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Am 42. Erfahrungsaustausch über Erdarbeiten im Straßenbau (EAT) am 5. und 6. Mai 2010 nahmen neben Vertretern des Bundesministeriums für Verkehr, Bau- und Stadtentwicklung und der Straßenbaubehörden der Länder auch Vertreter der Bundesanstalt für Wasserbau, der Deutschen Bahn AG und der DEGES teil. Der Erfahrungsaustausch dient dazu, Erfahrungen mit neuen Bauweisen und der Anwendung neuer Regelwerke und Prüfverfahren mitzuteilen und zu diskutieren. Der 42. EAT hatte vier verschiedene Themen-Schwerpunkte. Zum Einen "Regelwerke und Normung", es wurde die Arbeitsgruppe des CEN und deren Aufgaben bei der europäischen Normung "Erdarbeiten" vorgestellt, über die Qualitätssicherung von Geokunststoffen informiert und außerdem Neuerungen in den RAP Stra 2010 und der aktuelle Überarbeitungsstand der Richtlinien für die Straßenentwässerung (ZTV Ew, RiStWag und RAS-Ew) erläutert. Die Erfahrungsberichte gewährten Einblicke über neue Bauverfahren und Baustoffe. Es wurde der Vortrag vom 41. EAT über die Anwendung von Glasschaumgranulat als Leichtschüttung mit 2-jähriger Erfahrung fortgeführt. Ferner wurde über die Verbesserung des Verformungsverhaltens organischer Böden am Beispiel der Querung eines Moorgebietes in Brandenburg und der Überwindung eines Todeisloches beim Bau der A7 im Allgäu berichtet. Ebenfalls wurden die Vorteile und erforderlichen Einschränkungen (Risiken) der Beobachtungsmethode bei der Sicherung standsicherheitsgefährdeter Einschnittsböschungen erläutert. Ein weiteres Thema waren die Auswirkungen des Klimawandels auf die Straßeninfrastruktur. In verschiedenen Szenarien wurde über den Klimawandel mit Relevanz für die Straße und über Risiken von Hang- und Böschungsrutschungen durch die Zunahme von Extremwetterereignissen informiert. An drei Fallbeispielen in Baden Württemberg, Rheinland-Pfalz und Niedersachsen wurde über Böschungsrutschungen und deren Sanierungsmaßnahmen berichtet. Den letzten Schwerpunkt bildeten die Bauverträge mit funktionalen Anforderungen. Es wurde über den Funktionsbauvertrag im Bundesfernstraßenbau, die Vorstellung der ZTV-Funktion E an Hand der BAB A6 bei Nürnberg und über die ZTV Funktion Ew berichtet. Die Fachexkursion am 6. Mai 2010 führte zunächst zur Verkehrs- und Betriebszentrale Nordbayern, die eindrucksvoll über ihre Aufgabengebiete, einschließlich des verkehrstelematischen, betriebs- und tunneltechnischen Systems informierte. Anschließend wurde über weitere Details des sechsstreifigen Ausbaus der BAB A6 zwischen der AS Roth und dem AK Nürnberg-Süd informiert. Im Anschluss erfolgten unter fachkundiger Führung die Besichtigung der Erdbaumaßnahmen an der Main-Donau-Kanalbrücke und der Rückbau des Lärmschutzwalls Kornburg inklusive der Erläuterungen der unvorhergesehenen Probleme bei der Aufbereitung des alten Lärmschutzwalls.
Der Allgemeine Deutsche Automobil-Club e.V. (ADAC) und die Bundesanstalt für Straßenwesen (BASt) veranstalteten am 13. Oktober 2006 in Baden-Baden das 6. Symposium "Sicher fahren in Europa". Die Fachvorträge befassten sich mit den Themenbereichen: Ansätze zu mehr Verkehrssicherheit, - Verbesserung der Fahrzeugsicherheit, - Besondere Zielgruppen. Die CD-ROM dokumentiert die Grußworte, die Referate und die Podiumsdiskussion.
