Sonstige
The improvement of passive car security devices led to a reduction of injuries, especially of the head, the neck and the torso mainly due to the airbag function. The passenger's foot and ankle could not profit from this development. Some investigators even reported a progression of leg injuries (1). In this study, we investigated a current collective of patients with foot and ankle fractures or severe soft tissue injuries in relation with defined crash parameters. Special interest was paid to the car's footwell.
Since its creation in 2011 the Pre-Crash-Matrix (PCM) offers the possibility to observe the pre-crash phase until five seconds before crash for a wide range of accidents. Currently the PCM contains more than 8.000 reconstructed accidents out of the GIDAS (German In-Depth Accident Study) database and is enlarged continuously by more than 1.000 cases per year. Hence, a detailed investigation of active safety systems in real accident situations has been made feasible. The PCM contains all relevant data in database format to simulate the pre-crash phase until the first collision of the accident for a maximum of two participants. This includes the definition of the participants and their characteristics, the dynamic behavior of the participants as time-dependent course for five seconds before crash as well as the geometry of the traffic infrastructure. The digital sketch of the accident and information from GIDAS as well as from supplementary databases represent the main input for the simulation of the pre-crash phase of an accident with the VUFO simulation model VAST (Vufo Accident Simulation Tool). This simulation in turn embodies the foundation of the PCM. The PCM underlies continual improvements and enhancements in consultation with its users. In addition to collisions of cars with other cars, pedestrians, bicycles and motorcycles the PCM now also covers car to object and car to truck collisions. The paper illustrates car to truck collisions as a showcase and explains perspectives for further developments. In 2016 a more detailed definition of the contour of the vehicle was added. Furthermore, the geometrical surroundings of the accident site will be provided in a new structure with a higher level of detail. Thus, a precise classification of road marks and objects is possible to further improve the support of developing and evaluating ADAS. This paper gives an overview about the latest developments of the PCM with its innovations and provides an outlook to upcoming enhancements. Besides potential areas of application for the development of ADAS are shown.
Nowadays airbags are part of the standard equipment in almost all new cars. While airbags are saving an increasing number of people from severe injuries and death in moderate and high speed crashes, they do not completely prevent dashboard injuries. The most common mechanism in dashboard injuries is a posteriorly directed force to the proximal tibia with the knee flexed. This may occur during a motor vehicle frontal impact accident when a knee of the driver or the front-seat passenger strikes the dashboard. The posterior force can be combined with a abducting or rotational force leading to concomitant lateral or posterolateral injury. Car and airbag manufacturers therefore develop special inflatable systems to reduce the impact force in dashboard injuries. Every new inflatable system, however, has to be evaluated in out of position situations in which the system might cause injuries to certain body areas. Therefore, we investigated a new kneebag system in different critical seating positions of post mortem test subjects (PMTS). The tested knee airbag module is a folded airbag (18 litre volume) which is installed below the lower section of the instrument panel of a passenger car. Using four PMTS (2 male, 2 female, age 36"67) the following positions were tested: normal seating position, knee flexed >90 degrees and knee flexed <60 degrees in static deployment tests with direct contact. In addition a dynamic test (48.8kph, AAMA-pulse) was carried out with the PMTS belted in a normal seating position. The inflation phase and the impact of the system on the knee/lower leg were analysed by high speed videos. After the test the lower legs of the PMTS were examined by Xray and autopsy. All soft tissue injuries and bone fractures were recorded. All the tests could be evaluated. Except some superficial skin lesions in the impact area no fracture of the bones around the knee and no knee ligament and tendon injuries were observed. Neither video analysis nor autopsy of the PMTS showed any critical contact injuries caused by the inflation process of the bag. Therefore, it can be concluded that in the tested seating positions which are the most critical for the knee area the knee bag system is safe.
The primary goal of this investigation was to determine the relative risk of traffic accidents in students. In a two year period, a survey amongst 2,325 students was carried out, and 3,645 injuries sustained by students treated at our hospital were analyzed. Moped-riding in adolescents were associated with a 23.75-fold increased risk for injury as compared to biking. Children who ride bicycles have a 2.2-fold increased risk for an injury sustained by traffic accidents compared to pedestrians. None of 50 injured bicycle riders with helmet had an AIS for head injuries of more than 2. 24 of 233 injured bicycle drivers without helmet had an AIS for head injuries of more than 2. The use of a protective helmet significantly reduced the severity of head injuries. The level of awareness towards danger and a history of previous accidents correlate with the likelihood of future accidents. Due to the severity of traffic accidents, more adequate prevention measures (wearing of bicycle helmets and better education for moped riders) are urgently needed.
