81 Unfallstatistik
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The paper gives an overview of the recent (mostly 2012) figures of killed bus/coach occupants (drivers and passengers) in 27 Member States of the European Union as reported by CARE. The Evolution of the figures of bus/coach occupants killed in road accidents urban, rural without motorway and on motorways from 1991 to 2010 in 15 Member States of the EU supplements this information. More detailed are the figures reported for Germany by the Federal Statistics. The paper displays long-term evaluations (1957 to 2012) for killed, seriously and slightly injured occupants in all kinds of buses/coaches. Midterm evaluations (1995 to 2012) of the figures of fatalities and casualties are displayed for different busses according to their identification of road using as coaches, urban buses, school buses, trolley buses and "other buses". To be able to compare the evolutions of the safety of vehicle occupants it is customary to use different risk indicators. Calculations and illustrations for three often used indicators with their development over time are given: fatalities, seriously injured and slightly injured per 100,000 vehicles registered, per 1 billion (109) vehicle-kilometres travelled and per 1 billion (109) person-kilometres. These indicators are shown for occupants of cars, goods vehicles and buses/coaches. For the period from 1957 until 2012 it is obvious, that for all three vehicle categories analysed there was a clear long-term trend towards more occupant safety in terms of casualties per vehicles registered and per vehicle mileage. This was most significant for car occupants but it can be seen for bus/coach occupants and goodsvehicle occupants as well. Figures of killed occupants and of casualties related to person-kilometres are calculated and displayed for the shorter period 1995 to 2012. Here it becomes obvious that the bus/coach is still the safest mode of transport for the occupants of road vehicles. Graphs for the casualty risk indices still show significantly higher risks for car occupants despite the corresponding curve moved sustainable downwards. It is remarkable, that the risks of being killed or injured for the occupants of urban buses is growing whereas the corresponding risk for the occupants of coaches in line traffic tends downwards. The article ends with a short comparison and discussion of the risk indicators which are actually published for the occupants (driver and passengers) of cars and the passengers of buses/coaches, railroads, trams and airplanes. The interpretation of such information depends on the perception and it seems that for a complete view not only one indicator should be used and the evolutions of the indicator values during longer periods (as displayed with examples in the paper) should also be taken into account.
Der vorliegende Bericht analysiert das Unfallgeschehen von Fahrzeugen beim Transport gefährlicher Güter in Verpackungen der Jahre 1987 bis August 1992 auf dem Gebiet der alten Bundesländer. Ein Unfall wird als Gefahrgutunfall definiert, wenn in seinem Verlauf mindestens 100 kg/l Gefahrgut austreten und/oder wenn Personen durch Gefahrgut verletzt werden. Die Untersuchung umfasst insgesamt 90 solcher Unfälle. Angaben zur Dunkelziffer liegen für den Untersuchungszeitraum nicht vor. Um die Repräsentativität der vorliegenden Erhebung abzuschätzen, wurde die Anzahl der Unfälle von Stückgutfahrzeugen mit der in der amtlichen Straßenverkehrsunfallstatistik ausgewiesenen Anzahl verglichen. Es zeigt sich, dass ungefähr jeder zweite Unfall mit gefährlichen Gütern im Rahmen der vorliegenden Erhebung nicht erfasst wurde. Ausgehend von der Untersuchung der Unfallmerkmale wie Unfallort, -art und -umstände erfolgt eine Betrachtung der an Gefahrgutunfällen beteiligten Fahrer, wobei die charakteristischen Merkmale der beteiligten Gefahrgutfahrer gesondert hervorgehoben werden. Dabei wird deutlich, dass Gefahrgutunfälle überwiegend auf Autobahnen geschehen und hauptsächlich von den Gefahrgutfahrern verursacht werden. Die gefährliche Ladung war dabei oft sehr mangelhaft gesichert. Die besonderen Gefahren der untersuchten Stückgutunfälle gehen von den transportierten Gefahrgütern aus. Daher werden die Gefahrklassen sowie Transport- und Austrittsmengen der Güter dargestellt. "Entzündbare flüssige Stoffe" (29 Prozent) haben zusammen mit "Giftigen Stoffen" (26 Prozent) den größten Anteil an den transportierten Gefahrgütern. Im Durchschnitt hatten die Stückgutfahrzeuge rund 7.600 kg Gefahrgut geladen, von denen ungefähr 1.300 kg je Unfall freigesetzt wurden. Die Bewertung der Unfallfolgen erfolgt durch eine Abschätzung ihrer volkswirtschaftlichen Kosten. Die ermittelten Kosten werden für Personen- und Sachschäden sowie Primär- und Sekundärschäden ausgewiesen. Die gesamten volkswirtschaftlichen Kosten der 90 untersuchten Unfälle belaufen sich auf circa 20 Millionen DM.
