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Ausgehend von den in der internationalen Maßnahmendiskussion zur Fahranfängersicherheit genannten Anforderungen an erfolgversprechende Maßnahmenansätze und den zurückliegenden Maßnahmenerfahrungen in Deutschland werden in einem ersten Schritt die zur Erprobung eingeführten Modelle "Begleitetes Fahren ab 17" und "Freiwillige Fortbildungsseminare für Fahranfänger" (Zweite Fahrausbildungsphase) darauf betrachtet, ob sie sich als neue und weiterführende Lösungsansätze empfehlen. In einem zweiten Schritt wird die Betrachtung auf weitere Maßnahmenbereiche ausgedehnt. Dabei werden Entwicklungsperspektiven in der Fahrausbildung, der Fahrerlaubnisprüfung, der Fahrerlaubnis auf Probe, der Sicherheitskommunikation, der Verkehrserziehung sowie der Anwendung computergestützter interaktiver Multimedia-Lernprogramme in der Fahranfängervorbereitung skizziert. Die Ergebnisse münden in Handlungsempfehlungen für die künftige Ausgestaltung der unfallpräventiven Maßnahmensystems für Fahranfänger und junge Fahrer in Deutschland.
In den einführenden Bemerkungen zur Zweiten Internationalen Konferenz "Junge Fahrer und Fahrerinnen", die am 29. und 30. Oktober 2001 stattfand, wird darauf hingewiesen, dass trotz nachhaltiger Verkehrssicherheitsaktivitäten das Unfallrisiko junger Fahrer im letzten Jahrzehnt nicht in zufriedenstellendem Umfang verringert werden konnte. Der Rückgang bei den Unfällen mit Getöteten bewegte sich innerhalb des allgemeinen Trends und war bei den 18- bis 20-jährigen Fahrern nicht mit einer Reduzierung ihres mehrfach höheren Risikos gegenüber älteren Autofahrern verbunden. Die Thematik der Konferenz richtete sich verstärkt auf den Maßnahmenbereich und widmete sich neben der Sicherheitskommunikation insbesondere der Fahreraus- und -weiterbildung, der schulischen Mobilitätserziehung im Zusammenhang mit der motorisierten Verkehrsteilnahme sowie der Verhaltensbeeinflussung nach dem Fahrerlaubniserwerb durch rechtliche Regelungen. Damit umfasste sie das gesamte zur Verfügung stehende Spektrum kommunikativer, edukativer und legislativer Interventionsmöglichkeiten zur Gewährleistung eines sicheren Starts in die Fahrkarriere. In drei Arbeitskreisen wurden die Themenbereiche Verkehrssicherheitskampagnen, Maßnahmen vor dem Fahrerlaubniserwerb sowie Maßnahmen nach dem Fahrerlaubniserwerb behandelt. In einem vierten Arbeitskreis tauschten sich junge Fahranfänger aus mehreren europäischen Ländern über ihre unterschiedlichen Erfahrungen auf dem Weg zum Autofahren aus und leiteten daraus Schlussfolgerungen für zielführende Präventionsansätze ab. Die Beiträge belegen die große Bandbreite innovativer und Erfolg versprechender Maßnahmenansätze, die in Konzeptüberlegungen für die Praxis Berücksichtigung finden sollten.
The presentation deals with the simulation tool rateEFFECT which intends to answer the following questions: Which active safety systems should be developed to maximize safety benefit in real traffic accidents? What is the effectiveness of a specific active safety system in the real world? How many casualties could be avoided by such a system? It is shown that a lot of information is required to simulate existing accidents in order to estimate ADAS effects. This particularly includes numerical values for the pre-crash and in-crash phase. The database GIDAS provides a required minimum number of these parameters for a statistically significant sample.
Per definition, SAE Level 2 (L2) Systems perform both the lateral and longitudinal vehicle motion control with the expectation that the driver completes the Object and Event Detection and Response (OEDR). Since every system performs also parts of the OEDR itself and this amount of OEDR also varies between different L2 systems depending on the intended system design, it cannot be taken for granted that drivers automatically understand their roles and responsibilities in interaction with the system. Especially highly reliable L2 systems performing a greater amount of OEDR while at the same time requiring only little driver input over time can make it difficult for drivers to correctly identify their role and responsibility. Until now, neither application-oriented assessment methods nor design guidelines for OEDR related system design features taking safety of human-machine-interaction into account are available. The objective is therefore to deliver a standardized tool for the assessment of human-machine-interaction-related safety of vehicles with L2 systems currently available on the market. To evaluate the impact of different system design aspects on safety of human-machine-interaction and also to be able to differentiate between system designs, a holistic, standardized and application-oriented assessment procedure is proposed. The novel tablet-based assessment tool focuses not only on available standards and guidelines but measures also concrete user behaviour and user understanding in interaction with the L2 systems. The aim is to gain further insights which cannot be measured directly by simple checklist instruments. For preparation, based on international standards, literature reviews and expert consultations, a first checklistbased expert-evaluation for currently available vehicles with L2 systems was developed. These assessments are focusing on different sources of user information (e.g. user manual), human-machine-interface design as well as the prevention of unintended use by different driver monitoring techniques. The checklist-tool was developed in cooperation with experts of different EuroNCAP test laboratories and validated in a common expert workshop to gain high level of standardization and agreement. However, to assess safety of human-machine-interaction holistically beyond these rather explicit forms of information design criteria, also implicit forms of drivervehicle-communication via vehicle dynamics, functional behavior or reliability play an important role and should be taken into account. Therefore, the main and novel methodological aim is to consider also interaction related processes regarding user´s understanding of roles and responsibilities when applying automated driving functions as well as user´s awareness of automation modes or traffic situations in the modular tablet-based assessment tool.
Bewertung der strukturellen Substanz für die systematische Erhaltungsplanung von Betonfahrbahndecken
(2016)
"Mobilität ist zentrale Voraussetzung für wirtschaftliches Wachstum, Beschäftigung und Teilhabe des Einzelnen am gesellschaftlichen Leben." Dieser Leitsatz des BMVI setzt eine intakte und funktionierende Infrastruktur voraus. Im Kontext mit dem Investitionshochlauf in den nächsten Jahren ist für das Bundesfernstraßennetz insbesondere ein netzbezogenes systematisches Vorgehen im Rahmen der Baulichen Erhaltung von Relevanz. Bei der Planung von Erneuerungsmaßnahmen ist dabei die Kenntnis über den Zustand der strukturellen Substanz und deren langfristige Entwicklung von zentraler Bedeutung. Nachfolgend wird ein Verfahren vorgestellt, das die mechanisch und statistisch abgesicherte Bewertung und Prognose der strukturellen Substanz von Betonfahrbahndecken ermöglicht. Zudem werden die Anwendung und das Vorgehen anhand eines Praxisbeispiels aufgezeigt.
In Germany, expenditure for the construction of new and maintenance of existing federal highways is currently at a record level of EUR 8 billion per year. In connection with the planned infrastructure policy reforms it is necessary to further develop the planning tools for dimensioning and substance assessment of road structures in order to increase the efficiency of construction measures. The stress caused by traffic is of central importance here. Since unevenness in the road surface has a significant influence on the dynamic part of the wheel load, dynamic effects must be explicitly taken into account. As a result, increasing unevenness can lead to higher dynamic loads and, in the context of a corresponding number of wheel rollovers, to disproportionate damage to the road structure. In general, a shock factor is taken into account during dimensioning, which is to be considered as a function of vehicle suspension, load, speed and evenness. This approach is not sufficient for concrete road structures executed as slabs. In the normal case, only the periodically occurring individual event of a transverse contraction joint, superimposed by irreversible and/or temporary slab deformations, can lead to a significant increase in the dynamic wheel load. In addition, the existing slab deformations are tied to many boundary conditions and can therefore vary greatly in their characteristics. For the further development of methods for dimensioning and residual substance assessment with regard to their accuracy, a three-dimensional slab-specific view of the road surface is therefore appropriate. In this paper, a suitable measuring method for three-dimensional surface laser scanning and an algorithm for the classification of slab deformations are presented.
