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For the avoidance of traffic accidents by means of advanced driver assistance systems the knowledge of failures and deficiencies a few seconds before the crash is of increasing importance. This information e.g. is collected in the German accident survey GIDAS by an interview derived from the ACAS methodology. However to display the whole range of accident causation factors additional information is needed on enduring factors of the system components "human", "infrastructure" and "machine". On the strategic level these accident moderating factors include long term influences such as medical preconditions or a general higher risk taking behavior as well as influences on the immediate conflict level such as an aggressive response to a perceived previous traffic conflict. This study was conducted to examine the feasibility of collecting such causation information in the scope of an in-depth accident investigation like GIDAS. Due to the comprehensive amount of information necessary to estimate the moderating factors the collection of the information is distributed to different methods. 5 cases of real world crashes have been investigated where information was collected on-scene and retrospective by interviews. The identified moderating factors of the accidents and the method for collecting the information are displayed.
Motorcycle crashes in Austria: Analysis of causes and contributing factors based on in-depth data
(2017)
From CEDATU, the in-depth accident database run by the Vehicle Safety Institute at Graz University of Technology, a representative sample of 101 crashes involving at least one motorcycle was selected. The analysis focused on causes for crashes as well as on contributing factors, but also included parameters of road, riders and vehicles. Own riding speed and "unexpectable action by another road user" were the most frequent causes for accidents. Inappropriate safety distance or delayed reaction were frequent, both as causation factors and as contributing factors. Infrastructure issues never cause an accident, but they are very frequent as contributing factors; road geometry and road guidance are by far most frequent among these. This paper also discusses accidents by type and other parameters (e.g. injury severity by body region, collision speed, age and others), and compares accident causes to previous studies as well as the police reported accident statistics.
Driver distraction
(2017)
This report for the Institute of Advanced Motorists (IAM) summarises recent research and knowledge from scientific studies about distracted driving. The report defines what it means to be "distracted" when driving, discusses the impact of distraction on driver behaviour and safety, and what can be done to reduce distracted driving. The focus of distraction discussed here relates to how drivers engage with technology when driving. The report begins with a background to driver distraction, followed by discussion about what is actually meant by driver distraction. It is then considered why humans cannot successfully do two things at the same time, particularly within the context of driving. The subsequent section summarises the scientific research findings to date with regard to driver distraction and technology, and how this affects different types of road user. Recommendations for how driver distraction can be mitigated in the real world and a summary conclude the report. Responses to common questions raised by drivers are presented in Appendix A.
From an automotive safety occupant protection standpoint, effective occupant restraint requires a system capable of providing non-injurious occupant ride down of anticipated crash forces. This is not only the case for frontal collisions, where occupant restraint is provided primarily by seatbelts and airbags, but is also critical for other crash modes such as side impacts, rear impacts, rollovers, as well as multiple impact events. In the rear impact crash mode, occupant restraint is provided primarily by the seatbacks and to some extent the seatbelts. Foundationally, therefore, what becomes fundamental to the seatback's role in rear occupant protection is its ability to contain the occupant within the seat, preventing occupant ramping, as well as preventing the seat's, and/or its occupant's, dangerous intrusion into the rear occupant's survival space where contact with rear compartment components and/ or rear seated occupants can present a significant injury risk. An analysis is presented of a series of rear impact sled testing conducted by the authors that evaluates the timing, position and extent of the front seatback's reward displacement toward and into the rear occupant compartment as well as consideration of the front seat occupant' ramping potential and its injury potential relative to the rear compartment. Additionally, three other series of testing are presented which assess various seat designs occupant retention capabilities. Lastly, a matched-pair comparison test series is presented which evaluates occupant motion in rear impact with and without use of a typical vehicle body mounted 3-point seatbelt. Discussion of restraint system performance observed in all the testing is included along with ATD biofidelity and thigh-gap considerations. The data collected and presented includes accelerometer instrumentation and high speed video analysis.