Es erfolgt eine Aktualisierung und Neufassung des von der Bundesanstalt für Straßenwesen (BASt) im Jahre 1978 veröffentlichten Berichts "Nachtunfälle - eine Analyse auf der Grundlage der Daten der amtlichen Straßenverkehrsunfallstatistik" (Brühning, Hippchen und Weißbrodt; 1978). Ausgewertet werden die Unfalldaten seit 1970, im Wesentlichen aber die Daten des Jahres 1985. Nachtunfälle haben innerhalb des gesamten Unfallgeschehens eine besondere Bedeutung. Sie sind im Mittel schwerer als Unfälle bei Tage: über 25 % aller Unfälle mit Personenschaden, aber rund 40 % aller Unfälle mit Getöteten ereignen sich nachts. Fußgänger werden zu 48,7 % bei Nachtunfällen getötet, 43,1 % der getöteten Pkw-Insassen sterben bei Nachtunfällen. Das Unfallrisiko ist nachts erheblich größer als bei Tage. Nachts steigt das fahrleistungsbezogene Unfallrisiko der Pkw außerorts (ohne BAB) auf das 1,7-fache, auf BAB auf das 1,5-fache des Risikos bei Tage an. Neben Angaben zur zeitlichen Entwicklung erfolgt zunächst ein Überlick über die wesentlichen Kenngrößen (Art der Verkehrsbeteiligung, Alter und Geschlecht der Fußgänger beziehungsweise Fahrer, Ortslage, Unfallmonat, Wochentag und Uhrzeit, Straßenzustand, Unfalltyp und Unfallursachen) des nächtlichen Unfallgeschehens. Darüberhinaus wird eine eingehende Betrachtung zu ausgewählten Problembereichen auf der Grundlage von Tabellenanalysen sowie multidimensionalen Analysen mittels Logit-Modellen durchgeführt. Im einzelnen handelt es sich um die Problembereiche "Alkohol", ungünstiger Straßenzustand, junge Fahrer von motorisierten Zweirädern, Pkw-Fahrer und Fußgänger. Desweiteren wird auf regionale Unterschiede nach Bundesländern im nächtlichen Unfallgeschehen eingegangen.