Neben den Herausforderungen der Digitalisierung und den sich daraus ergebenden Chancen im Verkehrssektor, rücken aktuell die Themengebiete Ressourcenknappheit, Klimawandel und Klimaschutz in den Vordergrund. Im Bereich des Straßenbaus sind insbesondere die Kriterien „Produkt- und Prozessqualität“ in Verbindung mit den LZP „Planung und Realisierung“ anzuführen, da in diesen beiden Phasen die Qualität bzw. die Nachhaltigkeit des Straßenoberbaus maßgeblich geprägt wird. In Bezug auf die Nachhaltigkeit kann der Straßenoberfläche faktisch eine Schlüsselrolle zugeschrieben werden. Für die ganzheitliche Bewertung der Qualität im Zusammenhang mit der Nachhaltigkeit von Straßenoberflächen wurde ein vorstellbares Bewertungsmodell entwickelt. Die Performances Griffigkeit, Ebenheit, Geräuschpegel und Rollwiderstand wurden in Anlehnung an das europäische Reifenlabel sowie aufgrund ihrer signifikanten Wirkung auf die fünf Aspekte der Nachhaltigkeit gewählt und daher nahezu gleich gewichtet. Im Bereich des Betonstraßenbaus kann dieses Modell beispielweise dazu dienen, eine ganzheitliche Bewertung von Grindingtexturen vornehmen zu können. So wird derzeit eine Vielzahl verschiedener Texturen der Generation „Texturgrinding“ (Typ S und Typ S+) auf Bundesautobahnen erprobt. Dabei wird primär das Ziel verfolgt, diese zeitnah als alternative Standardtexturen für den Betonstraßenbau einzuführen. Die nachfolgende Generation (Typ A und Typ A+) verfolgt u. a. die gezielte Texturierung für eine performanceorientierte Oberflächengestaltung. In einer nächsten Texturgeneration wäre somit die Herstellung von High Performance Road Surfaces (HPRS) möglich. Das Label besitzt die Aufgabe, den Nutzer beim Kauf über die Kriterien Rollwiderstand, Nasshaftung und Geräuschemission im Zusammenhang mit einer höheren Fahrsicherheit, weniger Umweltverschmutzung und weniger Kraftstoffverbrauch hinreichend zu informieren.
Für die Instandsetzung von schadhaften Betonfahrbahnplatten mittels "Heben und/oder Festlegen" werden in zunehmendem Maße Injektionsmaterialien aus Kunststoff verwendet. Aktuell existieren für die Prüfung und Bewertung derartiger Materialien mittels straßenbauspezifischer Kennwerte jedoch noch keine hinlänglichen Erfahrungen und Prüfvorschriften. In Laborversuchen wurden nunmehr geeignete Prüfungen und Auswertalgorithmen entwickelt und zweckgerichtete Festigkeitskennwerte an ausgesuchten Materialien bestimmt sowie erste Anforderungswerte formuliert. Zudem wurden die Wirksamkeit und die Dauerhaftigkeit von Unterpressungen im Hinblick auf das verwendete Injektionsmaterial in Praxisversuchen überprüft. Aus den Ergebnissen der Tragfähigkeitsmessungen ließ sich vorerst folgern, dass durch das Unterpressen von Fahrbahnplatten die Tragfähigkeits- und Lagerungsbedingungen signifikant verbessert werden können. Unterschiede in der kurzfristigen Wirksamkeit - im Hinblick auf das verwendete Injektionsmaterial - konnten hierbei nicht explizit deduziert werden. Vielmehr zeigte sich, dass die Dauerhaftigkeit maßgeblich von den vorliegenden Randbedingungen, das heisst, faktisch von der richtigen Auswahl des Materials abhängt.
Für die rechnerische Dimensionierung der Betondecken im Oberbau von Verkehrsflächen für den Neubau sowie die Erneuerung nach RDO-Beton 09 ist die statische Spaltzugfestigkeit an der unteren beziehungsweise unteren und oberen Scheibe des Betonzylinders beziehungsweise Bohrkerns entsprechend der Vorgaben der AL Sp-Beton zu bestimmen. Aufgrund der unzureichenden Kenntnis der Präzision dieses Prüfverfahrens wurden mit einem breit aufgestellten Ringversuch die statistischen Kennwerte an Labor- und Bestandsbetonen unter Vergleichs- und Wiederholbedingungen auf der Grundlage des FGSV-Merkblatts über die statistische Auswertung von Prüfergebnissen ermittelt. Für eine möglichst gute statistische Absicherung nahmen an dem Ringversuch dreizehn erfahrene Prüfstellen teil. Zur Abdeckung des vielschichtigen Einsatzes des Prüfverfahrens erfolgte der Ringversuch an acht Prüflosen. Dabei berücksichtigen einerseits die Prüflose 1 und 2 mit den im Transportbetonwerk hergestellten Betonzylindern die Erst-/Eignungsprüfung und das darauf aufbauende Prüflos 3 mit Bohrkernen aus einer im Feldversuch hergestellten Fahrbahnplatte mit gleicher Betonrezeptur die Übereinstimmungskontrolle bei Neubaumaßnahmen. Andererseits findet der Einsatz des Prüfverfahrens bei der Restsubstanzbewertung von Betonfahrbahnplatten bei den Prüflosen 4 bis 7 mit den Bohrkernen aus vier in Waschbetonbauweise ausgeführten Fahrbahnplatten Berücksichtigung. Das zusätzlich aufgenommene Prüflos 8 mit einem Labormörtel dient der Herausarbeitung des Materialeinflusses auf die Präzision der Spaltzugfestigkeitsprüfung. Zusammenfassend kann festgestellt werden, dass die Präzision der in der AL Sp-Beton beschriebenen Spaltzugfestigkeitsprüfung mit einem Variationskoeffizienten von weniger als 10 % unter Wiederhol- und Vergleichsbedingungen hinreichend genau ist. Der geringe Unterschied zwischen den Variationskoeffizienten unter Wiederhol- und Vergleichsbedingungen lässt zusätzlich den Schluss zu, dass der Einfluss des unterschiedlichen Personals und der verschiedenartigen Prüftechniken bei den einzelnen Prüfstellen relativ gering ist. Die im Rahmen des Ringversuchs gewonnenen Erkenntnisse haben bereits partiell Eingang in die Normung gefunden.
Causation of traffic accidents with children from the perspective of all involved participants
(2017)
In the year 2014 about 2,800 children between zero and 14 years got injured due to traffic accidents in Austria. More than 50% were taking part in traffic as active road users like cyclists or pedestrians. Within this study 46 real world traffic accidents between vehicles and children as pedestrians were analysed. In 39 cases, car drivers hit the crossing children. In the other cases, the collision opponents were busses, trucks or motorcycles. Most of the children got hit while crossing a road at urban sites. By analysing the traffic accidents from the perspectives of all involved participants, vehicle drivers and injured children, it is possible to identify factors for each participant, which led to the accident and factors that contributed the accident. The main task is to find patterns in the behaviour of crash victims (children and driver) before the collision. One important fact is that in more than 50% of the analysed cases sight obstructions were an important contributing factor for both, the driver and the child. From drivers view situations in which the child moved unexpected into the driven road lane were often found. For the injured child, factors like: no attention to the road traffic or no sufficient traffic observation were found to be relevant. Further it- possible to sensitise children and adults to possible source of critical traffic situations according to the findings of this study.
