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The first stage of the work has been to collate information on bridge assessment from the participating countries. In the later stages, the aim is to provide guidelines that reflect the current best practices, a methodology that will allow for future development and sufficient flexibility to accommodate variations in national priorities as the process of harmonisation is pursued. The following tasks fall within the scope of the project: (1) a review of current procedures and standards used for bridge assessment in Europe; (2) the development of models for taking into account the bridge specific traffic conditions and material properties; (3) the use of reliability methods based on a probabilistic approach for bridge assessment including the use of measurements for updating the reliability of structural elements; and (4) the provision of recommendations for methods and procedures that can be adopted for the assessment module of the management framework highlighting where further development will be beneficial.
This paper deals with the determination of test criteria for the durability assessment of polyvinyl chloride (PVC)-based geosynthetic barriers (GBR-P) products in tunnel sealing systems. In the project different products for road tunnel application are investigated by systematic long time storage in hot water using a new test procedure based on SIA V 280 standard (test no. 13) and EN 14415. The objective of this research project is to derive suitable exposure conditions and criteria for a practical testing procedure with regard to service lifetimes of up to 100 years. For that test temperature and time as well as the best suitable test medium have been investigated in a structured way. To verify the results of the new test procedure the material properties of GBR-P samples removed from older road tunnels are investigated. Based on the presented results of the still on-going research program some preliminary conclusions regarding the updating of the German regulations for road tunnel sealing systems (ZTV-ING part 5 section 5 and TL/TP KDB) are given.
Tunnel in Spritzbetonbauweise werden in der Regel mit einem Abdichtungssystem aus Kunststoffdichtungsbahnen (KDB) gegen das anstehende Bergwasser abgedichtet. Die Tunnelabdichtungen aus KDB müssen dabei über die gesamte Nutzungsdauer des Bauwerks von in der Regel 130 Jahren zuverlässig ihre Funktion erfüllen. Ein einfacher Austausch der KDB oder der Einbau einer gleichwertigen Alternative ist in der Regel nicht, oder nur mit erheblichem Aufwand möglich. Bislang existieren national und international keine abgesicherten Prüfkriterien, die eine Bestimmung der Langzeitbeständigkeit von KDB über die geforderte Nutzungsdauer von mindestens 100 Jahren ermöglichen. Im vorliegenden Beitrag werden Untersuchungsergebnisse eines BASt Forschungsprojektes präsentiert, in dem Prüfkriterien für die Abschätzung der Langzeitbeständigkeit von KDB aus PVC-P hergeleitet werden. In diesem Projekt werden verschiedene marktübliche KDB für die Tunnelabdichtung mit einem beschleunigten Prüfverfahren "Lagerung in heißem Wasser" systematisch auf ihr Alterungsverhalten hin untersucht. Das hierfür verwendete Immersionsprüfverfahren wurde neu entwickelt und basiert auf der SIA V 280 (Prüfung Nr. 13) und DIN EN 14415. Ziel der Untersuchungen ist es, die erforderlichen Prüfkriterien zu definieren, die für eine praxisgerechte Abschätzung der Nutzungsdauer von mindestens 100 Jahren erforderlich sind. Hierfür werden beispielsweise die Einlagerungsdauer, die Einlagerungstemperatur und das Prüfmedium strukturiert untersucht. Zum Vergleich der Prüfergebnisse aus dem Immersionsprüfverfahren werden Untersuchungen an ausgebauten KDB Proben aus 2 älteren Straßentunneln herangezogen. Die Ergebnisse des Forschungsvorhabens sollen in die Fortschreibung des nationalen Regelwerks für den Straßentunnelbau (TL/TP KDB) einfließen.
Improving the security of critical road infrastructure is a major task for owners and operators of tunnels and bridges in the European TEN-T Network (Trans-European Networks of Transport) (European Parliament and Council 1996). Up to now, there has not been a systematic procedure for identifying and assessing critical infrastructure objects and selecting appropriate protection measures. The EC FP7 project SeRoN for the first time presents an innovative methodology in order to support road owners and operators in handling this complex task. This paper describes the methodology and project results in detail by giving an introduction into its practical application.
