Sonstige
In 2012 the fifth ESAR conference (Expert Symposium on Accident Research) was held in Hannover. ESAR is an international convention of experts, who analyze traffic accidents all over the world and discuss their results in this context, conducted at the Medizinische Hochschule Hannover every 2 years. It connected representatives of public authorities, engineers in automotive development and scientists and offers a forum with particular emphasis on In-Depth-Analyses of accident statistics and accident analyses. Special focus is placed on research on the basis of so-called "In-Depth-Accident-Investigations" [data collections at the sites of the accidents], which are characterized by extensive documentations of the sites of the accidents, of the vehicles as well as of the injuries, encompassing several scientific fields. ESAR aims at a multi-disciplinary compilation of scientific results and at discussing them on an international, scientific level. It is thus a scientific colloquium and a platform for exchanging information for all accident researchers. Experiences in accident prevention as well as in the complex field of accident reconstruction are stated and new research fields are added. Existing results of long-term research work in Europe, the US, Australia and Japan include different infrastructural correlations and give findings on population, vehicle population and driver characteristics, which offer a basis for recommendations to be derived and measures for increasing road safety.
The role of a national motor vehicle crash causation study-style data set in rollover data analysis
(2010)
On 1 January 2005, The National Highway Traffic Safety Administration, an agency of the United States Department of Transportation, implemented a new data collection strategy designed to assess crash avoidance technologies and report associated behavioral inputs and outcomes. The original goal was a six-year program, however, during the shortened data collection period; it proved a valuable resource for understanding a precrash environment previously obscured by forensic case investigation. Another unintended consequence was an overlap with infrastructure, roadway geometry, and design with the occupant and vehicle outcomes, by virtue of well-defined attributes. External to the collected data, supplementary information was extrapolated, by using manuals published in the United States, by the American Association of State Highway Transportation Officials and selected State Departments of Transportation, in conjunction with the National Motor Vehicle Crash Causation Study (NMVCCS). This provided a backdrop to the infrastructure framework of the rollover problem within which the occupant and vehicle outcomes were studied. If a NMVCCS-style data collection were to be implemented elsewhere, then complementary manuals produced by federal transportation officials might be consulted producing similar relationships. The current study uses NMVCCS data to describe vehicles travelling through diverse design geometries and the outcome for occupants involved in crashes within that system. Codified and extrapolated data form the basis for assessing NMVCCS and its value to the transportation safety community, as the protocols are applicable universally. The benefit in continuing a NMVCCS-style study is noted, as the interaction of roadway infrastructure and occupant protection agencies might find paths to better work together in solving the complex rollover problem using a common data-driven approach.
An eCall device has been mounted on some vehicles in France since 2003. It is an integrated car radio/GSM/GPS system that can be used with a SIM card. When an accident occurs, a call can be sent manually or automatically made to a telephone call centre. Knowing the geographic location, the vehicle identity and the possibility of a direct communication with the people involved enables the nearest emergency services to be called out. In this context, the LAB / CEESAR have set up a study aimed at evaluating the effectiveness of this system. The purpose of this paper is to detail the E-call system evaluation method of effectiveness used and give a global synthesis of the results.
Die Unfallzahlen für das Jahr 2008 zeigen, dass die intensiven Anstrengungen für die Verkehrssicherheit weiterhin Früchte tragen. Nachdem im Jahr 2007 mit 220 Toten auch in Rheinland-Pfalz der geringste Stand seit Einführung der Unfallstatistik registriert wurde, konnte dieser Trend auch im Jahr 2008 bestätigt werden. Die Verkehrssicherheitsarbeit in Rheinland-Pfalz sieht sich dabei zunächst im Kontext des anspruchsvollen Ziels der EU, die Zahl der Verkehrstoten bis 2010 zu halbieren. Im Mittelpunkt steht dabei die Frage, wie die Risiken im Verkehrsverhalten der Menschen minimiert werden können. Vorhandene Sicherheitspotenziale sollen genutzt werden, Maßnahmen sind gezielt auf die Brennpunkte im Verkehrsgeschehen auszurichten. Neben Sicherheitsaktionen und Trainings für die Verkehrsteilnehmer sowie der Polizeiarbeit ist einer der wichtigsten Ansätze die Verbesserung der Infrastruktur. Zu den Maßnahmen auf diesem Gebiet zählen neue Ansätze beispielsweise bei der Überprüfung sicherheitsrelevanter Aspekte schon in der Planung, beim Bau moderner Verkehrsbeeinflussungsanlagen oder bei der Sicherheit an Bahnübergängen und in Tunnels. Ein Fokus liegt jedoch auf der Unfallkommissionsarbeit. Sie ist ein wesentlicher Bestandteil der Gesamtkonzeption zur Verbesserung der Verkehrssicherheit. Das Land Rheinland-Pfalz verfügt seit nunmehr über 35 Jahren über institutionalisierte Erfahrungen auf diesem Gebiet, die auch als Beispiel für die bundesweite Entwicklung dienten. In einem weiteren Schritt werden seit kurzem in einer landesweiten Unfallkonferenz nunmehr Programmschwerpunkte wie beispielsweise die Bekämpfung von Motorradunfällen oder Baumunfällen definiert. Zudem wurden mit einem aufwändigen Programm allen der etwa 400 Unfallkommissionsmitglieder in Rheinland-Pfalz Schulungen angeboten. Eine permanente Nachschulung garantiert dabei einen gleichbleibend hohen Wissensstand. Beispielgebend ist allerdings auch die zentrale Unfallauswertestelle beim Landesbetrieb Mobilität in Koblenz, die es in dieser Form so nur noch in Bayern gibt. Mit ihr steht seit vielen Jahren ein Instrument zur Verfügung, das nicht nur die Grundlagen für gezielte und effektive Verkehrssicherheitsmaßnahmen schafft, sondern auch landesweite Controllings durchführt. Ohne eine finanzielle Ausstattung ist jedoch eine effektive Unfallkommissionsarbeit nicht möglich. Aus diesem Grund wurde als Novum ein spezieller Haushaltsansatz geschaffen, der gezielt ausschließlich im Sinne der Verkehrssicherheit - derzeit mit dem Schwerpunkt Baumunfälle und Motorradsicherheit - eingesetzt wird. Dabei wurde auch in einem Bewertungsverfahren zum Ausbauplan für Landesstraßen die Verkehrssicherheit so gewichtet, dass speziell Unfallhäufungsstellen in die Prioritätenreihung gelangen. Diese Ansätze mit Strategien aus einer Landesunfallkonferenz, gezielter Schulung, finanzieller Ausstattung sowie Unterstützung und Controlling durch eine zentrale Unfallauswertestelle sind zugleich Chance und Herausforderung für eine künftige Verkehrssicherheitsarbeit.