Nachtunfälle : eine Analyse auf der Grundlage der Daten der amtlichen Straßenverkehrsunfallstatistik
(1978)
Im Anschluss an eine Charakterisierung der Nachtunfälle anhand von Einzelstudien werden Untersuchungen referiert, die die Auswirkungen bestimmter Umstände betreffen (Alkohol, Witterungseinflüsse, Unterschiede im Verkehrsaufkommen, Einfluss straßenbaulicher Merkmale, spezielle Orientierungsprobleme, Leistungsfähigkeit des Rettungsdienstes, Gurtanlegeverhalten). Anschließend wird über Untersuchungen berichtet, die die Wirksamkeit von Maßnahmen zur Reduzierung der Nachtunfälle betreffen (Wirksamkeit von Alkoholkampagnen, Überwachungsmaßnahmen und gesetzlichen Regelungen; Beleuchtung bzw. Sichtbarkeit des Verkehrsraumes; Wirksamkeitsuntersuchungen beleuchteter Fußgängerüberwege; Beleuchtung und Sichtbarkeit der Verkehrsteilnehmer; Verbesserung der optischen Führung durch Fahrbahnmarkierungen; Blendschutzeinrichtungen; Wildschutzzäune; Einführung der Sommerzeit; Verbesserung der Unfallrettung). Abschließend werden Fragestellungen vorgelegt, zu denen bisher keine befriedigenden Aussagen vorliegen. - Im zweiten Teil wird zunächst die Bedeutung der Nachtunfälle innerhalb des gesamten Unfallgeschehens in der zeitlichen Entwicklung dargestellt. Anschließend werden die kennzeichnenden Parameter des Unfallgeschehens für Unfälle mit Personenschaden erörtert (Art der Verkehrsteilnahme, Lebensalter sowie Geschlecht der Fußgänger bzw. Fahrer, Ortslage, Uhrzeit, Straßenzustand, Unfalltypen und -ursachen). Danach folgt eine mehrdimensionale Betrachtung zu ausgewählten Problembereichen (Unfallursache Alkohol, ungünstige Witterungsverhältnisse, jugendliche Fahrer von motorisierten Zweirädern, Pkw-Fahrer, Fußgänger). Schließlich wird über künftige Auswertungen berichtet.
Estimation of the benefits for the UK for potential options to modify UNECE Regulation No. 95
(2010)
The side impact problem in Europe remains substantial. UK data shows that between 22% and 26% of car occupant casualties are involved in a side impact, but this rises to between 29% and 38% for those who are fatally injured. This indicates the more injurious nature of side impacts compared with frontal impacts. The European Enhanced Vehicle safety Committee (EEVC) has performed work to address the side impact issue since 1979. As part of its continuing work, it has recently investigated potential options for regulatory changes to improve side impact protection in cars further. To support this work the UK undertook an analysis to estimate the benefit for potential options to modify UNECE Regulation 95. The analysis used the UK national STATS19 and detailed Co-operative Crash Injury Study (CCIS) accident databases. Of the potential options reviewed, it was found that the addition of a pole test offered the greatest benefit.
Internationally, the need is expressed for harmonized traffic accident data collection (PSN, PENDANT, etc.). Together with this effort of harmonization, traffic accident investigation moves more and more in the direction of accident causation. As current methods only partly address these needs, a new method was set up. The main characteristics of this method are: • Accident/injury causation (associated) factors can objectively be identified and quantified, by comparison with exposure information from a normal population. • All relevant accident and exposure data can be included: human-, vehicle-, and environmental related data for the pre-crash, crash and postcrash situation (the so-called Haddon matrix). The level of detail can be chosen depending on interest and/or budget, which makes the method very flexible. In this paper the accident collection and control group method are presented, including some of the achieved results from a pilot study on 30 truck accidents and 30 control locations. The data were analyzed by using cross-tabulations and classification-tree analysis. The method proved useful for the identification of statistically significant causational aspects.
One of the major problems of road safety in Europe is the powered two wheelers accidents. One of the European countries with one of the highest rates is Portugal where in 2006, mopeds and motorcycles fatalities represented 27% of all road users deaths. In this work, a deep analysis and overview of the current state of mopeds and motorcycles accidents for the 2004-2006 period is presented. Within this period 830 PTW occupants die, 2958 have been severely injured and 25000 suffer slight injuries. A detailed analysis of the conditions of these accidents has been carried out, using the data of the national accident database. This analysis provides global information, about geographic environmental conditions, driver- characteristics among others. From this data detailed information is obtained allowing to know when, where and who. In order to answer the question why more a widely collection of data has been collect for 70 accidents. The data has been collected using OECD methodology. For these accidents a detailed reconstruction has been carried out, what is especially important for fatal accidents where for instance speed in an important factor. From these collection and analysis of data a wider overview of facts and measures are extracted. Among them, some are emphasized such as that the quality and non-use of helmets plays an important role in severe and fatal accidents especially for accidents involving moped vehicles, or speed is the most important factor in fatal accidents involving motorcycles. Concerning motorcycle accident reconstruction, different tools can be used depending of the accident scenario and complexity. For simple cases, with specific characteristics, analytical formulation based in vehicle crash dynamics can be use in order to determine the impact speed of the vehicles impact, analysing the skid marks, deformations, victims rest position and considering parameters (EES, vehicle deceleration, etc). Aspects such as the energy absorption capability of motorcycles are also discussed. In the general cases the accident reconstruction software Pc-Crash has been used for the reconstruction of the accident. In very complex cases, has for instance the impact between motorcyclist and barriers, Madymo software is used especially to determine speed from injuries. An example of the impact of a motorcyclist and a motorcyclist-friendly barrier is present to illustrate the benefits and limitations of such systems.
