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Eine Expertengruppe der OECD über "Großversuche für den Straßenoberbau" (Pilotland: Schweiz) hat gemeinsame Versuche zur Messung von Dehnungen in bituminös gebundenen Schichten organisiert. Die Versuche fanden im April 1984 auf der Versuchspiste von Nardo (Italien) statt, mit der Teilnahme von 10 Ländern. Alle Teilnehmer haben auf einem speziell gebauten Versuchsoberbau mit Belastung durch Lastwagen ihre eigenen messtechnischen Verfahren und ihre Geräte gebraucht. Die verwendeten Messfühler werden beschrieben und verschiedene Versuchsparameter analysiert (Eigenschaften des Oberbaus, der Belastungsfahrzeuge, Temperaturen, usw.). Beim Vergleich der Ergebnisse wurden auch analytische Methoden angewendet, um aufgrund von Feld- und Laborergebnissen die wahren Dehnungswerte zu schätzen. In Anbetracht der Streuung verschiedener Parameter können die verwendeten Methoden als zuverlässig beurteilt werden. Auf dieser Grundlage kann sich eine weitere internationale Zusammenarbeit entwickeln.
This thesis gives a detailed picture of how planners, politicians, residents and transport engineers in three societies, Britain, Germany and the United States reacted to one of the most powerful inventions of the late nineteenth century, the motor car. Misjudgments of the potential growth of motor vehicle ownership and its adverse effects had serious repercussions in the coming decades, primarily in the dense urban areas. Disturbing has been the underestimation of the importance of public transport as a real alternative to the motor car in urban areas, first by the United States and even several decades later by Britain. Of the three countries, only Germany seems to have struck a better balance. Not surprisingly, already at the beginning of the twentieth century, conflicts occurred between the weaker road participants (pedestrians and cyclists), the existing urban fabric and the motor vehicle. A more comprehensive comparison between Britain and Germany shows that both countries developed specific patterns and had different attitudes towards road transport. Far more has been invested and planned in Germany whereas Britain has shown not so much a lack of foresight in planning but 'in investment in road transport. This major difference has had very visible effects an today's urban structure and transport situation. The demand for restraint of motor traffic had different motives in the two countries, and is not such a new idea as is often assumed. While in Germany even in the 1920s and 30s the protection of historic inheritance was a decisive motive, in Britain that was not the case. Questions of traffic restraint were however raised in connection with road safety and later in the 60s as a means of improving the urban environment. The turning point of nearly unlimited promotion of car use in urban areas took place in Germany during the 60s and 70s, whereas the Buchanan Report had already warned in the early 60s against the adverse effects cars could have in urban areas if they were not controlled. Although even in Britain the report was misunderstood and largely not put into practice, the wave of protest against road building occurred earlier there than in Germany. As a whole, Britain has shown a brillance of ideas in restraining motor vehicles which was lacking in the Federal Republic. At the beginning of the 70s, discussions started seriously in Germany an traffic calming concepts which were slowly transformed into reality, Britain seems to have followed these examples, but with a considerable time lag.
Technische Sicherheitsverbesserungen führen im Mensch-Maschine-System Straßenverkehr nicht zwangsläufig zu Sicherheitsgewinnen. Von den Einstellungen und Verhaltensgewohnheiten der Fahrzeugführer hängt es ab, ob vergrößerte sicherheitspotenziale adäquat genutzt oder durch Verhaltensanpassungen wieder verspielt werden. Anhand ausgewählter theoretischer Modelle und empirischer Forschungsergebnisse (OECD-Studie Behavioural adaptations to changes in the road transport system) wird dies diskutiert, und es werden Kriterien zur Vermeidung unerwünschter Adaptationen abgeleitet, die bereits bei der Planung und Realisierung technischer Verbesserungen Berücksichtigung finden sollten.
A sociological perspective on different strategies of reward in urban traffic law enforcement
(1996)
In order to enhance road safety, it is necessary to make road users change their behaviour. There are two forms of police enforcement: punishment for breaking traffic regulations and rewards for rule-conformist behaviour. Punishment does not appear to produce long term changes. There are two main reward strategies: individual and group dependent rewards. Individuals who are members of a clearly defined group have good prospects of winning prizes in a lottery. The strategy of the delegated group dependent reward is based on a donation to a social institution. Traffic safety is a conflict of interests, and game theory considerations can be applied. Results of German and Dutch studies confirm hypotheses based on the game theory concept. Traffic behaviour mostly depends on expectation of others' behaviour. Successful strategies of reward should always be based on individual settlements of the rewards. More investigations are needed. Strategies of group dependent reward are not recommended. The size of reward and probability of winning it should be linked to rate of participation: the greater the participation, the greater the value of reward and probability of winning it. Every driver has a threshold from which he is prepared to change his traffic behaviour for a reward.