Seit mehreren größeren Brandereignissen in Straßentunneln um die Jahrtausendwende wurde sowohl im baulichen Brandschutz als auch in der sicherheitstechnischen Tunnelausstattung viel getan. Zahlreiche technische Neu- und Weiterentwicklungen haben seither Eingang in Bau, Ausstattung und Betrieb der Bauwerke gefunden. Im europäischen aber auch weltweiten Vergleich befinden sich die deutschen Straßentunnel auf einem sehr hohen Sicherheitsniveau. Dies ist auch erforderlich, da Deutschland als Transitland in Europa über ein hoch belastetes Straßennetz verfügt. Tunnel stellen neuralgische Punkte in diesem Netz dar. Daher gilt es hier für den Nutzer ein Optimum an Sicherheit zu gewährleisten, gleichzeitig aber auch den Verkehrsfluss so gering wie möglich durch Wartungs- bzw. Sperrzeiten der Tunnelröhren zu behindern. Mit diesem Tagungsband sollen die neuesten Erkenntnisse sowohl zur Verkehrssicherheit in Tunneln, als auch zur bautechnischen Sicherheit für die Verwendung in der alltäglichen Praxis nähergebracht werden. Nach einem allgemeinen Überblick zum Stand von aktuellen Bau-, Instandsetzungs- und Nachrüstungsmaßnahmen im deutschen Fernstraßentunnelnetz erfolgt die Vorstellung zweier Forschungsprojekte der BASt, dem europäischen Projekt ECOROADS, welches die Harmonisierung zwischen Sicherheitsanforderungen auf freier Strecke und Tunnel zum Inhalt hat, und dem BASt-eigenen Modelltunnel, in dem längsneigungsabhängige, modellmaßstäbliche Rauchausbreitungsuntersuchungen vorgenommen wurden. Im zweiten Themenbereich, der die Grundlagen für Planung und Bau fokussiert, wird auf die Fortschreibung des betriebstechnischen Regelwerks, die Entwicklung von Kostenansätzen für Straßentunnel sowie auf planerische Herausforderungen im Rahmen des Großprojektes Fehmarnbeltquerung eingegangen. Im Themenschwerpunkt Tunnelbetrieb werden neue Erkenntnisse zur Belüftung von Straßentunneln bei Stau und den damit verbundenen Auswirkungen auf die Risikoanalyse vorgestellt. Außerdem gibt es ein Update zum Stand der Umsetzung des Pilotprojektes Tunnelsimulator aus zwei Bundesländern. Im Rahmen der Beiträge zu Instandsetzung und Nachrüstung von Straßentunneln wird dem aktuellen Thema des Umgangs mit Chloridbelastungen von Tunnelinnenschalen nachgegangen, sowie den Besonderheiten bei der Nachrüstung mehrerer Bestandstunnelbauwerke der Stadt Köln mit Schwerpunkt auf dem Stadtautobahntunnel Kalk. An dieser Stelle sei allen Autoren gedankt, die zu dieser gelungenen Veranstaltung beigetragen haben.
Im europäischen aber auch weltweiten Vergleich befinden sich die deutschen Straßentunnel auf einem sehr hohen Sicherheitsniveau. Dies ist auch erforderlich, da Deutschland als Transitland in Eu-ropa über ein hoch belastetes Straßennetz verfügt. Tunnel stellen neuralgische Punkte in diesem Netz dar. Daher gilt es hier für den Nutzer ein Optimum an Sicherheit zu gewährleisten, gleichzeitig aber auch den Verkehrsfluss so gering wie möglich durch Wartungs- bzw. Sperrzeiten der Tunnelröhren zu behindern. Neben der Sicherheit und Verfügbarkeit wird erwartet, dass insbesondere auch die Themen Digitalisierung, Nachhaltigkeit und Wirtschaftlichkeit in der Zukunft den Tunnelbau- und Tunnelbetrieb (weiter) prägen werden.