The use of proper child restraint systems (CRS) is mandatory for children travelling in cars in most countries of the world. The analysis of the quantity of restrained children shows that more than 90% of the children in Germany are restrained. Looking at the quality of the protection, a large discrepancy between restrained and well protected children can be seen. Two out of three children in Germany are not properly restrained. In addition, considerable difference exists with respect to the technical performance of CRS. For that reason investigations and optimisations on two different topics are necessary: The technical improvement of CRS and the ease of use of CRS. Consideration of the knowledge gained by the comparison of different CRS in crash tests would lead to some improvements of the CRS. But improvement of child safety is not only a technical issue. People should use CRS in the correct way. Misuse and incorrect handling could lead to less safety than correct usage of a poor CRS. For that reason new technical issues are necessary to improve the child safety AND the ease of use. Only the combination of both parts can significantly increase child safety. For the assessment of the safety level of common CRS, frontal and lateral sled tests simulating different severity levels were conducted comparing pairs of CRS which were felt to be good and CRS which were felt to be poor. The safety of some CRS is currently at a high level. All well known products were not damaged in the performed tests. The performance of non-branded CRS was mostly worse than that of the well known products. Although the branded child restraint systems already show a high safety level it is still possible to further improve their technical performance as demonstrated with a baby shell and a harness type CRS.
Die Verkehrssicherheit in Deutschland konnte in den letzten Jahrzehnten durch zahlreiche Verbesserungen sowohl im Bereich der Fahrzeugtechnik, der Fahrausbildung als auch der Straßeninfrastruktur deutlich verbessert werden. Wurden im Jahr 1970 noch über 21.000 Menschen im Straßenverkehr getötet, so waren es im Jahr 2008 weniger als 4.500, und dies, obwohl in diesem Zeitraum eine Verdreifachung der Verkehrsleistung festzustellen ist. Um diese positive Entwicklung auch zukünftig durch Straßeninfrastrukturmaßnahmen zu unterstützen, wurden und werden Verfahren zur Berücksichtigung von Aspekten der Verkehrssicherheit im Zuge der Planung, des Entwurfs und des Betriebs von Straßen entwickelt bzw. weiterentwickelt. Zu nennen ist hier z.B. die Fortschreibung des Verfahrens zur Wirtschaftlichkeitsbewertung, die Einführung des Sicherheitsaudits, die Erarbeitung des Merkblatts für die Durchführung von Verkehrsschauen sowie die Erarbeitung des Handbuches für die Bewertung der Verkehrssicherheit. Analysen des Unfallgeschehens unter Berücksichtigung von Straßeninfrastrukturmerkmalen haben auch wichtige Grundlagen für die im Entwurf vorliegende Richtlinie für die Anlage von Landstraßen beigesteuert. Dass hier Verbesserungen besonders dringlich sind, wird anhand einer Analyse des Unfallgeschehens differenziert nach der Ortslage deutlich. Seit eineinhalb Jahrzehnten liegt der Anteil der auf Landstraßen im Straßenverkehr Getöteten bei mehr als 60%. Dabei sind Maßnahmen zur Reduzierung von Fahrunfällen, wie z.B. die Einhaltung der Radienrelation und eine ausreichende Querneigung, von besonderer Bedeutung, da dieser Unfalltyp einen Anteil von fast 40% am gesamten Unfallgeschehen auf Landstraßen ausmacht. Maßnahmen zur Reduzierung von Unfällen im Längsverkehr, wie z.B. die Wahl von Querschnitten mit verkehrstechnisch gesicherten Überholmöglichkeiten, sind ebenfalls bedeutend, da dieser Unfalltyp einen Anteil von knapp 25% ausmacht. Von Bedeutung für die Verkehrssicherheit auf Landstraßen sind zudem die Gestaltung und die Verkehrsregelung im Bereich von Kreuzungen und Einmündungen. Dort ereignen sich gut ein Viertel aller Unfälle auf Landstraßen. Die Gestaltung von Seitenräumen ist für die Verkehrssicherheit auf Landstraßen ebenfalls von erheblicher Bedeutung. Allein der Anteil der bei Baumunfällen auf Landstraßen Getöteten beträgt fast 30%. Vor diesem Hintergrund wird die Bedeutung von Schutzeinrichtungen dort, wo feste Hindernisse unvermeidbar sind, deutlich. Gerade im Kontext mit Schutzeinrichtungen ist die Verkehrssicherheit für Motorradfahrer relevant. Im Merkblatt für die Verbesserung der Verkehrssicherheit auf Motorradstrecken sind diesbezüglich bewährte Infrastrukturmaßnahmen angeführt.
Institute for Traffic Accident Research and Data Analysis <Tokyo>rnAbstract: Analyses were conducted to clarify the features of rear-end collisions, using an integrated accident database developed by the Institute for Traffic Accident Research and Data Analysis (ITARDA). Focusing on neck injuries in rear-end collisions, analyses were made of the relation to struck-vehicle properties. Regarding the relation to the initial year of registration, the results did not show that newer vehicles tended to have a lower no-neck-injury rate, which was defined in this study as an index. On the contrary, in some passenger car classes, it was observed that the no-neck-injury rate was higher in newer vehicles. The effect of an active head restraint system, which is one type of anti-whiplash device, was analyzed by using not only the no-neck-injury rate but also a regression analysis. The results showed that the effect of an active head restraint system on suppressing the incidence of neck injuries was statistically significant.rn
This study aimed at prediction of long bone fractures and assessment of lower extremity injury mechanisms in real world passenger car to pedestrian collision. For this purpose, two pedestrian accident cases with detail recorded lower limb injuries were reconstructed via combining MBS (Multi-body system) and FE (Finite element) methods. The code of PC Crash was used to determine the boundary conditions before collision, and then MBS models were used to reproduce the pedestrian kinematics and injuries during crash. Furthermore, a validated lower limb FE model was chosen to conduct reconstruction of injuries and prediction of long bone fracture via physical parameters of von Mises stress and bending moment. The injury outcomes from simulations were compared with hospital recorded injury data and the same long bone fracture patterns and positions can be observed. Moreover, the calculated long bone fracture tolerance corresponded to the outcome from cadaver tests. The result shows that FE model is capable to reproduce the dynamic injury process and is an effective tool to predict the risk of long bone fractures.
For the estimation of the benefit and effect of innovative Driver Assistance Systems (DAS) on the collision positions and by association on the accident severity, together with the economic benefit, it becomes necessary to simulate and evaluate a variety of virtual accidents with different start values (e.g. initial speed). Taken into account the effort necessary for a manual reconstruction, only an automated crash computation can be considered for this task. This paper explains the development of an automated crash computation based on GIDAS. The focus will be on the design of the virtual vehicle models, the method of the crash computation as well as exemplary applications of the automated crash computation. For the first time an automated crash computation of passenger car accidents has been realized. Using the automated crash computation different tasks within the field of vehicle safety can be elaborated. This includes, for example, the calculation of specific accident parameters (such as EES or delta-V) for various accident constellations and the estimation of the economic benefit of DAS using IRFs (Injury Risk Functions).
Unfortunately, there has been a high number of accident fatalities reported in the Czech Republic in recent years. There are many causes which have led to a growth in the number of road traffic accidents. Since 1990, traffic density has demonstrated an upward moving tendency, daily traffic-jams are on the increase in many cities and traffic capacity on roads and streets is not able to satisfy this increasing density. Moreover, many road users lack experience in terms of driving modern cars. The National Accident Study of the Czech Republic is based on the assumption that the year 2010 is considered as a pilot project with the testing operation of collecting and evaluating data from traffic accidents. From the beginning of 2011, a fully-functional structure of the Traffic Accident Research will be created and solid data generated. Based on this assumption, we hope to begin meaningful cooperation with foreign countries.