Die Klinik für Frührehabilitation und Geriatrie, Westküstenklinikum Heide ist Bestandteil eines Kooperationsnetzwerks und wirkt am Erhalt der Mobilität und Autonomie älterer Verkehrsteilnehmer im Landkreis Dithmarschen mit. Die Zusammenarbeit mit Seniorenbeiräten, Landesverkehrswacht, Fachdiensten, Polizei-Dienststellen, Ärzten und Psychologen sowie Fahrlehrern ermöglicht eine breite Datenerfassung zum Thema ältere Kraftfahrer, insbesondere zu ihrem Unfallgeschehen.
In einer Stichprobe von 75-jährigen Autofahrern, die in der geriatrischen Tagesklinik der Klinik für Frührehabilitation und Geriatrie rehabilitiert wurden, fanden sich relativ häufig kognitive Beeinträchtigungen, die auf das Vorliegen einer beginnenden Demenz zurückgeführt werden konnten. Darüber hinaus bestanden Störungen des Dämmerungssehens und der Sehschärfe. Auch wurde Multimorbidität diagnostiziert. Bei einer großen Gruppe (46 %) dieser Patienten war zu Behandlungsbeginn die Fahreignung nicht gegeben, und nur 29 % der Untersuchten konnte eine uneingeschränkte Fahreignung attestiert werden. Gezielte rehabilitative Interventionen trugen dazu bei, dass im Behandlungsverlauf die Fahreignung zumindest eingeschränkt wieder erreicht werden konnte.
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.
Since 2008, the authors inspected fatal traffic accidents on the spot every year, with the cooperation of Toyota police station in Aichi pref. In the jurisdiction, numbers of fatal accidents were 18 in 2008, 12 in 2009, 14 accidents in 2010, and 16 in 2011. We here report the results of our analysis of information obtained by detailed inspection for those that occurred from 2008 to 2010. We focused on vehicle-to-pedestrian accidents, which accounted for about 45% of all accidents in 2008. Because many accidents occurred on residential roads not far from pedestrians" homes, it was revealed that the decrease of the collision speed by traffic calming such as humps and zone speed management, was highly effective. On the other hand, pedestrian detection technologies seemed to be also effective as a countermeasure on vehicle side. Every pedestrian position against a vehicle was clarified and TTC (Time to Collision) was calculated provisionally. Pedestrian accidents in intersections were also examined. Among the intersection pedestrian accidents within the jurisdiction, compared with the national average in Japan, the ratio of intersections without a signal and the ratio without a pedestrian crossing were high. According to the comparison of the Japanese traffic accident patterns between 2001 and 2008, pedestrian accidents during turning right and turning left did not decrease much. For elderly drivers, these accidents occurred very often. Finally, single vehicle accidents were analysed with the accident pattern analysis methods used above. There were high numbers of single vehicle accidents against object on single roads. Although fatal accidents against guardrails decreased, the numbers of fatal accidents against a utility pole and a sign pole were nearly constant. As for the impact with narrow width objects such as utility poles, the fatality rate was very high, and countermeasures of both road infrastructure and vehicles seem to be effective.
This study aimed at comparing head Wrap Around Distance (WAD) of Vulnerable Road User (VRU) obtained from the German in-depth Accident Database (GIDAS), the China in-depth Accident Database (CIDAS) and the Japanese in-depth Accident Database (ITARDA micro). Cumulative distribution of WAD of pedestrian and cyclist were obtained for each database (AIS2+) showing that WAD of cyclists were larger than the ones of pedestrians. Comparing three regions, the 50%tile WAD of GIDAS was larger than that of both Asian accident databases. Using linear regression that might predict WAD of pedestrians and cyclists from Impact speed and VRU height, WADs were calculated to be 206cm/219cm (Pedestrian/Cyclist) for GIDAS, 170cm/192cm for CIDAS and 211cm/235cm for ITARDA. In addition, this study may be helpful for reconsideration of WAD measurement alignment between accident reconstruction and test procedures.