The overall purpose of the ASSESS project is to develop a relevant and standardised set of test and assessment methods and associated tools for integrated vehicle safety systems, primarily focussing on currently available pre-crash sensing systems. The first stage of the project was to define casualty relevant accident scenarios so that the test scenarios will be developed based on accident scenarios which currently result in the greatest injury outcome, measured by a combination of casualty severity and casualty frequency. The first analysis stage was completed using data from a range of accident databases, including those which were nationally representative (STATS19, UK and STRADA, SE) and in-depth sources which provided more detailed parameters to characterise the accident scenarios (GIDAS, DE and OTS, UK). A common analysis method was developed in order to compare the data from these different sources, and while the data sets were not completely compatible, the majority of the data was aligned in such a way that allowed a useful comparison to be made. As the ASSESS project focuses on pre-crash sensing systems fitted to passenger cars, the data selected for the analysis was "injury accidents which involved at least one passenger car". The accident data analysis yielded the following ranked list of most relevant accident scenarios: Rank Accident scenario 1 Driving accident - single vehicle loss of control 2 Accidents in longitudinal traffic (same and opposite directions) 3 Accidents with turning vehicle(s) or crossing paths in junctions 4 Accidents involving pedestrians The ranked list highlights the relatively large role played by "accidents in longitudinal traffic", and "accidents with turning vehicle(s) or crossing paths in junctions" (the second and third most prevalent accident scenarios, respectively). The pre-crash systems addressed in ASSESS propose to yield beneficial safety outcomes with specific regard to these accident scenarios. This indicates that the ASSESS project is highly relevant to the current casualty crash problem. In the second stage of the analysis a selection of these accident scenarios were analysed further to define the accident parameters at a more detailed level .This paper describes the analysis approach and results from the first analysis stage.
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.
Novice drivers are at high risk for crash involvement. We performed an analysis of causations, injury patterns and distributions of novice drivers in cars and on motorcycles in road traffic as a basis for proper measurements. Method Data of accident and hospital records of novice drivers (licence < 2 years) were analysed focusing the following parameters: injury type, localisation and mechanism, Abbreviated Injury Scale (AIS), maximum AIS (MAIS), delta-v, collision speed and other technical parameters and have been compared to those of experienced drivers. In 18352 accidents in the area of Hannover (years1985"2004), 2602 novice drivers and 18214 experienced drivers were recorded having an accident. Novice car drivers were more often and severe injured than experienced and on motorcycles the experienced riders were at higher risk. Novice drivers of both groups sustained more often extremity injuries. 4.5 % novice car drivers were not restraint compared to 3.7 % of the experienced drivers and 6.1 % novice motorcycle drivers did not wear a proper helmet (versus 6.5 %). Severe injuries sustained at a rate of 20 % at collision speeds below 30 km/h and in 80% at collision speeds above 50 km/h. Novice car drivers drove significant older cars. The risk profile of novice drivers is similar to those of drivers older than 65 years. Structural protection and special lectures like skidding courses could be proper remedial action next to harder punishment of violations.