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For the determination of the road surface roughness common methods have been established, like Skid Resistance Tester (SRT) or the Sideway-force Coefficient Routine Investigation Machine (SCRIM). Both methods are used to measure a comparable and reliable maximum friction potential value and to assess the quality of the road surface. However, the comparison of the measurements under real conditions and the results of measurements with SRT and SCRIM showed only minor correlations. The paper shows the comparison between these standardised methods and real vehicle braking tests and discusses the results.
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.
In recent years the boundaries between active and passive safety blurred more and more. Passive safety in the traditional term includes all safety aspects to prevent occupants to be injured or at least injury severity should be reduced. Passive Safety starts with the collision (first vehicle contact) and ends with rescue (open vehicle doors). Within this phase the occupant has to be protected by the passenger compartment whereby no intrusion should occur. Active safety on the other side was developed to interact prior to the collision whereby the goal is to prevent accidents. The extensive interaction between active and passive safety led to the terminologies "Primary" and "Secondary" safety whereas the expression Integrated Safety Concept was generated. Within this study the most well documented single vehicle accidents with cars not equipped with ESP were identified from the PENDANT database and reconstructed. Additional cases were found in the database ZEDATU of TU Graz. In comparison each case was simulated with the assumption that the cars were equipped with ESP. The differences regarding accident avoidance or crash severity as well as reduction of injury risk were analysed.
Accidents involving two wheels vehicles represent one of the more important types of accidents in Europe. These accidents are usually not easy to reconstruct specially for the analysis of the injuries and its correlation with accident dynamics and evidences. Different methodologies are applied in this work for the reconstruction of two wheeler accidents, especially accident involving motorcycles. From the typologies of road evidences like skid marks, to the use of Pc-Crash and the use of Madymo models, different reconstruction of real accidents are presented. One of the questions that sometimes arise for legal purposes when some type of head injuries arise is if the occupant was wearing or not a helmet. The correlation of head injuries with the use of the helmet is a very important issue, therefore an important legal aspect. One of the key questions for the reconstructions that is difficult to analyze, is if the vehicle occupant, was or not, wearing the helmet. Based on the previously collected information, a generic model of a helmet was developed on CAD 3D, followed by its conversion into finite elements, all in order to perform impact tests using the Madymo software that would help improve the helmet- safety, but that also can be used as a tool in accident reconstruction.
Because of actual developments and the continuous increase in the field of drive assistant systems, representative and detailed investigations of accident databases are necessary. This lecture describes the possibility to estimate the potential of primary and secondary safety measures by means of a computerized case by case analysis. Single primary or secondary safety measures as well as a combination of both are presented. The method is exemplarily shown for the primary safety measure "Brake Assist" in pedestrian accidents. Regarding accident prevention only the primary safety measure is determined.
The current paper reports on the results of a pilot study aiming to investigate the effect of mobile telephone use on the driving performance of 5 amateur and 5 professional drivers. Their driving acuity was tested through a driving simulator. Analysis and interpretation of the results occurred comparing the drivers' driving performance while talking, reading messages and writing a message on the mobile phone (intervention time) with the drivers' driving performance engaged in no activity (control time). The variables affected by the mobile phone were the "steering", the "lane offset" and the "duration of lane offset". Moreover, the drivers involved in a car crash in the last five years appeared to differ from those who were not involved in a crash in both "lane offset" and "following distance". The results of this pilot study will inform the design of a large experimental study on 50 professional and 50 amateur drivers.
Active safety systems are aimed at accident prevention, hence the knowledge required for their development is different from that required for passive safety systems aimed at injury prevention. Particularly, knowledge about accident causation is required. When looking at existing accident causation data, it is argued it fails to explain in sufficient detail how and why the accidents occur. Therefore, there is a need for detailed micro-level descriptions of accident causation mechanisms, and also of methodologies suitable for creating such descriptions. One study addressing these needs is the Swedish project FICA (Factors Influencing the Causation of Accidents and Incidents), where an accident investigation methodology suitable for active safety is developed, and in-depth accident investigations following this methodology are carried out on-scene in the area of Gothenburg by a multidisciplinary team. A preliminary aggregated analysis of different cases shows that the methodology developed is adequate for pointing out common contributing factors and devising principal countermeasures.