To date, the Trauma Registry (TraumaRegister DGU-® contains data of approximately 100.000 severely injured patients, 65% of which suffered from a road traffic crash. Thus, it is the world's largest data base for severely injured patients. The article describes the development of the registry and explains how it was rolled out over Germany using the established structure of the German Trauma Network (TraumaNetzwerk DGU-®). In addition, this article presents three typical use cases from the fields of quality management, policy making and system-wide interventions, clinical research and injury prevention. In conclusion, the TraumaRegister DGU-® is a well-established tool for various purposes related to the control and reduction of the burden of road injury. Its ongoing expansion to other countries will support the goal of international benchmarking of hospitals and trauma systems.
Gegenstand der Untersuchung, bei dem die Blutalkoholuntersuchungsbefunde des Instituts für Rechtsmedizin der Universität Bonn aus den Jahren 1997, 1999 und 2003 retrospektiv ausgewertet wurden, war zum einen die Frage nach dem Frauenanteil und der Beteiligung von Alkoholikern an der Trunkenheitsdelinquenz im Straßenverkehr. Zum anderen sollte nachvollzogen werden, inwieweit die im Laborversuch ermittelten Konversionsfaktoren bei der Anwendung in der polizeilichen Praxis bestätigt werden können. In der wissenschaftlichen Diskussion der pharmakokinetischen Grundlagen wurden nach Trinkversuchen unter Laborbedingungen Zweifel an einer ausreichend gesicherten Korrelation zwischen Atem- und Blutalkoholkonzentration geäussert. Die Auswertung von 1.889 Datensätzen mit dem Ziel der Analyse der Zusammenhänge zwischen Blut- und Atemalkoholkonzentration in der Praxis ergab im Vergleich zu einer früheren Studie, dass die Resultate innerhalb enger Grenzen übereinstimmen und sie die Verhältnisse im tatsächlichen polizeilichen Einsatz abbilden. Bei der Geschlechterverteilung ergab sich ein Frauenanteil von 9 Prozent, bei mindestens 7 Prozent der Teilnehmer ist eine Alkoholproblematik zu vermuten.
Relevant accident related factors : risk and frequencies of contributing to road traffic accidents
(2009)
In the course of the European Project TRACE (Traffic Accident Causation in Europe) an attempt was made to analyse the cause of road traffic accidents from a factors' point of view. By literature review the most important independent risk factors for traffic accidents were identified to be speed, alcohol intake, male gender, young age, cell phone use, and fatigue. However, the impact of an accident related factor also depends on its prevalence in traffic and accidents, respectively. Available to the Partners in the TRACE Project were different accident databases. Causally contributing factors found by accident investigations that are most often coded in accident databases are connected to unadapted speed and inattention. Taking into account the risk increase and the frequency of contribution to accidents the conclusion can be drawn that the most relevant factors for accident causation are: "alcohol", "speed", and "inattention and distraction".
Females sustain Cervical Spine Distortion injury (CSD) more often than males. Most work dealing with the biomechanics background (e.g. injury mechanism/criteria) as well as the application in seat design/testing, focuses on the occupant model of an average male. Therefore the EU-Project ADSEAT (Adaptive Seat to Reduce Neck Injuries for Female and Male Occupants) is aimed at adding a female model for gender balanced research of CSD and improving seat design. An extensive literature review, searching for risk factors and injury criteria for males and females, was accompanied by the evaluation of different databases containing CSD cases. The database evaluations suggests that an anthropometry quite close to the 50%ile female anthropometry as known from crash test dummy design is appropriate. The results presented here form the basis for the future development of a computational female model and the improvement of seat design for better protection of both males and females in the frame of the ADSEAT-Project.
In the course of the EUROPEAN PROJECT TRACE all fatally injured pedestrians autopsied at the Institute for Legal Medicine in Munich in 2004 had been analysed by using the "Human Functional Failure (HFF) analysis" method. It was possible to apply this method although some restrictions have to be taken into account. The results derived from this analysis comprise first the failures the pedestrians (most often "impairment of sensorimotor and cognitive abilities") and the opponents (most often " Non-detection in visibility constraints conditions") faced in the accident, second the conflicts and tasks (pedestrian crossing the street conflicting with a vehicle from the side (which was going ahead on a straight road), the degree of accident involvement (pedestrians often the primary active part), and further the contributing factors to the accident (pedestrians most often "alcohol (> 0.05% BAC)", opponents most often "visibility constraints").