Mobility is a central requirement for economic growth, employment and participation of each individual in social life. This basic principle of the BMVI (Federal Ministry of Transport and Digital Infrastructure) requires an intact and functional infrastructure. In a context of increasing investments over the next few years, it will be relevant to develop a network related systematic procedure to be part of the structural maintenance of the federal highway network. In the planning of maintenance measures, the knowledge about the state of structural performance and its long-term development is of central importance. In the following, a method is presented which allows the mechanically and statistically reliable assessment and prognosis of structural performance of concrete pavements. In addition, the application and procedure are applied to a case study.
Zunehmende Belastungen insbesondere der Bundesstraßen durch Schwerverkehr und Witterungsextreme führen dazu, dass viele Straßenabschnitte vor Ablauf der geplanten Nutzungsdauer erneuert werden müssen. Hinzu kommt die Herausforderung der Beseitigung von Investitionsstaus, das heißt die Erneuerung von Straßenabschnitten, deren substanzieller Zustand durch Überschreiten der geplanten Nutzungsdauer nicht mehr wirtschaftlich ist. Insbesondere bei extremen Witterungsbedingungen zeigen sich unter Umständen die Schwächen der verschiedenen Bauweisen. So kann es bei hohen Temperaturen und Stop-and-go-Verkehr bei Asphaltbauweisen zur erhöhten Spurrinnenbildung oder zur Schädigung der Längsnähte kommen. In der Betonbauweise können unter Umständen Hitzeschäden auftreten, wenn größere Imperfektionen – die direkt aus der Herstellung oder mangelnder/fehlerhafter Erhaltung resultieren – vorliegen. Aufgrund außergewöhnlicher klimatischer Situationen (Hitzeperioden) im Jahr 2013 kam es insbesondere im Bundesland Bayern zu einem vermehrten Auftreten von Hitzeschäden. Deshalb wurde im gleichen Jahr eine „Expertengruppe Hitzeschäden“ gegründet, die aus Vertretern des BMVI, der BASt, der Straßenbauverwaltungen und externer Experten bestand. Ziel war es, die Ursachen und Mechanismen von Hitzeschäden zu eruieren, um geeignete Maßnahmen zu deren Vermeidung ergreifen zu können. In diesem Zusammenhang wurde eine spezielle Messstation entwickelt, um die Temperatur über den Betondeckenquerschnitt, die Fugenbewegungen und weitere relevante Klimadaten ermitteln zu können. In enger Zusammenarbeit mit dem Bund und den Ländern wurden bisher 15 derartige Stationen aufgebaut. Somit besteht die Möglichkeit, in der Praxis auftretende witterungsinduzierte Spannungszustände im Kontext mit den verschiedenen Bauweisen sowie den zunehmend auftretenden Witterungsextrema zu analysieren. Die genaue Kenntnis über den Temperaturverlauf im Betonquerschnitt und zur Fugenbewegung, im zeitlichen und örtlichen Kontext zu den Witterungsbedingungen ist notwendig, um das Spannungsniveau im Deckensystem ableiten und prognostizieren zu können. Zudem ist die Kenntnis über konstruktive und materialtechnische Parameter aus dem zu betrachtenden Straßenoberbau erforderlich. Um Aussagen zur zeitlichen Entwicklung des Verhaltens des Plattensystems im Lebenszyklus treffen zu können, ist die kontinuierliche Erfassung, Speicherung und Analyse relevanter Daten von Bedeutung. Für die temporäre Spannungsprognose (z. B. über den Zeitraum einer Hitzeperiode) ist jedoch eine Analyse der Ausgangsdaten innerhalb weniger Stunden notwendig, um entsprechende Handlungsempfehlungen (z. B. Einrichtung von Tempolimits) treffen zu können. Durch die Verknüpfung mit weiteren Daten können ferner Aussagen zur Entwicklung wichtiger zeitlich veränderlicher Parameter über den Nutzungszeitraum gewonnen werden.
Bus or heavy vehicle passenger accidents are rare events, compared with car accidents, but sometimes leads to a large number of victims especially in rollover crash scenarios. Two accidents occurred in Portugal in 2007 and 2013 in which 28 people died and more than 50 are injured, shown the importance of the investigation of such accidents. For the investigation of these accidents multidisciplinary teams are constituted with engineers and police officers. All the factors involved are taken into consideration including road design, traffic signs, maintenance and hardware, human factors, and vehicle factors. In this work a methodology to an accurate collection of the data is proposed. From the information collected the accident is reconstructed using the PC-CrashTM software. From this all the contribution factors are determined and recommendations to mitigate these crashes are listed. These two accidents are rollover accidents and the analysis of the injuries and its correlation with the use of retention systems is very important. From the medical data and with the dynamics of the accident determined simulations of the occupants with biomechanical models are carried out in order to evaluate the effect of the retention systems in the injuries. This analysis is based on injury criteria (such as Abbreviated Injury Score (AIS) or Injury Severity Scale (ISS)). With this it is possible to determine if the seat belt was worn or not.
At the 2005 ESV conference, the International Harmonisation of Research Activities (IHRA) side impact working group proposed a 4 part draft test procedure, to form the basis of harmonisation of regulation world-wide and to help advances in car occupant protection. This paper presents the work performed by a European Commission 6th framework project, called APROSYS, an further development and evaluation of the proposed procedure from a European perspective. The 4 parts of the proposed procedure are: - A Mobile Deformable Barrier test; - An oblique Pole side impact test; - Interior headform tests; - Side Out of Position (OOP) tests. Full scale test and modelling work to develop the Advanced European Mobile Deformable Barrier (AE-MDB) further is described, resulting in a recommendation to revise the barrier face to include a bumper beam element. An evaluation of oblique and perpendicular pole tests was made from tests and numerical simulations using ES-2 and WorldSID 50th percentile dummies. It was concluded that an oblique pole test is feasible but that a perpendicular test would be preferable for Europe. The interior headform test protocol was evaluated to assess its repeatability and reproducibility and to solve issues such as the head impact angle and limitation zones. Recommendations for updates to the test protocol are made. Out-of-position (OOP) tests applicable for the European situation were performed, which included additional tests with Child Restraint Systems (CRS) which use is mandatory in Europe. It was concluded that the proposed IHRA OOP tests do cover the worst case situations, but the current test protocol is not ready for regulatory use.
Powered Two Wheeler (Motorcycle) crashes are overrepresented in EU, England, and United States casualty statistics for both fatal and serious injuries. While regional geographic differences are evident for motorcycle size, type, and engine displacement, the casualty statistics consistently indicate significantly higher injury rates for all motorcycle riders when compared to car occupants. Accident analysis and reconstruction of these motorcycle crashes is a necessary process to gain further understanding of potential injury mitigation strategies. This paper focuses on the analysis of the rider post impact trajectory in the immediate moments following a crash. The rider and motorcycle, while loosely coupled by seating position leading up to a crash, quickly decouple as the crash forces develop. As a result, the rider moves relative to the motorcycle and relative to the collision partner. This movement, or trajectory, is primarily influenced by the type and configuration of the impact, the type and configuration of the motorcycle and collision partner, and the speeds involved. Understanding the rider's post impact trajectory will assist in the development of injury mitigation strategies. Both the free flight trajectory of the rider and the rider's trajectory as influenced by interaction with the motorcycle and collision partner are examined. Rider trajectories in full scale crash testing and real world motorcycle crashes are both studied and presented. The resulting physical evidence that can be observed by an accident analyst is discussed. The application of projectile motion physics is analyzed and the necessary input parameters, such as initial launch angle, are studied. This study will assist in understanding the post-impact dynamics of a motorcyclist, and will provide useful information to analysts evaluating real world crashes.