Since a number of human models have been developed it appears sensible to use these models also in the accident analysis. Especially the understanding of injury mechanisms and probably even injury risk curves can be significantly improved when interesting accidents are reconstructed using human body models. However, an important limitation for utilising human models for accident reconstruction is the effort needed to develop detailed FE models of the accident partners or to prepare the human model reconstruction by running physical accident reconstructions. The proposed approach for using human models for accident reconstruction is to use simplified and parametric car models. These models can be adapted to the crash opponents in a fast and cost effective way. Although, accuracy is less compared to detailed FE models, the relevant change in velocity can be simulated well, indicating that the computation of a detailed crash pulse is not needed. Two frontal impact test accidents that were reconstructed experimentally and using the parametric car models are indicating sufficient correlation of the adapted parametric car models with the full scale crash reconstructions. However, further developments of the parametric models to be capable for the use in lateral impacts and rear impacts are needed. For the PC Crash simulation runs the output sampling rate is too large to allow sufficient analysis. In addition the performance appears to be too general.
The price of a new car increased almost every year for a long period. In recent years however, the budget available to most people for purchasing a car either did not grow or became even smaller. Therefore it was in the interest of some OEMs to offer economical car models in the so-called "8,000- Euro class". Here an important question arose regarding the safety of these vehicles. There is no question that the very high safety level of cars reached in Europe during the last decades should not be sacrificed as a consequence of smaller budgets. Customers with sense of responsibility have the right to be properly informed about the balance between safety and price so that they can make a deliberate decision when buying either a new or a used car. Against this background, the German magazine "AutoBILD" commissioned DEKRA to conduct fullscale frontal crash tests with a view to publishing the results. These tests have been carried out in accordance with the corresponding Euro NCAP crash test requirements and performance criteria. The tested vehicles were two new Logans produced by the manufacturer Dacia, two used cars of the type VW Golf IV (registration date 2000) and one new VW Fox. This paper describes the safety features of the vehicles and the results of the five crash tests to demonstrate state-of-the-art safety levels and what levels may be expected from vehicles in the "8,000- Euro class". Looking at real-world crashes it is of interest to think about future trends in a more detailed manner. Therefore it will be more and more necessary to supplement the federal statistics with more detailed in-depth information about the consequences of accidents and the safety performance of crashed vehicles.
The incidence of side impacts was investigated from GIDAS data. Both vehicle-fixed object and vehicle-vehicle collisions were analysed as these are enclosed within the consumer testing program. Vehicle-fixed object collisions were stratified according to ESC availability. Results indicated that vehicles equipped with ESC rarely have pure-lateral impacts. An increase in oblique collisions was seen for the vehicles with ESC whereby most vehicle were driving in left curves. The analysis of vehicle-vehicle collisions developed injury risk curves were developed at the AIS3+ injury severity for the vehicle-vehicle side impacts. Results suggested that greatest injury risk occurred when a Pre Euro NCAP vehicle was struck by a Post Euro-NCAP vehicle. The remaining curves did not show different behaviour, indicating that stiffness increased have been equally combated. This was attributable to the few Post Euro-NCAP vehicles that had a deployed curtain airbag available in the sample. The integration of Euro NCAP testing has shown to improve vehicle crashworthiness for pole collisions, as those vehicles with ESC rarely incur lateral impacts.
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.