In order to enable foreseeing or comparing the benefit of safety systems or driver assistance systems in Germany, in the United States and in Japan, the traffic accident databases in those three countries are examined. The variables used are culpable party, collision partner, accident type, and injury level and the method to re-classify the databases for comparison are proposed. The result indicates that single passenger car fatality is the most frequent in Germany and in the United States, while passenger car vs. pedestrian is the most frequent fatality scenario in Japan. When the casualty by fatality ratio is focused, the greatest difference is observed in rear-end collisions. The ratio of slight injuries in Japan yields about eighteen times as many as those in Germany, and about eight times as many as those in the United States.
Impact severity is a fundamental measure for all in-depth crash investigation projects. One methodology used in the UK is based on the US Calspan software package CRASH3. The UK- in-depth crash investigation studies routinely use AiDamage3 a software package which is based on an updated version of the original CRASH3 algorithm, including enhancements to the vehicle stiffness coefficients. Real world accident-damaged vehicles are measured and their crush is correlated with a library of stiffness coefficients. These measurements are then used, along with other parameters, to calculate the crash energy and equivalent changes of velocity of the vehicles (delta-v), which is a measure of the impact severity. UK in-depth accident studies routinely validate the crash severity methodologies applied as the vehicle fleet changes. This is achieved by analysing crash test data and using the appropriate residual crush damage and other inputs to AiDamage3 and checking the program- outputs with the known crash severity parameters. This procedure checks, at least in part, the default stiffness values in the data libraries and the reconstruction methods used.
A set of recommendations for pan-European transparent and independent road accident investigations has been developed by the SafetyNet project. The aim of these recommendations is to pave the way for future EU scale accident investigation activities by setting out the necessary steps for establishing safety oriented road accident investigations in Member States. This can be seen as the start of the process for establishing road accident investigations throughout Europe which operate according to a common methodology. The recommendations propose a European Safety Oriented Road Accident Investigation Programme which sets out the procedures that need to be put in place to investigate a sample of every day road accidents. They address four sets of issues; institutional addressing the characteristics of the programme; operational describing the conditions under which data isrncollected; data storage and protection; and reports, countermeasures and the dissemination of data.rn
Nowadays, traffic accidents are recorded in historical databases. Regarding the huge quantity of data, the use of data mining tools is essential to help Experts, for automatically extracting relevant information in order to establish and quantify relations between severity and potential factors of accidents. An innovative approach is here proposed for an in depth investigation of real world accidents data base. Mutual information ratio based on conditional entropies is used to quantity the association strength between an accident outcome descriptor (injury severity) and other potential association factors. Information theoretic methods help to select automatically groups of factors mostly responsible of the severity of accident.
Relevant accident related factors : risk and frequencies of contributing to road traffic accidents
(2009)
In the course of the European Project TRACE (Traffic Accident Causation in Europe) an attempt was made to analyse the cause of road traffic accidents from a factors' point of view. By literature review the most important independent risk factors for traffic accidents were identified to be speed, alcohol intake, male gender, young age, cell phone use, and fatigue. However, the impact of an accident related factor also depends on its prevalence in traffic and accidents, respectively. Available to the Partners in the TRACE Project were different accident databases. Causally contributing factors found by accident investigations that are most often coded in accident databases are connected to unadapted speed and inattention. Taking into account the risk increase and the frequency of contribution to accidents the conclusion can be drawn that the most relevant factors for accident causation are: "alcohol", "speed", and "inattention and distraction".
A lack of representative European accident data to aid the development of safety policy, regulation and technological advancement is a major obstacle in the European Union. Data are needed to assess the performance of road and vehicle safety and is also needed to support the development of further actions by stakeholders. This short-paper describes the process of developing a data collection and analysis system designed to partly fill these gaps. A project team with members from 7 countries was set up to devise appropriate variable lists to collect fatal crash data under the following topic levels: accident, road environment, vehicle, and road user, using retrospective detailed police reports (n=1,300). The typical level of detail recorded was a minimum of 150 variables for each accident. The project will enable multidisciplinary information on the circumstances of fatal crashes to be interpreted to provide information on a range of causal factors and events surrounding the collisions.