The fact that ADAC Air Rescue handles approximately 4,000 road accident missions every year gave rise to set up an accident research programme for which ADAC Air Rescue provides its data. This data is of initial informational quality and will be supplemented by data from the police, experts, fire brigades as well as hospitals and forensic institutes. Although the number of cases is still rather low, certain tendencies can be identified. The causes for most accidents occur when joining or intersecting traffic, followed by speeding in road bends and tailgating. Many accidents involve HGV rear end collisions, often causing serious injuries, considerable damage and technical problems for the rescue operations. With regard to the various impact types, it has become obvious that most of the extremely serious injuries are inflicted during a passenger car side impact. In addition, access to and removal of trapped passengers is becoming more and more complicated, partly due to the increasing use of high-strength materials, and rescue operations tend to be more time consuming.
Verschiedene Maßnahmen zur Verbesserung der Luftqualität in Städten waren bisher bei der Verminderung von Stickoxiden nur bedingt erfolgreich. Interessant ist, ob der Einsatz der Photokatalyse hier weiterhelfen kann. Photokatalytische Anwendungen wurden schon in einigen Pilotstudien untersucht, zum Beispiel an Straßen beziehungsweise Modell-Canyons sowie in Tunneln. Teilweise wurden international sehr positive Ergebnisse erzielt, geichzeitig liegen aus anderen internationalen Projekten Ergebnisse unterhalb der Messgenauigkeit vor. Die vorgestellten Ergebnisse werden anhand verschiedener Variablen betrachtet und die erwartbare Atmosphärenrelevanz diskutiert. Zusammengefasst wird, dass basierend auf bekannten Feldmessungen für die Photokatalyse eine mittlere NOx-Reduktion von nur wenigen Prozent (in Hauptstraßenschluchten) zu erwarten ist. Dieses Potenzial muss mit anderen Maßnahmen verglichen werden (Kosten/Nutzenanalyse). Materialien müssen vor ihrem Einsatz in der Atmosphäre sorgfältig auf ihre Aktivität untersucht werden. Erfüllen die Oberflächen die Voraussetzungen, um als aktiv eingestuft zu werden, ist ihr Einsatz zur Luftreinhaltung klar zu empfehlen.
Im Oktober 2007 wurde die Rügenbrücke, eine der längsten Hochbrücken Europas, für den Verkehr freigegeben. Der Beitrag befasst sich mit den Erfahrungen, die bei Planung und Bau dieses bemerkenswerten Bauwerks gemacht wurden, insbesondere hinsichtlich der vielen bautechnischen Innovationen bei dem Schlüsselbauwerk des Brückenzuges, der 570 m langen Schrägseilbrücke über den Ziegelgraben. Eine der wesentlichen Erstanwendungen für Deutschland betraf die Ausführung der Schrägseile mit Litzenbündeln des Systems DYNA Grip der SUSPA DSI. Wegen des aus Gründen des Vogelschutzes erforderlichen Mindestdurchmessers der Seile von 12 cm waren vollverschlossene Seile aus ingenieurtechnischen und wirtschaftlichen Gründen benachteiligt, sodass sich der Bauherr für Seile aus Litzenbuendeln entschied. Die Schrägseilbrücke über den Ziegelgraben wird schon jetzt als modernes Wahrzeichen der Stadt Stralsund empfunden. Sie passt sich gestalterisch hervorragend in die Umgebung ein und beeinträchtigt auch nicht die zum Weltkulturerbe zählende Altstadt von Stralsund. Besonders besticht das Bauwerk durch seine Leichtigkeit und die Einpassung der Formen der Bauteile, zum Beispiel wegen der tropfenfoermigen Gestaltung des Pylons und der Pfeiler, in das maritime Umfeld. Da die verwendeten Schrägseil-Litzenbündel noch nicht allgemein bauaufsichtlich zugelassen sind, kam der Qualitätssicherung für die Seile in allen Stufen der Planung, Fertigung, Montage und Bauwerksprüfung eine herausragende Bedeutung zu. Der zugehörige Qualitätssicherungsplan wird im Bericht ausführlich mit den wesentlichen \"schrägseilspezifischen\" Maßnahmen beschrieben. Schwingungen und Ermüdungsbeanspruchungen der Seile durch Fahrverkehr und Wind liessen sich durch einen mehrstufigen, kontinuierlich verdichteten Planungsprozess unter Nutzung von Versuchsdaten und Messungen am Bauwerk wirkungsvoll beherrschen. Aus Sicht der Bauwerksprüfung bestanden anfänglich Bedenken wegen der Erreichbarkeit der bis in 80 m Höhe über dem Brückendeck gespannten Schrägseile und der nicht direkt zugänglichen Litzen innerhalb des Hüllrohres sowie der Verankerungen. Daher wurden alle verfügbaren Prüfverfahren für Schrägseile an der Rügenbrücke getestet. Daraus ergab sich eine Prüfmatrix aus Prüfverfahren, Prüfmittel und Prüfumfang für die gesamte Nutzungsdauer. Zusammenfassend wird festgestellt, dass bei der Ziegelgrabenbrücke Schrägseile aus Litzenbündeln eine den vollverschlossenen Seilen ebenbürtige Bauart darstellen.