Mit diesem Tagungsband sollen die neuesten Er-kenntnisse zu diesen Zukunftsthemen für die Ver-wendung in der alltäglichen Praxis nähergebracht werden.
Nach einem allgemeinen Überblick zum Stand von aktuellen Bau-, Instandsetzungs- und Nachrüs-tungsmaßnahmen im deutschen Fernstraßentunnelnetz wird im zweiten Themenblock, der den Be-trieb und die Erhaltung fokussiert, auf den Einsatz von BIM im Rahmen der Tunnelerhaltung sowie den Einfluss von Nutzungsdauern auf die Lebenszykluskosten von Tunneln eingegangen. Der Themenblock schließt mit der Vorstellung der geothermischen Nutzung von Bergwasser für einen nachhaltigen Betrieb am Grenztunnel Füssen.
Im Rahmen der Beiträge zum Themenblock „Erhöhung der Verfügbarkeit“, werden Konzepte vorge-stellt, die es ermöglichen die Verfügbarkeit im Ereignisfall zu optimieren sowie die gesamtwirtschaft-lichen Auswirkungen infolge von Modernisierungen beziehungsweise Erneuerungen strategisch zu berücksichtigen. Der letzte Beitrag in diesem Block stellt Ihnen das Ergebnis des Forschungsprojektes „RITUN – Resiliente Straßentunnel“ vor.
Abgerundet wird die Veranstaltung mit Praxisbeispielen zur Nachrüstung von Tunneln unter Verkehr. Am Engelbergbasistunnel bei Leonberg und am Rathaustunnel in Lüdenscheid wird die Bandbreite zu treffender Maßnahmen für die Aufrechterhaltung eines sicheren Verkehrsablaufs während umfang-reicher Ertüchtigungsarbeiten dargestellt.
An dieser Stelle sei allen Autoren gedankt, die zu dieser gelungenen Veranstaltung beigetragen haben.
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.
Cycling supports the independence and health of the aging population. However, elderly cyclists have an increased injury risk. The majority of injured cyclists is victim of a single-sided accident, an accident in which there is no other party involved. The aim of the project "Safe and Aware on the bicycle" is to develop guidelines for an advisory system that is useful in preventing single-sided accidents. This system is able to support the elderly cyclist; enabling the cyclist to timely adapt his cycling behaviour and improve cycling safety and comfort. For the development of such advisory system the causes of singles accidents and the wishes of the elderly cyclist must be known. First step to obtain this insight was a literature survey and an GIDAS research. Unfortunately accidentology research with GIDAS did not give the full understanding of the pre-crash situations and (especially the behaviour related) factors leading to the accident. The second step was consultation of elderly cyclist through a questionnaire (n=800), in-depth interviews (n=12) and focus group sessions (n=15). This offered complementary information and a much better understanding of the behavioural aspects. Results concern the behaviour in traffic and identify specific physical (i.e. problems looking backwards over the shoulder) and mental issues. Furthermore, the needs and wishes for support in specific cycling situations were identified. In conclusion; The GIDAS results together with the information obtained contacting the elderly cyclists enabled setting up requirements for an advisory system, which is useful in preventing single-sided accidents.