Within the COST Action TU1101 the working group WG 1 is dealing with acceptance criteria and problems in helmet use while bicycling concerning conspicuity, thermal stress, ventilation deficits and other potential confounding. To analyze the helmet usage practice of bicyclists in Europe a questionnaire was developed in the scope of working group 1 to collect relevant information by means of a field study. The questionnaire consists of some 66 questions covering the fields of personal data of the cyclist, riding und helmet usage habits, information concerning the helmet model and the sensation of the helmet, as well as information on previous bicycle accidents. A second complementary study is conducted to analyze if the use of a bicycle helmet influences the seating geometry and the posture of cyclists when riding a bicycle and if the if the helmet vertically limits the vision. For this purpose cyclists with and without helmets were photographed in real world situations and relevant geometrical values such as the decline of the torso, the head posture of the upper vertical vision limit due to the helmet were established from the photos. The interim results of the field studies which were conducted in Germany by the Hannover Medical School are presented in this study. Some 227 questionnaires were filled out, of which 67 participants had used a helmet and 42 of the 227 participants have had a bicycle accident before. For the analysis of the riding position and posture of the cyclist over 40 pictures of riders with a helmet and over 240 pictures of riders without a helmet were measured concerning the seating geometry to describe the influence of using a bicycle helmet. Some results in summary: From the riders interviewed with the questionnaire only 11% of the city bike riders and 12% of the mountain bike riders always used the helmet, while 38% of the racing bike riders and 88% of the e-bike-riders always used the helmet. The helmet use seems not to change the sensation of safety of cycling compared to the use of a car. The arguments for not wearing a helmet are mostly stated to be the short distance of a trip, high temperatures or carelessness and waste of time. The reasons for using a helmet are stated to be the feeling of safety and being used to using a helmet. Being a role model for others was also stated to be a reason for helmet use. Concerning the sensation of the helmet 9% of the riders reported problems with the field of vision when using a helmet, 57% saw the problem of sweating too much, and 10% reported headaches or other unpleasant symptoms like pressure on the forehead when using the helmet. The analysis of the seating posture from the pictures taken of cyclists revealed that older cyclists generally have a riding position where the handle bar is higher than the seat (0-° to 10-° incline from seat to handlebar), while younger riders had a higher variance (between -10-° decline and 20-° incline). Further, elderly riders and riders with helmets seem to have a more upright position of the upper body when cycling. The vertical vision limit due to the helmet is determined by the front rim of the helmet (mostly the sun shade). Typical values here range from 0-° (horizontal line from the eye to the sun shade) to 75-° upwards, in which elderly riders tend to have a slightly higher vertical vision limit possibly due to the helmet being worn more towards the face.
Das Unfallrisiko junger Fahrer - Bestandsaufnahme und Überlegungen zu wirksamen Gegenmaßnahmen
(2010)
Junge Fahrer - vor allem männlichen Geschlechts - haben ein überdurchschnittlich hohes Unfallrisiko. Der Straßenverkehrsunfall ist Todesursache Nummer eins für Jugendliche. Sie haben unter der Bevölkerung den größten Anteil an verlorenen Lebensjahren. Besonders gefährdet sind Motorradfahrer. An Wochenenden und nachts ist die Unfallwahrscheinlichkeit und -häufigkeit extrem. Auch in Ländern, die hohe Anstrengungen unternehmen, um die Sicherheit im Straßenverkehr zu erhöhen und insgesamt erfolgreich sind, zeigt sich, dass die 18- bis 24-Jährigen häufiger verunfallen als die übrigen Verkehrsteilnehmer und schwerere Folgen davontragen. Die jugendliche Persönlichkeit hat einen prädominanten Einfluss auf das Fahrverhalten. Hintergründe dafür sind die hohe Risikobereitschaft, das Spannungs- und Reizbedürfnis, der Wunsch, Grenzen auszuloten sowie Gruppeneinflüsse oder Renommierverhalten. Daneben spielt allerdings auch die geringe Erfahrung eine Rolle, die zu dreierlei Problemen führen kann: - Neulenker sehen oft die Gefahr nicht, in welcher sie sich befinden, oder - sie unterschätzen die wahrgenommene Gefahr,oder - sie ueberschätzen ihre Fahrkunst und glauben, die Gefahr meistern zu können. In den letzten Jahren wurden in verschiedenen Ländern jedoch auch Fortschritte erzielt. Empfehlenswerte Maßnahmen ergeben sich bei der Ausbildung, wo neue Methoden angewandt werden, eine zweite Phase eingeführt wurde, spezielle Kampagnen konzipiert werden oder fahrzeugtechnische Modifikationen veranlasst wurden. Auch die Nachschulung für junge Lenker, wo nötig, zeitigt Wirkung. Weitere Anstrengungen sind je nach Land oder Region notwendig, insbesondere hinsichtlich der Hauptursachen für schwere Unfälle: Geschwindigkeit, Alkohol und Nicht-Anlegen des Sicherheitsgurtes. Hier lassen sich besondere Maßnahmen für Neulenker vorsehen. Daneben müssen gesellschaftliche Einflüsse, etwa die Wirkung der Automobilwerbung und -berichterstattung auf Jugendliche, berücksichtigt werden.