Various kinds of demerit point systems have been developed and implemented in European countries, aimed at tackling repeat offences in road transport by acting as a deterrent and providing sanctioning. The impact of a demerit point system on the number of crashes is often reported to be significant, but temporary. The objective of the EU BestPoint project was to establish a set of recommended practices that would result in a more effective and sustainable contribution of demerit point systems to road safety. A high actual chance of losing the licence and a high perceived chance of losing the licence are basic prerequisites for the effective operation of demerit point systems. For measures applied within the context of a demerit point system, a four-step-approach is recommended: warning letter, driver improvement course, licence withdrawal, rehabilitation course. Further recommendations concern issues like points and offences, e.g. which offences should lead to points, target groups, and the administration of demerit point systems. The final result of the EU BestPoint project is a handbook (van Schagen & Machata, 2012) which provides a concise overview of all recommended practices. The presentation/paper outlines how sustainable safety improvements can be achieved if national demerit point systems are implemented and maintained according to the recommended practices. In addition, potential further steps towards an EU-wide demerit point system (cross-border exchange on points and/or offences) are presented.
The European Union has set a target to reduce all road fatalities (over 40,000) with 50% in 2010. This target percentage remained unchanged with the introduction of the ten new member states within the EU as by May 1st, 2004. According to Eurostat, 34% of all fatalities in 1998 in the, then, fifteen states of the European Union were the result of single vehicle collisions. This represents over 14,000 lives lost each year of which many can likely be saved through better roadside infrastructure design. The challenge for road safety professionals is to find methods and design strategies that help to reduce these casualties. Procedures for full-scale vehicle crash testing of guard rails were first published in the US in 1962. Present European regulation is mainly based on these procedures and later developments. Since then the vehicle fleet has changed considerably. Due to the complexity of the actual safety problem the numerical simulation approach offers a good opportunity to evaluate the different parameters involved in road safety, such as infrastructure properties, vehicle type, vehicle occupants and injuries. The ideal situation would be that simulation tools are coupled or integrated and all involved effects would be related. At the moment this is not the case yet, but initiatives are taken and a new virtual era has started. This paper offers a method looking at two components that encompass the driving environment: the car and the guardrail. As part of the EC-funded project, RISER (Roadside Infrastructure for Safer European Roads) a multi body simulation program study is carried out to determine sensitivities of some parameters in car to guardrail collisions and gives insides in performance of the car with passive safety equipment, the guardrail and the interaction of these objects with each other. By offering a set of methods that includes these two aspects and their intertwining relations, more confidence can be gained in actually reducing fatalities due to single vehicle collisions with, or due to, roadside furniture. Reducing the number of fatalities of single vehicle crashes would contribute greatly to the stated goal of reducing casualties altogether.