Accidents between right turning trucks and straight driving cyclists often show massive consequences. Accident severity in terms of seriously or fatally injured cyclists that are involved is much higher than in accidents of other traffic participants in other situations. It seems clear that adding additional mirrors will very likely not improve the situation. At ESV 2015, a methodology to derive test procedures and first test cases as well as requirements for a driver assist system to address blind spot accidents has been presented. However, it was unclear if and how testing of these cases is feasible, to what extent characteristics of different truck concepts (e.g. articulated vehicles, rigid vehicles) influence the test conduction and outcome, and what tolerances should be selected for the different variables. This work is important for the acceptance of a draft regulation in the UN working group on general safety. In the meantime, three test series using a single tractor vehicle, a tractor-semitrailer combination and a rigid vehicle have been conducted. The test tools (e.g. surrogate devices) have been refined. A fully crashable, commercially available bicycle dummy has been tested. If used correct, this dummy does follow a straight line quite precisely and it does not cause any damage to the truck under test in case of accidental impact. The dummy specifications are freely available. During testing, the different vehicle categories resulted in different trajectories being driven. Articulated vehicle combinations did first execute a turn into the opposite direction, and on the other hand, single tractor vehicles did behave comparable to passenger cars. A possible solution to take these behaviors into account is to require the vehicles to drive through a corridor that is narrow for a precise straight-driving phase and extends during the turn. Other investigated parameters are the dummy and vehicle speed tolerances. The results from this research make it possible to draft a regulation for a driver assistance system that helps to avoid blind spot accidents: test cases have been refined, their feasibility has been checked, and corridors for the vehicles and for important parameters (e.g. test speeds) have been set. The test procedure is applicable to all types of heavy goods vehicles. In combination with the accidentology (ESV 2015 paper), the work provides the basis for a regulation for such an assistance system.
A methodology to derive precision requirements for automatic emergency braking (AEB) test procedures
(2015)
AEB Systems are becoming important to increase traffic safety. Test procedures in testing for consumer information, manufacturer self-certification and technical regulations are used to ensure a certain minimum performance of these systems. Consequently, test robustness, test efficiency and finally test cost become increasingly important. The key driver for testing effort and test costs is the required repeatable accuracy in a test design - the higher the accuracy, the higher effort and test costs. On the other hand, the performance of active safety systems depends on time discretization in the environment perception and other sub-systems: for instance, typical sensors supply information with a cycle time of 50 - 150 ms. Time discretization results in an inherent spread of system performance, even if the test conditions are perfectly equal. The proposed paper shows a methodology to derive requirements for a test setup (e.g. test repeats, use of driving robots, ...) as function of AEB system generation and rating method (e.g. Euro NCAP points awarded, pass/fail, ...). While the methodology itself is applicable to AEB pedestrian and AEB Car-Car scenarios, due to the lack of sufficient test data for AEB Car-Car, the focus of this paper is on AEB pedestrian scenarios. A simulation model for the performance of AEB Pedestrian systems allows for the systematic variation of the discretization time as well as test condition accuracy. This model is calibrated with test results of 4 production vehicles for AEB Pedestrian, all fully tested by BASt according to current Euro NCAP test protocols. Selected parameters to observe the accuracy of the test setup in case of pedestrian AEB is the calculated impact position of pedestrian on the vehicle front (as if no braking would have occurred), and the test vehicle speed accuracy. These variable was shown in real tests to be repeatable in the range of ± 5 cm and ± 0,25 km/h, respectively, with a fully robotized state of the art test setup. The sensitivity of AEB performance (measured in achieved speed reduction as well as overall rating result according to current Euro NCAP rating methods) towards discretization and the sensitivity of performance towards test accuracy then is compared to identify economic yet robust test concepts. These comparisons show that the available repeatability accuracy of current test setups is more than sufficient for today's AEB system capabilities. Time discretization problems dominate the performance spread especially in test scenarios with a limited pedestrian dummy reveal time (e.g. child behind obstruction, running adult scenarios with low car speeds). This would allow to increase test tolerances to decrease test cost. A methodology which allows to derive the required tolerances in active safety tests might be valuable especially for NCAPs of emerging countries that do not have the necessary equipment (e.g. driving robots, positioning units) available for the full-scale and high tolerance EuroNCAP active safety procedures yet still want to rate active safety systems, thus improving the global safety.