This work describes the results of the experimental activity, illustrating the driving behavior observed in different conditions, relating them to the different methods of ADAS intervention and comparing the driver behavior without ADAS. In the present study, driver behavior was studied in road accidents involving elderly pedestrians, with different ADAS HMIs, as a base to develop a driver model in near missing pedestrian accidents. A literature research was conducted with the aim of finding out the main influencing factors, including environment, boundary conditions, configuration of impact, pedestrian and driver information, when pedestrian fatalities occur and an analysis of frequent road accidents was conducted to get more detailed information about the driver- behavior. In order to obtain more detailed information about pedestrian accidents, real road accidents were reconstructed with multibody simulations on PC-Crash and, by the comparison between literature findings and reconstructions, a generic accident scenario was defined. The generic accident scenario was implemented on the full scale dynamic driving simulator in use at the Laboratory for Safety and Traffic Accident Analysis (LaSIS, University of Florence, Italy) in order to analyse the driving behaviors of volunteers, also considering the influence of ADAS devices. Forty-five young volunteers were enrolled for this study, resulting in forty valid tests on different testing scenarios. Two different scenarios consisted in driving with or without ADAS in the vehicle. Different kinds of ADAS, acoustic and optical, with different time of intervention were tested in order to study the different reactions of the driver. The tests showed some interesting differences between driver's behavior when approaching the critical situation. Drivers with ADAS reacted earlier, but more slowly, depending also on the type of alarm, and often with double reaction when braking. In fact, the results of the activity showed that with ADAS intervention the time to collision (TTC) increases, but the reaction time and braking modality change: a) there is a sort of "latency" time between the accelerator pedal release and the brake pressure; b) the brake pressure is initially less intense. So the driver only partially takes advance from the TTC increase. These differences were valued not only qualitatively, but quantitatively as well. This work revealed to be useful to improve the knowledge of drivers" behavior, in order to realize a driver model that can be implemented to help attaining and assessing higher levels of automation through new technology.
Entgegen dem Trend insgesamt sinkender Unfallzahlen bleibt die Zahl der vom statistischen Bundesamt erfassten, folgenschweren Wildunfälle (Unfälle mit Personenschaden sowie schwerwiegende Unfälle mit Sachschaden) auch 2017 mit 3.063 erfassten Fällen auf etwa gleichem Niveau. Die Zahl der Unfälle mit reinem Sachschaden hingegen sowie das Schadensaufkommen steigen jährlich. Den höchsten Wert an Schadensmeldungen verzeichnete der Gesamtverband der Versicherer (GDV) im Jahr 2017 mit 275.000 gemeldeten Wildunfällen. Die Wildunfallprävention erfolgt in Deutschland über den Einsatz von Verkehrszeichen, Wildschutzzäunen, Wildwarnanlagen und Wildwarnern (auditiv, olfaktorisch, visuell). Zur Wirksamkeit der vorgenannten und weiteren Maßnahmen liegen jedoch nur wenige gesicherte Erkenntnisse vor. Dieses Szenario begründet eine vielschichtige und konsolidierte Untersuchungsreihe über die Ursachen von Wildunfällen und Maßnahmen zu deren Vorbeugung, in der folgende Themenbereiche bearbeitet werden: - Deutschlandweite Evaluation und Auswertung von Wildunfallzahlen, - Maßnahmen zur Beeinflussung des Wildes zur Vermeidung von Wildunfällen, - Maßnahmen zur Beeinflussung der Verkehrsteilnehmer zur Vermeidung von Wildunfällen, - Infrastrukturelle Maßnahmen zur Vermeidung von Wildunfällen. Die Erkenntnisse aus den einzelnen Untersuchungen werden mit Abschluss des Forschungsschwerpunktes in einem Leitfaden „Wildunfallprävention“ zusammengefasst. Zum jetzigen Zeitpunkt liegen bereits erste Teilergebnisse vor, die im Rahmen dieses Symposiums veröffentlicht werden können. Der Fokus liegt dabei auf Ergebnissen über die deutschlandweite Zusammenstellung von Wildunfallzahlen der Jahre 2012 bis 2017 sowie auf Resultaten einer Befragung zur Herstellung und Unterhaltung von Wildschutzzäunen. Zusätzlich werden Erkenntnisse zur Wirksamkeit von Wildwarnreflektoren einerseits aus einer lichttechnischen Untersuchung, andererseits aus einem Feldversuch mit 150 Teststrecken (Unfallforschung der Versicherer) präsentiert.
Rear-end collisions are the most frequent same and opposite-direction crashes. Common causes include momentary inattention, inadequate speed or inadequate distance. While most rear-end collisions in urban traffic only result in vehicle damage or slight injuries, rear-end collisions outside built-up areas or on motorways usually cause fatal or serious injuries. Driver assistance systems that detect dangerous situations in the longitudinal vehicle direction are therefore an essential safety plus. In view of this, for ADAC, systems that alert drivers to dangerous situations and initiate autonomous braking complement ESC as one of the most important active safety features in modern vehicles. The aim of ADAC is to provide consumers with technical advice and competent information about the systems available on the market. Reliable comparative tests that are based on standardised test criteria may provide motorists with important information and help them make a buying decision. In addition, they raise consumer awareness of the systems and speed up their market penetration. The assessment must focus on as many aspects of effectiveness as possible and include not only autonomous braking but also collision warning and autonomous brake assist. The work of the ADAC accident research is the development of the testing scenarios with direct link to accident situations and the identification of useful test criteria for testing.
For more than a decade, ADAC accident researchers have analysed road accidents with severe injuries, recording some 20,000 accidents. An important task in accident research is to determine the causative factors of road accidents. Apart from vehicle engineering and human factors, accident research also focuses on infrastructural and environmental aspects. To find out what accident scenarios are the most common in ADAC accident research and what driver assistance systems can prevent them, our first task was to conduct a detailed accident analysis. Using CarMaker, we performed a realistic simulation of accident scenarios, including crashes, with varying parameters. To begin with, we made an initial selection of driver assistance systems in order to determine those with the greatest accident prevention potential. One important finding of this study is that the safety potential of the individual driver assistance systems can actually be examined. It also turned out that active safety offers even much more potential for development and innovation than passive safety. At the same time, testing becomes more demanding, too, as new systems keep entering the market, many of them differing in functional details. ADAC will continue to test all driver assistance systems as realistically as possible so as to be able to provide advice to car buyers. Therefore, it will be essential to develop and improve test conditions and criteria.
Every second counts when human lives are at stake. The increasingly safe design of vehicles presents rescuers with a serious challenge. Faced with high-strength steels and body reinforcements, even the most powerful cutters reach their limits. Therefore, incident commanders require information on the technical features and components installed, directly in the vehicle. Several tests have shown that such information helps to save valuable minutes. Therefore, a standardised A4 "rescue sheet" containing information on the location of cabin reinforcements, the tank, the battery, airbags, gas generators, control units etc. " and indicating adequate cutting points must be used throughout Europe. Hopefully, in a few years, the new eCall emergency call system will be in place everywhere in Europe. The system will transmit the relevant vehicle-specific data directly to the rescuers on-site. Until then, we need a simple and effective solution that saves lives.