Aus der Zusammenschau der gegenwärtigen Studienliteratur sowie den Ergebnissen der vorliegenden Untersuchung lässt sich ableiten, dass die Fahrtüchtigkeit eines unter Reboxetin oder Mirtazapin zum Teil remittierten Patienten als günstiger einzuschätzen ist als die eines unbehandelten depressiven Patienten. Die Bewertung eines Antidepressivums kann, wie die vorliegenden Ergebnisse zeigen, nicht vorrangig auf Basis der sedierenden Eigenschaften eines Präparats vorgenommen werden. Die experimentellen Daten belegen, dass neben der Verordnungsdauer und den damit zu erwartenden Adaptationsmechanismen auch der Einnahmezeitpunkt entscheidend bei der Bewertung der Substanz in Bezug auf die Verkehrssicherheit ist. Die vorliegenden Ergebnisse haben darüber hinaus wichtige Implikationen für die Einschätzung des Risikopotenzials neuerer selektiver Antidepressiva im Rahmen gesetzlicher Verordnungen. Bei der Bewertung des Gefährdungspotenzials dieser Substanzgruppe scheinen weit weniger die pharmakologischen Effekte als vielmehr morbogene Faktoren zu berücksichtigen zu sein. Die meisten der derzeit erhältlichen Antidepressiva sind weitgehend vergleichbar in Bezug auf ihre therapeutische Effektivität, sodass bei der Auswahl der Medikamente in erster Linie das Nebenwirkungsprofil ausschlaggebend ist.
Es besteht Einigkeit darüber, dass Blutalkoholkonzentrationen (BAK) ab 0,30 Promille experimentell nachweisbare Beeinträchtigungen der Fahrtüchtigkeit hervorrufen. Die vorliegende Arbeit soll fundierte Aussagen über das Ausmaß und die Qualität kognitiver Veränderungen bei niedrigen BAK (um 0,30 Promille) ermöglichen. Es wurden in einer doppelblinden, placebokontrollierten Studie 16 gesunde männliche Probanden untersucht. Die BAK wurden während der Versuche auf etwa 0,30 Promille eingestellt. Es wurden mittels umfangreicher neuropsychologischer Tests untersucht: das allgemeine Intelligenzniveau, subjektive Beeinträchtigungen, mögliche depressive Symptome, die allgemeine Leistungsfähigkeit, die Vigilanz, die geteilte Aufmerksamkeit, die Reaktionszeit und die Gedächtnisleistungen. Die biostatistische Auswertung erfolgte im 2-Perioden-Crossover-Design. Zusammenfassend zeigen die vorliegenden Ergebnisse, dass bereits bei BAK von etwa 0,30 Promille vor allem kognitive Funktionen, die insbesondere auf die Wahrnehmung und die Verarbeitung visueller Informationen angewiesen sind, vor allem je komplexer und zeitkritischer eine Aufgabe wird, wie etwa die Beherrschung einer kritischen Situation im Straßenverkehr, relevant beeinträchtigt sind.