Whiplash injuries are characterized by the high variability of its symptoms and by the subjectivity of its diagnosis, which sometimes leads to frauds perpetrated by victims of rear-end impacts. It is estimated that whiplash injuries cost annually about 10.000 million Euros in Europe. Therefore, the aim of this study was to investigate the influence of the dynamics of the accident in which the victim was involved in the probability of development of whiplash associated injuries. In the presented methodology, first an accident reconstruction is performed where the dynamics of the accident is determined. This is carried out using the software PC-Crash, police and insurance companies' data. Then biomechanical injuries criteria related with whiplash injuries are evaluated. For the evaluation of the probability of having whiplash injuries, the Neck Injury Criterion (NIC) of the victim and the mean acceleration of the vehicle were evaluated. Then, with medical reports, the results of the accident reconstruction are correlated with the reported injuries. Some examples are presented. The results obtained indicate that the study of the dynamics of the road accidents in which the victims were involved could be used as an auxiliary of the prognosis of whiplash injuries and is important for a precise diagnosis of this type of injuries.
One main objective of the EU-Project SENIORS is to provide improved methods to assess thoracic injury risk to elderly occupants. In contribution to this task paired simulations with a THOR dummy model and human body model will be used to develop improved thoracic injury risk functions. The simulation results can provide data for injury criteria development in chest loading conditions that are underrepresented in PMHS test data sets that currently proposed risk functions are based on. To support this approach a new simplified generic but representative sled test fixture and CAE model for testing and simulation were developed. The parameter definition and evaluation of this sled test fixture and model is presented in this paper. The justification and definition of requirements for this test set-up was based on experience from earlier studies. Simple test fixtures like the gold standard sled fixture are easy to build and also to model in CAE, but provide too severe belt-only loading. On the other hand a vehicle buck including production components like airbag and seat is more representative, but difficult to model and to be replicated at a different laboratory. Furthermore some components might not be available for physical tests at later stage. The basis of the SENIORS generic sled test set-up is the gold standard fixture with a cable seat back and foot rest. No knee restraint was used. The seat pan design was modified including a seat ramp. The three-point belt system had a generic adjustable load limiter. A pre-inflated driver airbag assembly was developed for the test fixture. Results of THOR test and simulations in different configurations will be presented. The configurations include different deceleration pulses. Further parameter variations are related to the restraint system including belt geometry and load limiter levels. Additionally different settings of the generic airbag were evaluated. The test set-up was evaluated and optimized in tests with the THOR-M dummy in different test configurations. Belt restraint parameters like D-ring position and load limiter setting were modified to provide moderate chest loading to the occupant. This resulted in dummy readings more representative of the loading in a contemporary vehicle than most available PMHS sled tests reported in the literature. However, to achieve a loading configuration that exposes the occupant to even less severe loading comparable to modern vehicle restraints it might be necessary to further modify the test set-up. The new generic sled test set-up and a corresponding CAE model were developed and applied in tests and simulations with THOR. Within the SENIORS project with this test set-up also volunteer and PMHS as well as HBM simulations are performed, which will be reported in other publications. The test environment can contribute in future studies to the assessment of existing and new frontal impact dummies as well as dummy improvements and related instrumentation. The test set-up and model could also serve as a new standard test environment for PMHS and volunteer tests as well as HBM simulations.
Road accidents are typically analyzed to address influences of human, vehicle, and environmental (primarily infrastructure) factors. A new methodology, based on a "Venn diagram" analysis, gives a broader perspective on the probable factors, and combinations of factors, contributing both to the occurrence of a crash and to sustaining injuries in that crash. The methodology was applied to 214 accidents on the Mumbai-Pune expressway. Factors contributing to accidents and injuries were addressed. The major human factors influencing accidents on this roadway were speeding (30%) and falling asleep (29%), while injuries were primarily due to lack of seat belt use (46%). The leading infrastructure factor for injuries was impact with a roadside manmade structure (28%), and the main vehicle factor for injuries was passenger compartment intrusion (73%). This methodology can help identify effective vehicle and infrastructure-related solutions for preventing accidents and mitigating injuries in India.