The GIDAS-investigation team of Dresden (VUFO) has documented more than 11.500 accidents since 1999. The documentation of the accident includes beside vehicle-, injury- and environmental-data very detailed reconstruction data. Within this accident investigation the VUFO began to record the skid resistance of the accident site in 2009. The measurements are divided in macro- and microroughness (Sand depth method and Portable Skid Resistance Tester-SRT-by Munro-Stanley London-©). Both methods are used to determine the skid resistance for more than 1000 passenger cars. The aim of the present study is to find out a relationship between the measured skid resistance, the road conditions and the friction coefficient, which is used to calculate the maximum accelerations and decelerations during a reconstruction of an accident. Basic approach to convert the SRT-value into the friction coefficient is the calculation of the theoretical absorbed energy of the spring rubber system of the swinging arm of lever. This absorbed energy is used to get the friction coefficient by using the equations for the work of friction. To consider the road-behavior, in correlation to the friction coefficient, the results will be merged with existing literature. Last step for this study will be a comparison between actual used friction coefficients all over the GIDAS-database and the theoretical results. The study shows, if it is possible to use the SRT-Measurement for the estimation of a friction coefficient for the reconstruction of a traffic accident. As expected, the GIDAS-Database and the additional measurement of the roughness of the road directly on the spot are an enormous useful dataset.
The Traffic Accident Research Institute at University of Technology Dresden investigates about 1,000 accidents annually in the area around and in Dresden. These datasets have been summarized and evaluated in the GIDAS (German Accident In-Depth Study) project for 13 years. During the project it became apparent that the specific traffic situation of a covert exit of a passenger car and an intersecting two-wheeler involves a high risk potential. This critical situation develops in a large part due to the lack of visibility between the driver and the intersecting bike. In this paper the accident avoidance potential of front camera systems with lateral field of view, which allows the driver to have an indirect sight into the crossing street area will be presented.
Entgegen populären Meinungen, welche älteren Kraftfahrern ein generelles Gefahrenpotenzial für die allgemeine Verkehrssicherheit zuschreiben, weisen die Unfallstatistiken eher auf eine besondere Gefährdung dieser Gruppe von Verkehrsteilnehmern hin, woraus sich Forderungen nach einer zielgruppenspezifischen Verkehrssicherheitsarbeit begründen. Maßnahmen zur Erhöhung der Verkehrssicherheit sollten sich nicht auf einzelne Ansatzpunkte beziehen, sondern integrativ die Verhaltenspotenziale auf Seiten des älteren Fahrers selbst und auch die Kontextfaktoren der Fahrsituation berücksichtigen. Zudem sollten Verkehrssicherheitsmaßnahmen für ältere Fahrer auf einen möglichst langen, aber auch sicheren Erhalt der Fahrkompetenz zielen und somit einen Beitrag zur individuellen Lebensqualität und gesellschaftlichen Teilhabe leisten. Neben einem stärkeren Einbezug älterer Menschen in die Planung verkehrssicherheitsrelevanter Maßnahmen und damit einer bedarfsgerechteren Gestaltung, sollte dabei auch verstärkt auf die Eigenverantwortung des älteren Fahrers referiert werden. Die Ergebnisse von Forschungsprojekten welche modellhaft Angebote zur freiwilligen Selbstprüfung der Fahrkompetenz unterbreiteten beziehungsweise die Meinung älterer Fahrer zu Angeboten dieser Art erfassten, weisen darauf hin, dass das Interesse innerhalb der Zielgruppe durchaus vorhanden ist. Es scheint angezeigt das Eigeninteresse älterer Kraftfahrer aufzugreifen und das Angebot personenzentrierter Ansätze zur Erhöhung der Verkehrssicherheit, wie beispielsweise freiwillige Überprüfungen der Fahrkompetenz und Schulungen zur Erhaltung der Fahrkompetenz, auszuweiten. Bei der Ausarbeitung verkehrsplanerischer Konzepte sollte zukünftig auch verstärkt den zu erwartenden demographischen Veränderungen der Verkehrsteilnehmer Rechnung getragen werden und durch eine weniger komplexe Gestaltung die Nutzungsbedingungen - nicht nur zugunsten älterer Fahrer - sondern im Sinne eines transgenerationalen Designs für alle Fahrer optimiert werden. Zudem sollte durch eine stärkere Berücksichtigung alternativer Mobilitätsformen zum Auto dazu beigetragen werden, dass wenn tatsächlich die Kompensationsspielräume ausgeschöpft sein sollten, für den älteren Menschen geeignete Mobilitätsalternativen verfügbar sind und der Verzicht auf die Automobilität nicht gleichbedeutend mit einer Aufgabe der Mobilität ist.
Over 3,814 young drivers died in European Countries in 2004. Based on the recent OECD study: "Young drivers: the road to safety" (OECD, 2006), this paper addresses the question of the factors contributing to this high risk, and it draws together the experiences of many countries in reducing this risk. The comparisons across countries show that young driver safety is related to the quality of the traffic system. Safe countries have also safe young drivers, demonstrating that raising general safety levels is beneficial for young novice drivers. The analysis of the developments over time reveals that young males in contrast to young females have not benefited enough from the latest safety measures, indicating the need for a better understanding of the nature of the young male driver accident proneness. Although, recent studies on brain development indicate that youngsters may not be sufficiently physiologically matured to handle complex and dangerous tasks such as car driving, crash patterns indicate that enhanced driving experience may have protective effects. The paper closes with a 9 point policy plan. The full OECD report (258 pages) can be downloaded for free from http://internationaltransportforum.org/Pub/pdf/06YoungDrivers.pdf.
Aim of the study was to evaluate the protective effect of bicycle helmets particularly considering injuries to the head and to the face. Accidents with the participation of bicyclists which occurred from 2000 to 2007 were chosen from GIDAS. We observed that injuries to the head and face were more severe in the group of non-helmeted riders. There seems to be no significant difference in injuries with AIS 3-6. Altogether 26 cyclists were killed. 2 of them wore a helmet (1% of helmeted cyclists), 24 did not (1% of non-helmeted cyclists). Only one killed rider (without helmet) did not suffer from polytrauma (only head injuries recorded). The findings seem to support the thesis of a preventive effect of the bicycle helmet, however the two groups are different in their characteristics related to riding speed. Necessarily we need a multivariate model to evaluate the effect of helmets.
This paper will outline ETSC's contribution to the European Union's road safety policy 2011-2020. It will present some of the main recommendations from ETSC's Blueprint for the 4th Road Safety Action Programme and will introduce the response to the European Commission's Road Safety Policy Orientations 2011-2020 (published July 2010). The second framework document presented is the Transport White Paper (published March 2011). The paper will focus on new targets and the new vision set for Europe's Road Safety policy picking out some issues in particular such as traffic law enforcement and the protection of vulnerable road users. It will argue that by reinforcing the current Road Safety Policy Orientations, the EU will be better placed to reach its new ambitious goal of halving road deaths by 2020 and the longer term zero casualty vision.
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.
Due to recent years accident avoidance and crashworthiness on Austrian roads were mostly developed on national statistics and on-scene investigation respectively. Identification and elimination of black spots were main targets. In fact many fatal accidents do not occur on such black spots and black-spot investigation has reached a limit. New methods are required and therefore the Austrian Road Safety Programme was introduced by the Austrian Ministry of Transport, Innovation and Technology. The primary objective is the reduction of fatalities and severe injuries. Graz University of Technology initiated the project ZEDATU (Zentrale Datenbank tödlicher Unfälle) with the goal to identify similarities in different accident configurations. A matrix was established which categorizes risk and key factors of participating parties. Based on this information countermeasures were worked out.