Zum besseren Verständnis der Hirnleistungsanforderungen an das Autofahren wird ein Theorie-Modell erörtert, das aus folgenden drei Stufen in einer Hierarchie besteht: Die oberste Ebene ist die strategische Ebene, die mittlere die taktische und die untere die operationale Ebene. Bezogen auf den Straßenverkehr gehört zu den Entscheidungen auf strategischer Ebene beispielsweise die Überlegung, ob man überhaupt das Auto nehmen muss oder nicht. Hierzu gehört auch die Überlegung, ob man sich grundsätzlich an Geschwindigkeitsbegrenzungen halten will. Charakteristisch für strategische Entscheigungen ist, dass sie prinzipiell getroffen werden, bevor sie in konkretes Handeln umgesetzt werden. Bei den taktischen Entscheidungen geht es ausschließlich um eigenes initiatives Handeln aus der Person selbst heraus ohne äußeren Zwang oder Veranlassung (beispielsweise Überholmanöver, Abbiegen). Zu den operationalen Entscheidungen gehört jedes Reagieren auf äußere Erfordernisse (Beachten von Ampeln und sonstigen Verkehrszeichen, erzwungene Lenk- oder Bremsmanöver). Die meisten neuropsychologischen Untersuchungen beziehungsweise Tests prüfen die operationale Entscheidungsebene. Für die beiden höheren Ebenen ist eine Beurteilung nur möglich, wenn eine entsprechende Beurteilungsgrundlage vorhanden ist oder herangezogen werden kann (zum Beispiel eine praktische Fahrprobe). Die geistigen Fähigkeiten eines Menschen lassen sich ebenfalls in eine dreistufige Hierarchie gliedern: Die unterste Ebene umfasst Hirnleistungen wie Wahrnehmung, Aufmerksamkeit, Sprache, Denken und anderes mehr. Die mittlere Ebene wird konstituiert durch Ziele-Auswahl, Vorplanung, Antizipation als geistige Vorwegnahme der Handlungskonsequenz. Die höchste Hirnfunktion ist die objektive selbstreferenzielle Bewertung, die sich auf Vergangenheit, Gegenwart und Zukunft erstrecken kann.
The need of passive safety devices, able to reduce the accidents and the severity of injuries suffered by motorcyclist, distinctly arises from data on accident statistics. In this paper, the effectiveness of an airbag device fitted in the biker- garments has been verified through various numerical simulations. Two simple test conditions were defined, in order to investigate the performance of the device both for back and front impacts, and simulated at various impact speeds. With the aim of providing more information about the actual capability of the airbag to reduce the severity of the injuries, one of accident scenario described by ISO 13232:2005 has been also investigated, checking the real effectiveness of the airbag strap-based firing system too. Confrontation of injury indexes resulting from simulation with and without airbag made possible a realistic evaluation of the harm reduction induced by the airbag presence.
Detailed investigations and reconstructions of real accidents involving vulnerable road users
(2005)
The aim of this research is to improve knowledge about vulnerable road users accidents and more specifically pedestrians or cyclists. This work has been based on a complete analysis of real accidents. From accidents chosen from an in-depth multidisciplinary investigation (psychology, technical, medical), we have tried to identify the configuration of the impact: car speed, pedestrian or cyclist orientations. Then, we have made a numerical modelling of the same configuration with a multibody software. In particular, we have reproduced the anthropometry of the victim and the front shape of the car. A first simulation has been performed on this starting configuration. Next, effects of some parameters such as car velocity or victim position at impact have been numerically studied in order to find the best correlations with all indications produced by the in-depth analysis. Finally, the retained configuration was close to the presumed real accident conditions because it reproduces in particular the same impact points on the car, the same injuries, and is according to the driver statement. This double approach associating an in-depth accident analysis and a numerical simulation has been applied on pedestrian-to-car and bicyclist-tocar accidents. It has allowed us to better understand the real kinematics of such impacts. Even if this method is based on a case to case study, it underlines which parameters are relevant on a vulnerable road user accident investigation and reconstruction.
The Powered Two Wheelers (PTWs) accidents constitute one of the road safety targets in Europe. PTWs users' fatalities represent 15% of EU road fatalities, having increased the last few years, which is quite opposite than other road users casualties. To reduce PTW accidents is necessary to know which the accident causations are from different points of view (human factor, vehicle characteristics, environment, type of accident, situation, etc.). In TRACE project ("Traffic Accident Causation in Europe", under the European Commission 6th Framework Program, 2006-2008,) a specific task was focused on PTW users point of view, analyzing extensive databases to locate the main accident configurations (type of accident, severity, frequency), and an in-depth database to obtain the causation factors, the risk factors for each configuration founded in the extensive databases analysis and the variables associated to each causation factor in the PTW configurations.