For the avoidance of traffic accidents by means of advanced driver assistance systems the knowledge of failures and deficiencies a few seconds before the crash is of increasing importance. This information e.g. is collected in the German accident survey GIDAS by an interview derived from the ACAS methodology. However to display the whole range of accident causation factors additional information is needed on enduring factors of the system components "human", "infrastructure" and "machine". On the strategic level these accident moderating factors include long term influences such as medical preconditions or a general higher risk taking behavior as well as influences on the immediate conflict level such as an aggressive response to a perceived previous traffic conflict. This study was conducted to examine the feasibility of collecting such causation information in the scope of an in-depth accident investigation like GIDAS. Due to the comprehensive amount of information necessary to estimate the moderating factors the collection of the information is distributed to different methods. 5 cases of real world crashes have been investigated where information was collected on-scene and retrospective by interviews. The identified moderating factors of the accidents and the method for collecting the information are displayed.
Vehicle crash research at different levels is currently being conducted by several investigation groups in Spain, in some instances within various EU-funded projects. However there is a clear opportunity for increasing compatibility and maximizing usefulness, both at national and European levels, of the information collected by these groups. After reviewing on-going activities and programs in different countries, a framework for a nationwide crash investigation project is proposed: an organizational scheme is suggested as part of a future National Road Safety Strategic Plan; a map of investigation teams located in technological centres, universities and police agencies in Spain is presented; alternatives for several practical aspects such as team composition, deployment and operational budgets and project developmental stages are also discussed.
Thorax injury is one of main causes of serious injury in frontal collisions, especially for elderly car occupants. The anthropometric test device (ATD) THOR‐M provides chest deflection measurements at multiple locations, to assess the risk of thorax injury. For this purpose e, risk functions are needed that relate the potential criteria based on multipoint chest deflection measurement to in jury risk. Different thorax injury criteria and risk functions for THOR have been proposed [2‐3]. The criteria and functions are based on the traditional approach to developing injury risk functions using matched ATD and PMHS tests by relating the injury (number of fractures) to injury criteria. Regarding these studies, some limitations have been identified, in particular concerning the loading conditions of the data used (mainly 3‐point‐belt loading, high loading severity, out‐of‐date ATD versions. To extend the data set and overcome these limitations, a new approach for improved thorax injury criteria was applied within the EC‐funded project SENIORS. The new approach is based on matched frontal impact sled computer simulations with a model representing the latest THOR‐M ATD version, and matching simulations with a human body model (HBM) representing an elderly car occupant.
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.
Ein auf Nachhaltigkeit angelegtes Großprojekt wie das der Zustandserfassung und -bewertung (ZEB) bedarf eines Qualitätssicherungssystems. Hierfür wurde auf Initiative des Bundesministeriums für Verkehr, Bau- und Wohnungswesen (BMVBW) eine Untersuchung ausgelöst, über die die Grundlagen und Voraussetzungen für ein umfassendes QS-System erarbeitet werden sollen. In einer Pilotierungsphase soll im Jahr 2002 die Machbarkeit nachgewiesen werden.