This study investigates the protection offered by passive head-restraints with different stiffness and energy dissipation properties. For this purpose, computational multi-body models of a generic car seat and a biofidelic 50thpercentile male human for rear impact are used to study different seat designs and passive head-restraints. The validated seat-occupant model is also used in the design of two different car-seat models which are shown to effectively mitigate whiplash by utilising a crash-energy distribution technique. Five different passive head-restraints with varying stiffness (low-medium-high) and energy dissipation percentages (low-high) are successively attached to four different car-seat models. The simulation results indicate that the protection offered by head restraints is strongly dependent on the seat design. It has also been shown that the stiffness of the passive head-restraint has much more influence on whiplash-risk in comparison to its energy dissipation capacity.
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.
Recently, EuroNCAP updated the upper legform test protocols. The main objective of this study is to establish the upper legform test in KIDAS (Korean In-depth Accident Study) taking into account domestic pedestrian accident data as well as anthropometric data to protect elderly pedestrians whose average height and weight is much smaller and lighter than other age groups, especially compared to Europeans. Therefore 230 cases of pedestrian accidents from KIDAS were investigated to explore the injury severity of body regions as well as age related injury patterns. Injuries of all body regions were examined, with a special focus on injuries of abdomen and pelvic area. On the other hand, in order to explore Korea's pedestrian accident environment, national police data and KIDAS (Korean In-depth Accident Study) data were compared. The results should be taken into account in future analyses and possible improvements, such as regulations and KNCAP test protocols, of the pedestrian safety policy in Korea.
At IAM RoadSmart we share the excitement about autonomous cars " who wouldn't! However over half of the drivers we polled supported concentrating on making drivers safer " among IAM RoadSmart members it was 70%. Driverless cars are still years away but delivering safer drivers can help reduce death and injury from tomorrow. Governments, academics and car makers need to work hard to convince sceptical British and American drivers that autonomous cars can deliver the benefits promised such as a 90% plus reduction in road deaths.
The Decision Support System (DSS) is one of the key objectives of the European co-funded research project SafetyCube in order to better support evidence-based policy making. Results will be assembled in the form of a DSS that will present for each suggested road safety measure: details of risk factor tackled, measure, best estimate of casualty reduction effectiveness, cost-benefit evaluation and analytic background. The development of the DSS presents a great potential to further support decision making at local, regional, national and international level, aiming to fill in the current gap of comparable measures effectiveness evaluation. In order to provide policy-makers and industry with comprehensive and well-structured information about measures, it is essential that a systems approach is used to ensure the links between risk factors and all relevant safety measures are made fully visible. The DSS is intended to become a major source of information for industry, policy-makers and the wider road safety community.
Der vorliegende Innovationsbericht beschreibt die Forschungs- und Entwicklungsschwerpunkte der TÜV | DEKRA arge tp 21 im Hinblick auf das Fahrerlaubnisprüfungssystem für den Zeitraum 2011 - 2014. Diese lagen (1) in der Aufbereitung wissenschaftlicher Grundlagen zur Vermittlung und Erfassung von Kompetenzen im Bereich der Verkehrswahrnehmung und Gefahrenvermeidung bei Fahranfängern, (2) in der Evaluation und Weiterentwicklung der Theoretischen Fahrerlaubnisprüfung und (3) in Forschungs- und Entwicklungsarbeiten zur Optimierung der Praktischen Fahrerlaubnisprüfung sowie (4) in der Beschreibung des fahrzeugtechnischen Wandels und seiner Bedeutung für die