Seilverspannte Brücken
(2008)
Der Beitrag behandelt den Entwurf, Besonderheiten der Berechnung und die Bemessung der beiden wichtigsten Bauarten seilverspannter Brücken, der echten Hängebrücke und der Schrägseilbrücke. Bei den Hängebrücken wird zunächst eingegangen auf die geschichtliche Entwicklung, die geprägt ist durch die im Zuge der Verbesserung des Stahls zunehmende Drahtfestigkeit. Anschliessend geht der Bericht ein auf: statisches System, Arten des Ueberbaus, Ausführung der Pylone, Kabel, Hänger und Widerlager. Analog zu den Hängebrücken ist der Beitrag bei den Schrägseilbrücken aufgebaut: geschichtliche Entwicklung, Haupttragwerke, Ueberbau, Pylone und Schrägseile. Hinsichtlich der Besonderheiten der Berechnung werden angesprochen: Anwendung der Theorie II. Ordnung und Betriebsfestigkeitsbeanspruchung. Erläutert wird auch die Montage sowohl der Hängebrücke als auch der Schrägseilbrücke in Wort und Bild.
Cyclists are more likely to be injured in fatal crashes than motorised vehicles. To gain detailed and precise behavioural data of road users, i.e. trajectories, a measuring campaign was conducted. Therefore, a black-spot for accidents with cyclists in Berlin, Germany was selected. The traffic has been detected by a fully automated traffic video analysis system continuously for twelve hours. The video surveillance system is capable of automatically extracting trajectories, classifying road user types and precise determining and positioning of conflicts and accidents. Additionally, pre-conflict and pre-accident situations could be analysed to provide further in-depth understanding of accident causation. The evaluation of the measuring campaign comprised the investigation of traffic parameters, e.g. traffic flow, as well as traffic-safety related parameters based on Surrogate Safety Measures (SSM). Furthermore, the spatial and temporal distributions of conflicts involving cyclists were determined. As a result, three possible conflict clusters could be identified, of which one cluster could be confirmed by detailed video analysis, showing conflicts caused by right turning vehicles.
In an on-going project since 2005, ADAC has been analyzing accidents documented by the ADAC air rescue service. The knowledge derived from real-life accidents serves as a basis for new test configurations and assessment criteria. In 2007, ADAC began looking into the feasibility of international data collection. The idea of Global Accident Prevention was born. Three European partner clubs have begun pioneering the project (ÖAMTC, ANWB, and RACC). The aim is to set up an international accident research network to provide a steady stream of information on road accidents. The FIA Foundation supports ADAC in developing and coordinating this initiative.
Active safety systems are aimed at accident prevention, hence the knowledge required for their development is different from that required for passive safety systems aimed at injury prevention. Particularly, knowledge about accident causation is required. When looking at existing accident causation data, it is argued it fails to explain in sufficient detail how and why the accidents occur. Therefore, there is a need for detailed micro-level descriptions of accident causation mechanisms, and also of methodologies suitable for creating such descriptions. One study addressing these needs is the Swedish project FICA (Factors Influencing the Causation of Accidents and Incidents), where an accident investigation methodology suitable for active safety is developed, and in-depth accident investigations following this methodology are carried out on-scene in the area of Gothenburg by a multidisciplinary team. A preliminary aggregated analysis of different cases shows that the methodology developed is adequate for pointing out common contributing factors and devising principal countermeasures.
In Finland all fatal motor vehicle accidents are studied in-depth on-the-spot by multidisciplinary (police, road and vehicle engineers, physician and behavioural scientist) road accident investigation teams (legislation 2001, work started 1968), which operate in every province. The purpose of the teams is to uncover risk factors that turned an ordinary driving situation into a serious accident and give safety recommendations for improving road safety. The investigation teams do not take a stand on guilt or insurance compensation. When analysing accidents the teams use the concepts of key event, immediate, background and injury risk factors. Compiled investigation folders of each case contain investigation forms from each member, preinvestigation protocol, photographs, sketches etc. About 500 items of information are collected from each accident party. The collected information is also coded into a computer database. Both the database and the investigation folders are widely utilized by researchers and authorities conducting safety work.