Absturzsicherung auf Brücken
(2008)
Der Beitrag behandelt den aktuellen Stand der Normung und Ausführung von Absturzsicherungen auf Brücken. Zu den Absturzsicherungen gehören sowohl die Fahrzeug-Rückhaltesysteme als auch Geländer, die den Absturz von Personen verhindern sollen. Die verschiedenen Fahrzeug-Rückhaltesysteme sind: Stahlschutzplanken, Betonschutzwände, transportable Schutzwände und Anpralldämpfer. Die zugehörigen Regelungen finden sich in den Richtlinien für passive Schutzeinrichtungen an Straßen (RPS), die derzeit an die Europäische Norm EN 1317 Rückhaltesysteme an Straßen angepasst werden. Die nationalen Regelwerke müssen auf die in der Europäischen Norm vorgegebenen Leistungsklassen, die die bisherigen Beschreibungen der Schutzsysteme ersetzen, Bezug nehmen. Die dabei zu berücksichtigenden Leistungsmerkmale sind: Aufhaltevermögen, seitliche Auslenkung und Insaßenbelastung. Damit der Anwender Systeme zielgerichtet auswählen kann, sind für alle Schutzsysteme Anprallversuche erforderlich, mit denen das System in eine Aufhalteklasse eingestuft wird. In einer Tabelle werden die Aufhalteklassen (N1, N2; H1,H2,H3; H4a und H4b) mit den bei den Anprallprüfungen einzuhaltenden Versuchsparametern aufgelistet. Normales Aufhaltevermögen gewährleisten die Klassen N1 und N2, höheres Aufhaltevermögen die Klassen H1 bis H3 und sehr hohes Aufhaltevermögen die Klassen H4a und H4b. Am Fahrbahnrand von Brücken wird bei Autobahnen und autobahnähnlichen Straßen im Normalfall die Aufhaltestufe H2 gefordert; bei besonderer Gefährdung Dritter unter der Brücke jedoch H4b. Bei den übrigen Straßen reichen, abhängig vom Schwerverkehrsanteil, die Aufhaltestufen H1 beziehungsweise H2. Da Leistungsanforderungen an die Systeme der Schutzeinrichtungen auf Brücken gefordert werden, sind vom Hersteller Nachweise der auf das Bauwerk einwirkenden Kräfte beim Fahrzeuganprall zu führen.
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.
Accident simulation and reconstruction for enhancing pedestrian safety: issues and challenges
(2015)
The enhancement of pedestrian safety represents a major challenge in traffic accidents. This study allows a better understanding of the issues in pedestrian protection. It highlights the potential of in-depth studies in identifying relevant crash parameters interfering in the pedestrian safety. A computational simulation tool was developed to reconstruct pedestrian real-world crashes. A sample of 100 in-depth accident cases was reconstructed from two sources: 40 crashes provided by IFSTTAR-LMA and 60 crashes from CASR. To exemplify the methodology, two accident cases from each database were illustrated. A description of the sample of crashes was presented including the travel and impact speed of the vehicle, the driver reaction, the pedestrian walking speed, the scene configuration with the eventual obstacles, etc. This detailed description is pointing to the major factors affecting the limits of pedestrian safety systems.
The development of tyre- and truck-manufacturers leads to the direction to introduce wide base single tyres (size 495/45R22,5) instead of twin tyres on the driving axle of trucks, tractors and busses. To study the driving behaviour and safety of various trucks and units with different tyre combinations and loading conditions was the aim of the study. A computer-aided simulation was used for this investigation. Drive tests with a 40 t unit with prototype single tyres on the drive axle were carried out to verify the simulation. Alterations in driving behaviour and driving safety are mainly dependent on the tyre cornering stiffness. The prototype wide single tyres had a higher lateral stiffness which leads to a higher degree of under-steering (safer driving behaviour). The altered spring base on the drive axle had no influence on the side- tilt stability of vehicle combinations but the solo truck profited from the higher rear axle roll stiffness (less danger for roll-over accidents). As far as the driving safety is concerned nothing speaks against wide base tyres on the drive axle. The simulation of a tyre defect in a bend (assuming 40% of the max. transferable side force for the flat tyre) showed no increased danger using wide single tyres. Later driving tests showed however the need of tyre run flat possibilities to avoid jack-knifing of road trains. Also tyre pressure monitoring systems and electronic stability programs for the trucks are advised.
Since 2005 the German In-Depth Accident Study (GIDAS) also records aspects of active vehicle safety. This is done because vehicles are fitted with an increasing number of active safety devices which have undoubtedly an influence on the number, severity and course of accidents. Accident researchers expect that collecting active safety data will facilitate to assess and quantify the impact of these and future devices. It is the aim of this paper to outline benefits and limitations associated with the recording of active safety aspects within indepth studies. An overview about possible areas where active safety data can be useful will be given. For that purpose single safety or comfort systems will be selected to estimate the effects of an accident database which includes variables associated with these systems. Questions with regard to the limitations of collecting active safety data will be addressed. Possible items are for example the usability of the data recorded, the real accident cause, the small number of relevant accidents, the time span needed to gather a sufficient dataset, the small share of vehicles equipped with a certain system or different functionalities of systems that are supposed to fall in the same category. As a result user needs for a reasonable data collection of active safety elements will be elaborated.