Fahrausbildung und Fahrerlaubnisprüfung. Zu (1): Kompetenzdefizite von Fahranfängern gegenüber erfahrenen Fahrern in der Verkehrswahrnehmung und Gefahrenvermeidung sind durch eine Vielzahl empirischer Studien belegt. Die systematische Vermittlung und Aneignung entsprechender Fähigkeiten im Vorfeld der selbständigen Verkehrsteilnahme erscheint deshalb vielversprechend für die Verringerung fahranfängertypischer Unfallrisiken. Der Entwicklung diesbezüglicher Ausbildungs- und Prüfungskonzepte muss jedoch zunächst eine Beschreibung der zugrunde liegenden psychologischen Konstrukte vorausgehen. Im Berichtszeitraum wurden dazu die relevanten wahrnehmungs- und verkehrspsychologischen Grundlagen aufgearbeitet. Weiterhin wurden die international im Fahrerlaubniswesen bereits praktizierten innovativen PC-basierten Prüfungsansätze wie auch experimentelle Untersuchungen aus der "Hazard Perception"-Forschung analysiert. Schließlich wurden Lehr-Lernangebote für Fahranfänger recherchiert. Mit den im Bericht vorgelegten Ergebnissen wurde der theoretische Grundstein für die künftige Verankerung der Verkehrswahrnehmung und Gefahrenvermeidung in der Fahranfängervorbereitung gelegt. Hieran wird nun die Erarbeitung innovativer Lernangebote und Prüfungsaufgaben für Fahranfänger anschließen. Zu (2): Die Arbeiten zur Theoretischen Fahrerlaubnisprüfung umfassten die Evaluation von Prüfungsaufgaben und Paralleltests sowie auch weiterführende empirische Untersuchungen zur Bearbeitung anlassbezogener Fragestellungen (u. a. Modellrechnungen zur Erarbeitung von empirisch gestützten Empfehlungen für eine optimierte Prüfungsbewertung). Weiterhin wurden 2014, d. h. zum Ende des Berichtszeitraums, erstmals Aufgaben mit dynamischen Situationsdarstellungen eingesetzt. Die vorbereitenden Forschungs- und Entwicklungsarbeiten werden im Bericht überblicksartig dargestellt. Nicht zuletzt werden erste Ergebnisse der empirischen Erprobung innovativer Aufgabenformate diskutiert, bei denen neuartige Formen der Antworteingabe (Tastendruck, Pedal) und der Leistungsbewertung (Reaktionszeit) verwendet wurden. Die skizzierten Forschungsarbeiten lassen erkennen, dass seit einigen Jahren die Vorteile des Prüfmediums "Computer" erfolgreich genutzt werden. Sie zeigen jedoch auch, dass die PC-gestützte Prüfung weitere Potentiale " insbesondere im Bereich der Aufgabenentwicklung und Testkonstruktion " birgt, die es zukünftig auszuschöpfen gilt. Zu (3): Die Arbeiten zur Praktischen Fahrerlaubnisprüfung waren im Wesentlichen durch drei verbundene Projekte gekennzeichnet: Das BASt-Projekt "Optimierung der Praktischen Fahrerlaubnisprüfung" diente der Erarbeitung methodischer Grundlagen (es begann 2008 und endete im ersten Jahr des Berichtszeitraumes). Als zweites folgte eine von der TÜV | DEKRA arge tp 21 durchgeführte Machbarkeitsstudie (2011 bis 2012) zur Untersuchung der Praktikabilität einer elektronischen Prüfungsdokumentation ("e-Prüfprotokoll"). Das BASt-Projekt "Revision zu einer optimierten Praktischen Fahrerlaubnisprüfung" stellt schließlich das dritte Projekt dar (es begann im Jahr 2013 und wird über den Berichtszeitraum hinaus bis 2015 fortgeführt). Es dient dazu, die Inhalte, Verfahren und Abläufe der Prüfung (einschließlich Verfahrensweisen zu einer kontinuierlichen Evaluation) bis hin zur Einsatzreife weiterzuentwickeln und in ausgewählten Modellregionen zu erproben. Mit einer bundesweiten Implementierung der erarbeiteten Standards würde gewährleistet, dass die Entscheidung über die Zulassung zum motorisierten Straßenverkehr künftig auf einer differenzierten Fahrkompetenzeinschätzung basiert und festgestellte Kompetenzdefizite systematisch erfasst und zurückgemeldet werden " dies lässt eine verbesserte Sicherheitswirksamkeit der Praktischen Fahrerlaubnisprüfung erwarten. Zu (4): Fahrzeugtechnische Innovationen " seien es Fahrerassistenzsysteme, Antriebskonzepte ("e-Mobilität") oder das (teil-)automatisierte Fahren " kommen in immer kürzeren Abständen auf den Markt. Diese Entwicklungen sind mit veränderten Anforderungen an das Fahren verbunden und haben daher maßgeblichen Einfluss auf den Erwerb, die Überpruefung und den Erhalt von Fahrkompetenz. Im Bericht werden die daraus resultierenden zukünftigen Aufgabenstellungen für die Technischen Prüfstellen skizziert.