NCAP is a well established rating system for passive car safety. The significance of the ratings must however be evaluated by comparison with national accident data. For this purpose accidents with involvement of two passenger cars have been taken from the German National Road Accident Register (record years 1998 to 2004) to evaluate the results of the NCAP frontal impact test configuration. Injury data from both drivers involved in frontal car to car collisions have been sampled and have been compared, using a "Bradley Terry Model" which is well established in the area of paired comparisons. Confounders " like mass ratio of the cars involved, gender of the driver, etc. " have been accounted for in the statistical model. Applying the Bradley Terry Model to the national accident data the safety ranking from Euro NCAP has been validated (safety level: 1star <2 star <3 star <4 star). Significant safety differences are found between cars of the 1 and 2 star category as compared to cars of the 3 and 4 star category. The impact of the mass ratio was highly significant and most influential. Changing the mass ratio by an amount of 10% will raise the chance for the driver of the heavier car to get better off by about 18%. The impact of driver gender was again highly significant, showing a nearly 2 times lower injury risk for male drivers. With regard to the NCAP rating drivers of a high rated car are more than 2 times more probable (70% chance) to get off less injured in a frontal collision as compared to the driver of a low rated car.
This study that was funded by the Research Association for Automotive Technology (FAT) develops a method for the evaluation of the placement of tanks or batteries by using the deformation frequencies in real-world accidents. Therefore, the deformations of more than 20.000 passenger cars in the GIDAS database are analysed. For each vehicle a contour of deformation is calculated and the deformed areas of the vehicles are transferred in a rangy matrix of deformation. Thereby, the vehicle is divided into more than 190.000 cells. Afterwards, all single matrices of deformation are summarized for each cell which allows representative analyses of the deformation frequencies of accidents with passenger cars in Germany. On the basis of these deformation frequencies it is possible to determine least deformed areas of all passenger cars. Furthermore, intended placements of tanks or batteries can be estimated in an early stage of development. Therefore, all vehicles with deformations in the intended tank areas can be analysed individually. Considering numerous parameters out of the GIDAS database (e.g. collision speed, kind of accident, overlap, collision partner etc.) the occurring forces can be calculated or the deformation frequency can be estimated. Furthermore, it is possible to consider the influence of primary and secondary safety systems on the deformation behaviour. The analysis of "worst case accident events" is an additional application of the calculated matrix of deformation frequency.
Pedestrian and cyclist are the most vulnerable road users in traffic crashes. One important aspect of this study was the comparable analysis of the exact impact configuration and the resulting injury patterns of pedestrians and cyclists in view of epidemiology. The secondary aim was assessment of head injury risks and kinematics of adult pedestrian and cyclists in primary and secondary impacts and to correlate the injuries related to physical parameters like HIC value, 3ms linear acceleration, and discuss the technical parameter with injuries observed in real-world accidents based documented real accidents of GIDAS and explains the head injuries by simulated load and impact conditions based on PC-Crash and MADYMO. A subsample of n=402 pedestrians and n=940 bicyclists from GIDAS database, Germany was used for preselection, from which 22 pedestrian and 18 cyclist accidents were selected for reconstruction by initially using PC-Crash to calculate impact conditions, such as vehicle impact velocity, vehicle kinematic sequence and throw out distance. The impact conditions then were employed to identify the initial conditions in simulation of MADYMO reconstruction. The results show that cyclists always suffer lower injury outcomes for the same accident severity. Differences in HIC, head relative impact velocity, 3ms linear contiguous acceleration, maximum angular velocity and acceleration, contact force, throwing distance and head contact timing are shown. The differences of landing conditions in secondary impacts of pedestrians and cyclists are also identified. Injury risk curves were generated by logistic regression model for each predicting physical parameters.