SEEKING is looking for answers regarding electric powered bicycles and their relation to traffic safety issues. Does a cyclist need "E"? Is it as risky as riding a moped or are E-bikes creating conflicts with other cyclists? The project described herein, funded by the Austrian Ministry of Transport, has the aim of seeking answers to these hot topics. The SEEKING-team shows an in-depth investigation of vehicle dynamic sensing, together with subjective feedback of test riders to detect similarities and differences between conventional cycling and E-biking. Following an overview on the international status quo, measurement runs and their analyses are performed to find a set of preventative measures to make (E-)biking safer. A specific focus is the detection of curve handling, stopping and acceleration phases as well as conflict studies on course-based test rides and "real world" tests on cycling paths (naturalistic riding).
Mit der Gründung des Bundesamtes für Strassen (ASTRA) im Jahr 1998 wurde ein wichtiges Signal gesetzt, das den Weg hin zu einer einheitlichen Vorgehensweise im Bereich der verkehrsmedizinischen Begutachtung in der Schweiz belebte. Der im Jahr 2000 veröffentlichte Leitfaden über die Verdachtsgründe der fehlenden Fahreignung, das In-Kraft-Treten des neues Straßenverkehrsgesetzes am 01.10.2005 (mit dem Herabsetzen der verkehrsrelevanten Alkoholpromillegrenze von 0,8 Promille auf 0,5 Promille, der Einführung einer Nulltoleranz für bestimmte Drogen, der Verschärfung der Administrativmaßnahmen und der strafrechtlichen Sanktionen sowie der anlassfreien Alkoholkontrolle als generalpräventiver Maßnahme) und die Veröffentlichung des Handbuchs der verkehrsmedizinischen Begutachtung durch die Arbeitsgruppe Verkehrsmedizin der Schweizerischen Gesellschaft für Rechtsmedizin im Jahr 2005, waren wichtige Meilensteine auf dem Weg zu einer einheitlichen Vorgehensweise im Bereich der verkehrsmedizinischen Begutachtung in der Schweiz.
Mobil sein zählt zu den Grundbedürfnissen und im Rahmen des westlichen Wertesystems zu den Grundrechten von Menschen. Dies gilt umso mehr, je mobiler die Gesamtgesellschaft wird und je mehr Menschen im Zuge der demographischen Entwicklung zum Kreis der "älteren Menschen" zählen. Dementsprechend wertet der dritte Bericht zur Lage der älteren Generation in der Bundesrepublik Deutschland den Erhalt der Mobilität im Alter als Basis für die "Erschließbarkeit der verschiedensten Ressourcen der Außenwelt" und als "entscheidenden Faktor von Lebensqualität im Alter", d.h. Aufrechterhaltung der Unabhängigkeit der Lebensführung durch Bewahrung von Fertigkeiten inkl. der Ermutigung zur Mobilität spielt für Ältere eine besonders wichtige Rolle. Die Entwicklung von Interventionsansätzen zur Förderung einer lebenslangen, sicheren Mobilität älterer Menschen stellt eine gesamtgesellschaftliche Herausforderung dar. Dementsprechend lebendig ist die Diskussion über Möglichkeiten ältere Verkehrsteilnehmer/innen in der Erhaltung ihrer Mobilität zu unterstützen und die Forschungsaktivität auf diesem Gebiet. Im Vortrag werden u. a. folgende Bereiche thematisiert: - Senioren stellen keine homogene Gruppe dar; dieses gut erforschte Faktum gilt auch für ihr Mobilitätsverhalten, aber auch für das Risikoverhalten. Ältere Menschen sind durch ausgesprochene Vielfalt mobilitätsbezogener Erwartungen, Verhaltensmuster und Lebensstile charakterisiert. - Die gegenwärtig durchaus wachsende positive Bewertung und Einstellung gegenüber Alter und Altern muss bei der Entwicklung neuer Sicherheitsmodelle berücksichtigt werden, gar Vorteil sollte daraus gezogen werden. - Um höhere Straßenverkehrssicherheit - nicht nur für Ältere - zu erreichen, ist eine stärkere Orientierung auf schwache, ungeschützte, vulnerable Verkehrsteilnehmer notwendig. - Teilnahme am Straßenverkehr ist Ergebnis eines lebenslangen Lernprozesses. Mobilitätsgewohnheiten, die während des Lebenslaufes erworben wurden, werden auch im Alter (unter Einsatz diverser Kompensationsstrategien) zum Großteil beibehalten. - Technologische Systeme (z.B. Telematik) können Mobilitätsplanung erleichtern und (bis zu einem gewissen Grad) Verluste in Fertigkeiten und Fähigkeiten zur Verkehrsteilnahme