The incidence and treatment of sternal fractures among traffic accidents are of increasing importance to ensure best possible outcomes. Analysis of technical indicators of the collision, preclinical and clinical data of patients with sterna fractures from 1985-2004 among 42,055 injured patients were assessed by an Accident Research Unit. Two time groups were categorized: 1985-1994 (A) vs. 1995-2004 (B). 267/42,055 patients (0.64%) suffered a sterna fracture. Regarding the vehicle type, the majority occurred after car accidents in 0.81% (251/31,183 pts), followed by 0.19% (5/2,633pts) driving motorbike, and 0.11% (4/3,258pts) driving a truck. 91% wore a safety belt. Only 13% of all passengers suffering a sternal fracture had an airbag on board (33/255 car/trucks), with an airbag malfunction in 18%. The steering column was deformed in 39%, the steering wheel in 36%. Cars in the recent years were significantly older (7.67-±5 years (B) vs. 5.88-±5 years (A), p=0.003). Cervical spine injuries are frequent (23% vs. 22%), followed by multiple rib fractures (14% vs. 12%) and lung injuries (12% vs. 11%). We found 9/146 (6%) and 3/121 patients (3%) with heart contusion among the 267 sternal fractures. MAIS was 2.56-±1.3 vs. 2.62-±1.3 (A vs. B, p=0.349). 18% of patients were polytraumatized, with 11.2% dying at the scene, 2.3% in the hospital. Sternal fractures occur most often in old cars to seat-belted drivers often without any airbag. Severe multiple rib fractures and lung contusion are concomitant injuries in more than 10% each indicating the severity of the crash. Over a twentyyear period, the injury severity encountered was not different with 18% polytrauma patients suffering sternal fractures.
Unter bestimmten Voraussetzungen sind im Zuge der quantitativen Sicherheitsbewertung von Straßentunneln Risikoanalysen durchzuführen. Neben objekt-, verkehrs- oder ereignisspezifischen Parametern gibt es auch etliche Eingangsparameter, die fest im Risikomodell hinterlegt sind und deren Variation für gewöhnlich nicht vorgesehen ist. Dies trifft auch für Parameter des menschlichen Verhaltens zu. Im Zuge von Versuchsreihen zum Flucht- und Reaktionsverhalten der Verkehrsteilnehmer im Ereignisfall in Straßentunneln wurden verschiedene Verhaltensparameter ermittelt und analysiert, die den konventionellen Modell-Basisparametern erstmals im Österreichischen Tunnelrisikomodell (TuRisMo) gegenübergestellt werden. Als Ergebnis kann auf Basis der aktuell gewonnenen Verhaltensparameter eine Senkung des Gesamtrisikos aufgezeigt werden, dessen Einordnung im folgenden Beitrag diskutiert wird.
The advent of active safety systems calls for the development of appropriate testing methods. These methods aim to assess the effectivity of active safety systems based on criteria such as their capability to avoid accidents or lower impact speeds and thus mitigate the injury severity. For prospective effectivity studies, simulation becomes an important tool that needs valid models not only to simulate driving dynamics and safety systems, but also to resolve the collision mechanics. This paper presents an impact model which is based on solving momentum conservation equations and uses it in an effectivity study of a generic collision mitigation system in reconstructed real accidents at junctions. The model assumes an infinitely short crash duration and computes output parameters such as post-crash velocities, delta-v, force directions, etc. and is applicable for all impact collision configurations such as oblique, excentric collisions. Requiring only very little computational effort, the model is especially useful for effectivity studies where large numbers of simulations are necessary. Validation of the model is done by comparison with results from the widely used reconstruction software PC-Crash. Vehicles involved in the accidents are virtually equipped with a collision mitigation system for junctions using the software X-RATE, and the simulations (referred to as system simulations) are started sufficiently early before the collision occurred. In order to assess the effectivity, the real accident (referred to as baseline) is compared with the system simulations by computing the reduction of the impact speeds and delta-v.