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.
Various climate projections predict changing climatic parameters like temperature, precipitation, wind speed etc. for Germany. This could have severe impacts on road transport infrastructure as well as road traffic itself. At the Federal Highway Research Institute (Bundesanstalt für Straßenwesen (BASt) a strategy was developed to adapt roads and engineering structures to the impacts of climate change. The strategy "Anpassung der Straßenverkehrsinfrastruktur an den Klimawandel / Adaptation of the road infrastructure to climate change (AdSVIS)" comprises currently about 15 projects. On the basis of the identification of the hazards and the combination of the climate and road network data, the road transport infrastructure which might be affected is to be determined. Adaptation measures are to be developed for the identified risk areas and assessed as to their effectiveness. Special attention is given to international cooperation since climate change is a truly global challenge.
Advancing active safety towards the protection of vulnerable road users: the PROSPECT project
(2017)
Accidents involving Vulnerable Road Users (VRU) are still a very significant issue for road safety. According to the World Health Organisation, pedestrian and cyclist deaths account for more than 25% of all road traffic deaths worldwide. Autonomous Emergency Braking Systems have the potential to improve safety for these VRU groups. The PROSPECT project (Proactive Safety for Pedestrians and Cyclists) aims to significantly improve the effectiveness of active VRU safety systems compared to those currently on the market by expanding the scope of scenarios addressed by the systems and improving the overall system performance. The project pursues an integrated approach: Newest available accident data combined with naturalistic observations and HMI guidelines represent key inputs for the system specifications, which form the basis for the system development. For system development, two main aspects are considered: advanced sensor processing with situation analysis, and intervention strategies including braking and steering. All these concepts are implemented in several vehicle prototypes. Special emphasis is put on balancing system performance in critical scenarios and avoiding undesired system activations. For system validation, testing in realistic scenarios will be done. Results will allow the performance assessment of the developed concepts and a cost-benefit analysis. The findings within the PROSPECT project will contribute to the generation of state -of-the-art knowledge, technical innovations, assessment methodologies and tools for advancing Advanced Driver Assistance Systems towards the protection of VRUs. The introduction of a new generation safety system in the market will enhance VRU road safety in 2020-2025, contributing to the "Vision Zero" objective of no fatalities or serious injuries in road traffic set out in the Transport White Paper. Furthermore, the test methodologies and tools developed within the project shall be considered for the New Car Assessment Programme (Euro NCAP) future roadmaps, supporting the European Commission goal of halving the road toll in the 2011-2020 timeframe.
Die Griffigkeit ist die maßgebende Größe für die Übertragung der Langs- als auch der Seitenkräfte von Reifen auf die Straßenoberfläche und hat somit einen erheblichen Anteil an der Straßensicherheit. In Deutschland erfolgt die Erfassung der Straßengriffigkeit im Rahmen von Bauverträgen sowie der Zustandserfassung und -bewertung (ZEB) mit dem Seitenkraftmessverfahren (SKM). Mit der Veröffentlichung der Technischen Prüfvorschriften für Griffigkeitsmessungen im Straßenbau (TP Griff-StB) (SKM) durch die Forschungsgesellschaft für Straßen- und Verkehrswesen (FGSV) am 29.04.2008 ist derzeit das aktuellste Dokument für Griffigkeitsmessungen im Rahmen von Bauverträgen sowie der Zustandserfassung und -bewertung von Bundesfernstraßen mit dem Seitenkraftmessverfahren (SKM) herausgegeben worden. Dieses Dokument löst die TP Griff-StB (SCRIM) mit ihren drei Allgemeinen Rundschreiben ab und fasst die Ergebnisse aus verschiedenen Forschungsprojekten und Erfahrungen aus den regelmäßigen Messungen der Messgerätebetreiber zusammen.