Many big cities in Europe and elsewhere in the world have problems managing the traffic especially during rush hours. The improvement of the parking problematic and environmental protection as well are important aspects for the future traffic design of urban areas. To improve the traffic situation the development of new traffic concepts and alternative vehicles are required. The BMW company has developed a new type of two-wheel vehicle. This two-wheeler constitutes a totally new concept. BMW implemented a lot of safety features, such as a structure made up of rollover bars and a crush element instead of a front protecting plate. Furthermore the driver can secure himself with two safety belts. The paper contains a description of the novel two-wheel vehicle concept designed so far. BMW's concept and the safety features are also explained. The Federal Highway Research Institute (BASt) was given the task of assessing the concept as a whole with regard to the active and passive safety and the exemption of the obligation to wear a helmet. The expertise concluded that the BMW two-wheeler concept has a very high safety standard. Some extracts of the expertise, in particular the investigations concerning the exemption of the obligation to wear a helmet are presented. Common legal requirements for the vehicle registration of vehicle concepts similar to the BMW two-wheeler in Germany have been formulated.
An approach to the standardization of accident and injury registration systems (STAIRS) in Europe
(1998)
STAIRS is a European Commission funded study whose aim is to produce a set of guidelines for a harmonised, crash injury database. The need to evaluate the effectiveness of the forthcoming European Union front and side impact directives has emphasised the need for real world crash injury data-sets that can be representative of the crash population throughout Europe. STAIRS will provide a methodology to achieve this. The ultimate aim of STAIRS is to produce a set of data collection tools which will aid decision making on vehicle crashworthiness as well as providing a means to evaluate the effectiveness of safety regulations. This paper will disseminate the up-to-date findings of the group as they try to harmonise their methods. The stage has been reached where studies into the diverse methods of the UK, French and German systems of crash injury investigation have been undertaken. An assessment has already been made of the relationships between the three current systems in order to define the areas of agreement and divergence. The conclusions reached stated that there were many areas that are already closely related and that the differences were only at the detailed level. With the emphasis on secondary safety and injury causation, core data sets were decided upon, taking into account: vehicle description, collision configuration, structural response of vehicles, restraint and airbag performance, child restraint performance, Euro NCAP, pedestrian and vehicle occupant kinematics, injury description and causation. Each variable was studied objectively, the important elements isolated and developed into a form that all partners were agreeable on. A glossary of terms is being developed as the project progresses which includes ISO standards and other definitions from the associated CAREPLUS project, which addresses the comparability of national data sets. A major consideration of the group was the data collection method to be employed. The strengths and weaknesses of each study were investigated to obtain a clear idea of which aspects offered the best way forward. The quality of this information and transference into a common format, as well as the necessary error checking systems to be employed have just been completed and are described. In tandem with this area of study the problem of the statistical relationship of each sample to the national population is also being investigated. The study proposes a mechanism to use a sample of crash injury data to represent the national and international crash injury problem
A means of assessing the passive safety of automobiles is a desirable instrument for legislative bodies, the automobile industry, and the consumer. As opposed to the dominating motor vehicle assessment criteria, such as engine power, spaciousness, aerodynamics and consumption, there are no clear and generally accepted criteria for assessing the passive safety of cars. The proposed method of assessment combines the results of experimental safety tests, carried out according to existing legally prescribed or currently discussed testing conditions, and a biomechanical validation of the loading values determined in the test. This evaluation is carried out with the aid of risk functions which are specified for individual parts of the body by correlating the results of accident analysis with those obtained by computer simulation. The degree of conformance to the respective protection criterion thus deduced is then weighted with factors which take into account the frequency of occurrence and the severity of the accident on the basis of resulting costs. Each of the test series includes at least two frontal and one lateral crash test against a deformable barrier. The computer-aided analysis and evaluation of the simulation results enables a vehicle-specific overall safety index as well as partial and individual safety values to be determined and plotted graphically. The passive safety provided by the respective vehicle under test can be defined for specific seating positions, special types of accident, or for individual endangered parts of the body.
Side-impact safety of passenger cars is assessed in Europe in a full-scale test using a moving barrier. The front of this barrier is deformable and represents the stiffness of an 'average' car. The EU Directive 96/27/EC on side impact protection has adopted the EEVC Side Impact Test Procedure, including the original performance specification for the barrier face when impacting a flat dynamometric rigid wall. The requirements of the deformable barrier face, as laid down in the Directive, are related to geometrical characteristics, deformation characteristics and energy dissipation figures. Due to these limited requirements, many variations are possible in designing a deformable barrier face. As a result, several barrier face designs are in the market. However, research institutes and car manufacturers report significant difference in test results when using these different devices. It appears that the present approval test is not able to distinguish between the different designs that may perform differently when they impact real vehicles. Therefore, EEVC Working Group 13 has developed a number of tests to evaluate the different designs. In these tests the barrier faces are loaded and deformed in a specific and/or more representative way. Barrier faces of different design have been evaluated. In the paper the set-up and the reasoning behind the tests is presented. Results showing specific differences in performance are demonstrated.
This paper provides an overview of the research work of the European Enhanced Vehicle-safety Committee (EEVC) in the field of crash compatibility between passenger cars. Since July 1997 the EC Commission is partly funding the research work of EEVC. The running period of this project will be two years. The progress of five working packages of this research project is presented: Literature review, Accident analysis, Structural survey of cars, Crash testing, and Mathematical modelling. According to the planned time schedule the progress of research work is different for the five working packages.