Accident research 2.0: New methods for representative evaluation of integral safety in traffic
(2013)
BMW has developed a procedure for rating Advanced Driver Assistance Systems (ADAS) benefits that integrates two distinct tools. The tool "S.A.F.E.R." is designed to analyze the pre-crash phase. The aim of S.A.F.E.R. is to simulate all relevant processes in sufficient detail to obtain reproducible estimates of key indicators (effectiveness, false positives, etc.). The relevant processes include not only traffic and vehicle dynamics, but also environmental and most importantly human factors. Representative distributions of factors and parameters are obtained by taking the stochastic variation of all relevant parameters into account in the simulations. The second tool, known as "ICOS", has been designed to provide a high-resolution, high-fidelity description of crash phase dynamics. If one converts the outputs of stochastic simulation into inputs for crash dynamics, the result is a comprehensive description of exactly how a safety system can reduce injuries. Applications currently focus on high-fidelity simulation of individual crashes in order to enhance our understanding and optimization of connected safety systems. An integrated simulation process thus allows an exact prediction of the effectiveness in individual cases in terms of injury severity. The development and rating of integral safety need to reflect the true efficiency in the field. The integrated approach described here could provide a valid and reproducible basis for rating connected systems of active and passive safety. In particular, "virtual experiments" using a traffic-based approach and incorporating models of all relevant processes constitute an essential element of the approach.
This study aimed to identify the occurrence, type and mechanisms of the traumatic injuries of the vulnerable road users in vehicle collisions, and to determine the effects of human, engineering, and environment factors on traffic accidents and injuries. The pedestrian accident cases were collected in the years 2000 to 2005 from Changsha Wujing hospital China and Accident Research Unit at Medical University Hannover in Germany. A statistic analysis was carried out using the collected accident data. The results from analysis of Changsha data were compared with results from analysis of GIDAS data Hannover. The injury severities were determined using AIS code and ISS values. The results were presented in terms of cause of injuries, injury distributions, injury patterns, injury severity. The factors influenced the injury outcomes were proposed and discussed for the vehicle transport environment and road users. The results were discussed with regard to accident data collection, accident sampling and injury distributions etc. In the urban area of Changsha, motorcycles and passenger cars are most frequently involved in vehicle pedestrian accidents. Head and lower extremities injuries are the predominant types of pedestrian injuries. The pedestrian accidents were identified as vital issue in urban traffic safety and therefore a high priority should be given to this road user group in research of safe urban transportation. In Hannover area, cars are most frequently involved in traffic accidents, injured pedestrians are involved in road traffic of Germany in 13% of all causalities only in 2005 and have nearly the same number as motorcyclists, but the half of bicyclists.
One goal of the assessment of the crashworthiness of passenger cars is to characterize the potential of injury outcome to occupants of cars involved in an accident. This can be achieved by the help of an index that puts the number of injured occupants of passenger cars in relation to the number of cars involved in an accident. As a consequence, this index decreases with a lower potential of injury and rises with a higher number of injuries while assuming a fixed number of accidents. Another index is introduced that uses an economical weighting of each injury level. The consequential injury costs are calculated using the average economical costs for lightly, severely and fatally injured persons. The calculation of the safety indices is based on an anonymized sample of accident data provided by the Federal Statistical Office. An index of Mercedes passenger car drivers depending on the year of registration between 1991 and 2006 is compared to the index of drivers of cars of other makes within the same range of registration years.