Looking at the total of sum of fatal car accidents the number of single-vehicle accidents and particularly run-offroad (ROR) accidents are most frequent. In Austria on the Autobahn ROR accidents amounts to almost 45% of all fatal accidents, i.e. nearly every second fatal accident is caused by ROR accidents and interaction with infrastructure. Approximately 43 people were killed on Autobahns in ROR accidents with passenger cars. One possibility of protection against impacts with infrastructure is the use of guardrails. However, the initial element identified as a turned down terminal could become a dangerous impact object. These turned down terminals may lead a vehicle to roll over or the car "takes-off" when impacting the turned down guardrail. In many cases it is reported that the vehicle is jumping into road side objects such as traffic sign poles or overpasses. On average, nine people are killed in such accidents every year in Austria.
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.
The need for improved EU level accident information and data was identified in the EU White Paper on Transport Policy (2001)1 and detailed in the Road Safety Action Plan (2003)2. The plan specifies that the EC will develop a road safety observatory to coordinate data collection within an integrated framework.
This paper uses the national accident statistics of Great Britain to evaluate the effectiveness of Electronic Stability Control Systems (ESC) to reduce crash involvement rates. The crash experience of 8,951 cars is analysed and compared to a closely matching set of non-ESC cars using case-control methods. This is one of the largest ESC samples analysed to date. Overall the cars with ESC are involved in 3% fewer crashes although the effectiveness is substantially higher under conditions of adverse road friction. ESC equipped cars are involved in 15% fewer fatal crashes although this reduction represents the combined effect of ESC and passive safety improvements.
Cycle helmets have continued to increase in popularity since their introduction half a century ago. Many studies indicate that overall, head injury can be significantly reduced by wearing them. This study was conducted using two distinct sets of real-world cycling collision data from Ireland, namely cases involving police collision reports and cases involving admission to a hospital emergency department. The analyses sought to simulate and analyse the protective performance of cycle helmets in such collision scenarios, by comparing the Head Injury Criterion score and peak head accelerations, both linear and angular. Cycle collisions were simulated using the specialised commercial software MADYMO. From the simulation results, these key metrics were compared between the same-scenario helmeted and unhelmeted cyclist models. Results showed that the inclusion of bicycle helmets reduced linear accelerations very significantly, but also increased angular accelerations significantly compared to unhelmeted situations. Given the modest protective performance of cycle helmets against angular accelerations, it is recommended that cycle helmet manufacturers and international test standards need to pay more attention to head angular accelerations.
76 severe traffic accidents had been investigated in depth in an ongoing Volkswagen-Tongji University joint accident research project in JiaDing district, Shanghai, PR China since June 2005. With a methodology similar to German accident research units in Dresden and Hannover, a research team proceeds to the scene immediately after the incident to investigate and collect various data on environment, accident occurrence, vehicle state and deformations as well as injuries. The data combined with the results of accident reconstruction will be stored in a database for further statistical and casuistic analysis. The first outcome of the project supports the hypothesis that a main causation for the large number of traffic accidents in China is the lacking of risk awareness in Chinese driver behaviour. Low seat-belt use and the high proportion of vulnerable and poorly protected two-wheelers in traffic are reasons for the high injury and fatality rate in China. The research work shows that accident research in China is feasible and able to give support to tackle one of the urging problems in Chinese development.
The effect of fatigue on driving has been compared to the effect of alcohol impairment in both driver performance and crash studies. However are crash characteristics and causation mechanisms similar in crashes involving fatigue to those involving alcohol when studied in the real world? This has been explored by examining data held in the EC project SafetyNet Accident Causation Database. Causation data was recorded using the SafetyNet Accident Causation System (SNACS). The focus was on Cars/MPV crashes and drivers assigned the SNACS code Alcohol or Fatigue. The Alcohol group included 44 drivers and the Fatigue group included 47. "Incorrect direction" was a frequently occurring critical event in both the Alcohol and Fatigue groups. The Alcohol group had more contributory factors related to decision making and the Fatigue group had more contributory factors relating to incorrect observations. This analysis does not allow for generalised statements about the significance of the similarities and differences between crashes involving alcohol and fatigue, however the observed differences do suggest that attempts to quantify the effect of fatigue by using levels of alcohol impairment as a benchmark should be done with care.
Event Data Recorder (EDR) is an additional function installed in airbag control module (ACM) to record vehicle and occupant information for a brief period of time before, during, and after a crash event. EDRs are now being installed in ACMs by several automakers in the USA and in Japan. The aim of this study is to understand the performance of EDRs for the improvement of accident reconstruction with more reliable information. In the first report of the study, data obtained from EDRs of seven vehicle types were evaluated using 2006-2007 J-NCAP (Japanese new car assessment program) full-lap frontal barrier crash tests and offset frontal deformable barrier crash tests data. For more practical standpoint, we conducted thirteen crash tests reconstructing typical real-world accidents such as single vehicle accidents with barriers or poles, car to car accidents and multi rear-end collisions focusing on Japanese typical accident types. Data obtained from EDRs are compared with data obtained from optical speed sensor, instrumented accelerometers and high speed video cameras. The velocities determined from pre-crash data of EDRs and the maximum change in velocity, delta-V, and delta-V time history data obtained from post-crash data of EDRs are analyzed. The results are as follows: - Pre-crash velocities of EDRs were very accurate and reliable. An average difference between the EDR recording values and reference speeds was 4.2% and a root mean square of the differences was 9.2%. Only two cases resulted large differences for the pre-crash velocity. Both of them were cases with braking prior to the collision. However, another test with braking resulted less difference. The braking condition may influence accuracy of pre-crash velocities. - Maximum delta-Vs obtained from the EDRs showed uncertainty of measurement in several cases in comparisons with the reliable delta-V data. The differences in maximum delta-V were more than 10% in five of twenty-five events data and more than 20% in two of twenty-five events data. An average of the all differences was about 4% and root mean square of the differences was about 11%. Especially large deformation at narrow area may influence accuracy of post-crash delta-V. - Multiple rear-end crash tests were reconstructed using EDRs data as case studies. Some EDRs recorded two events and a time gap between two events, so that these reconstruction case studies were very accurate and reliable. - If though only one of three vehicles in multiple rear end crash was equipped EDR, overview and velocities of all cars may be reconstructed using these limited EDR data. In this case study, leading car- EDR data and middle car- EDR data were valuable. However if only following car was equipped EDR, the reconstruction was not accurate
The aim of this study was to evaluate the performance and accuracy of Event Data Recorders (EDRs). The analysis was based on J-NCAP crash tests from 2006"2007, with the corresponding EDR datasets. The pre-crash velocity, maximum delta-V and delta-V versus time history data recorded in the EDRs were compared with the reliable crash test data. The difference between the EDR pre-crash velocity and the laboratory test speed was less than 4 percent. In contrast, in several cases the maximum delta-V and delta-V versus time history data obtained from the EDRs showed uncertainty of measurement in comparisons with the reliable delta-V data. The difference in maximum delta-V in these comparisons was more than 5 percent in 10 of 14 tests and more than 10 percent in 4 of 14 tests. The EDRs underestimated the maximum delta-V in almost all tests. It was also concluded that the calculated acceleration from the EDR delta-V versus time history data showed good agreement with the instrumented accelerometer signal during the collision in almost all tests.
Die Reduzierung des Straßenverkehrslärms ist in den letzten Jahren zunehmend in den Fokus der Forschungsaktivitäten gerückt. Laut einer Studie des Umweltbundesamts fühlen sich in Deutschland circa 60 % der Bevölkerung durch den Straßenverkehrslärm belästigt. Diese Zahl ist seit vielen Jahren konstant. Ein Grund dafür sind die steigenden Verkehrsmengen. Neben den bekannten gesundheitlichen Beeinträchtigungen wurden in den letzten Jahren auch zunehmend negative Auswirkungen des Verkehrslärms auf die Stadtentwicklung beobachtet. Die Bundesanstalt für Straßenwesen koordiniert seit über 10 Jahren die durch das Bundesministerium für Wirtschaft und Technologie geförderten Verbundprojekte "Leiser Straßenverkehr". Partner aus Industrie und Forschung verfolgen das gemeinsame Ziel, effektive Lösungen für eine Lärmreduzierung zu erarbeiten. In den letzten Jahren ist es gelungen, die Wirkmechanismen der Lärmentstehung im Zusammenspiel Reifen-Fahrbahn detailliert zu beschreiben und Anforderungen für eine dauerhafte Lärmreduzierung zu formulieren. In der Straßenbautechnik wurden Regelbauweisen lärmtechnisch optimiert und neue Bauweisen entwickelt. Zusammen mit Projektpartnern konnte die Firma Continental Reifen Deutschland GmbH Pkw- und Lkw-Reifen akustisch optimieren. Ein zentrales Ziel im Verbundprojekt Leiser Straßenverkehr 3 ist die Weiterentwicklung eines Simulationsmodells, um künftig unter Berücksichtigung verschiedener Einflussgrößen aus Reifen und Fahrbahn Geräuschprognosen zu ermöglichen.
Die Ergebnisse der vorliegenden Studie zeigen, dass Patienten mit einer unbehandelten Aufmerksamkeitsdefizit/Hyperaktivitätsstörung in verstärktem Maße verkehrsrechtlich auffällig werden und sowohl häufiger Unfälle verursachen als auch Ordnungswidrigkeiten begehen. Die Ergebnisse zeigen weiterhin, dass sich eine medikamentöse Behandlung günstig auf die verkehrsrelevanten Leistungsfunktionen auswirkt und dadurch auch die Grundvoraussetzungen für eine verbesserte Fahrtüchtigkeit und Fahreignung ermöglicht.
Die Ergebnisse der vorliegenden Studie zeigen, dass die Art, wie ein Fahrer mit Belastungen im Straßenverkehr umgeht, in Zusammenhang steht mit seinem Fahrstil und den Fahrfehlern, die er macht. Dabei zeigt sich, dass insbesondere ein konfrontativer Bewältigungsstil die Konfliktneigung im Straßenverkehr erhöht und dass diese Fahrer nicht nur andere belasten, sondern dass dieser Bewältigungsstil auch dazu führt, dass diese Fahrer selbst mehr Stress und Belastungen erleben.
Topics of the status report are: Road accidents in Germany " Socio-economic costs due to road traffic accidents in Germany " Vehicle population and road performance " Electromobility " Alternative power train technologies: market penetration and consequences. The following research subjects are presented: Safety of electric vehicles " Driving dynamics of electric propelled vehicles " New requirements for the periodic technical inspection of electric and hybrid vehicles " Forward looking safety systems " Periodic roadworthiness tests " Cooperative systems: integration of existing systems " Safety related traffic information " Urban space: User oriented assistance systems and network management " Automated driving " Study on camera-monitor-systems " Freight transport " BioRID TEG, dummy harmonization " Frontal impact and compatibility " Child safety " FlexPLI " GIDAS: a blueprint for worldwide in-depth road accident investigations " Druid: Driving under the influence of drugs, alcohol and medicines " Smoke and toxicity in bus fires.
Topics of the status report are: Road accidents in Germany ; Socio-economic costs due to road traffic accidents in Germany , German Road Safety Programme. Finished projects: Turning Assist Systems for Trucks ; Handbook „Accessibility in long-distance bus transport“ ; EU project PROSPECT ; Intersection assistance (Euro NCAP) ; Personal Light Electric Vehicles (PLEV) ; Automatic Emergency Braking for Heavy Goods Vehicles ; KO-HAF ; AFAS ; SENIORS ; Adoption of UN-GTR9-PH2. Ongoing and planned research: Safety potential and testing of reversing assistants for passengers cars (M1) and LGV´s (N1) ; Study on winter tires ; Automatic Emergency Braking for passenger cars ; Motorcyclist-friendly safety barriers ; Active motorcycle safety ; EU-Project PIONEERS ; Friction prediction ; Bus safety: smoke gas toxicity ; HMI aspects on Camera-Monitor-Systems ; Activities with regard to UN R 22 and helmets for S-Pedelecs ; Seriously injured road accident casualties ; UNECE IWG on Deployable Pedestrian Protection Systems (Active bonnets) ; GIDAS – new requirements to address new vehicle technology ; Human Body Modelling ; Child Safety at the UNECE with regard to R 129 ; Development of requirements on automated driving functions for vehicle regulations ; EU-Project L3-Pilot ; Development of evaluation methods for driver interaction with assistance and automation (national research and Euro NCAP) ; EU-Project OSCCAR ; PEGASUS ; Development of basic scenarios for the description of control-relevant requirements for continuous automated vehicle guidance ; EU project HEADSTART ; C-Roads Germany ; Practical Test for the Quality of Congestion-Tail Information ; Research program road safety.
There is a need to continue to set the right vehicle safety policy priorities in the future. Research has to point out the most cost efficient and safety relevant measures to further reduce the number of road traffic casualties. The overall development shows that the constant and rapid decrease in the number of road casualties slows down. New innovations need to enter the vehicle market soon, in order to continue the success achieved in the last decade. Priorities for vehicle safety are driven by safety and mobility demands. It is necessary to keep a strong lid on all aspects of elderly and vulnerable road users. The fraction of powered-two-wheelers (PTW) is a priority group. PTWs have a risk of being involved in an accident, 14times higher than that of a passenger car. However, the figures do also show that every second fatality is a car occupant. Therefore passenger car safety remains to be top priority. Heavy goods vehicles are overly represented in fatal accidents, addressing the need to make these vehicles more compatible with other road users. These facts highlight the necessity not only to increase vehicles" self protection, but also to make cars - and trucks - more compatible and safe. Cycling is a strongly increasing mode of transport. This is a further reason to demand better protection for cyclists and pedestrians from car design and car active and integrated safety systems. Another priority for future vehicle safety is related to demographics. It is less known that the purely demographic effect will be superimposed by an increasing wish of elderly people to be mobile. However, elderly people show deficits concerning their biomechanics. This emphasizes the need for better and more adaptive restraint systems, but also further technological challenges and demands for active safety systems. However, in order to progress, current technological limitations have to be overcome. Cost benefit considerations, but also consumer acceptance and desires, will drive this process.
Enhanced protection of pedestrians and cyclists remains on the focus. Besides infrastructural and behavioral aspects it is necessary to exploit technical solutions placed on motorized vehicles. Accident research needs reliable data as well as national road accident statistics. Changing the view on seriously injured road users is one of the challenges which will substantially contribute to the optimization on future traffic safety. The missing accuracy in the definition of personal injury has a detrimental effect on making cost efficient road safety policy which is not only focused on fatal accidents. The European commission requested that, starting in 2015, all EU member states provide more detailed data on the injury status of road casualties, with special regard to the group of seriously injured. Conventional accident data will always be essential. But to obtain detailed data about driver behavior in real traffic situations further data sources are required. These could be EDR data, data from electronic control units, data from traffic surveys and traffic counting, naturalistic diving studies and field operational tests. Gaining insight into normal as well as critical driver behavior will enable accident researchers to deduct functions estimating the increase or decrease of accident risk associated with certain behaviors or vehicle functions. Also with view to the introduction of highly automated driving functions in the future such data is urgently needed. Computer simulation based tools to estimate the benefits of active safety systems are another step on the way towards the safety assessment of automated driving. It is now the duty of the scientific community to ask the right questions, to develop a methodology and to merge all these data sources into a common framework for the assessment of future traffic safety innovations.