kompensieren und auf diese Weise zur Unfallreduktion beitragen. Die Alterssensitivität der Systeme muss ein zentraler Entwicklungsbereich sein. - Es sollte eine sehr viel stärkere Beteiligung der Älteren an der Entwicklung, Einführung und Implementation von verkehrsbezogenen Sicherheitsmaßnahmen und neuen Technologien ermöglicht werden. - Augenmerk sollte auch auf "alternative" Mobilitätsformen gelenkt werden: Smart Modes (zu Fuß gehen, Radfahren). Auch die Nutzung des ÖPNV sollte dadurch erleichtert werden, dass er so "benutzerfreundlich" wie nur möglich wird. - Ältere haben weiterhin ein hohes Interesse an und eine positive Einstellung zu Lernen, Übung und Training. Dies gilt auch für technischen Fortschritt und moderne Entwicklungen bezüglich der Straßenverkehrssicherheit. - Wenn Verkehrssicherheitsmaßnahmen implementiert werden, sollten die Kommunikationsmöglichkeiten dergestalt genutzt werden, dass sie für die verschiedenen Lebenssituationen und Lebensstile der Älteren angemessen sind. "Neue" Medien können dabei durchaus in Betracht gezogen werden. Fachdisziplinen wie Politikwissenschaft, Verkehrswesen, Ingenieurwissenschaften, Raumplanung, Architektur, Soziologie, Medizin, Psychologie, Pädagogik, Rechtswissenschaften, Ökonomie und Ökologie müssen künftig kooperieren, um einen Synergie-Effekt im Bereich der Mobilitätsförderung und der Verkehrssicherheitsarbeit für ältere Verkehrsteilnehmer und Verkehrsteilnehmerinnen zu erzielen. Dabei ist eine enge, interdisziplinäre Zusammenarbeit notwendig - ebenso wie ein vorurteilsfreier Umgang der Menschen miteinander in unserer Gesellschaft.
Recent findings from real-world accident data have shown that fatality risks for pedestrians are substantially lower than generally reported in the traffic safety literature. One of the keys to this insight has been the large and random sample of car-to-pedestrian crashes available in the German In-Depth Accident Study (GIDAS). Another key factor has been the proper use of weight factors in order to adjust for outcome-based sampling bias in the accident data. However, a third factor, a priori of unknown importance, has not yet been properly analysed. This is the influence of errors in impact speed estimation. In this study, we derived a statistical model of the impact speed errors for pedestrian accidents present in the GIDAS database. The error model was then applied to investigate the effect of the estimation error on the pedestrian fatality risk as a function of car impact speed. To this end, we applied a method known as the SIMulation-EXtrapolation (SIMEX) method. It was found that the risk curve is fairly tolerant to some amount of random measurement error, but that it does become flattened. It is therefore important that the accident investigations and reconstructions are of high quality to assure that systematic errors are minimised and that the random errors are under control.
While the number of fatal accidents is diminishing every year, there is still a need of improvement and action to prevent these deaths. Basis for this purpose has to be an analysis about the factors influencing the car crash mortality. There are various studies describing the univariate influence of several factors, but crash scenarios are too complex to be described by a single variable. The multivariate analysis respects the interference of the variables and gets so to more detailed and representative results. This multivariate analysis is based on about 2,600 cases (the data have been collected by the accident research units Hannover and Dresden (during the years 1999-2003). This paper presents a multivariate model (containing ten different variables) which detects 93% of these cases properly. This means it detects the cases as truly survived and truly death.
The NHTSA-sponsored Crash Injury Research and Engineering Network (CIREN) has collected and analyzed crash, vehicle damage, and detailed injury data from over 4000 case occupants who were patients admitted to Level-I trauma centers following involvement in motor vehicle crashes. Since 2005, CIREN has used a methodology known as "BioTab" to analyze and document the causes of injuries resulting from passenger vehicle crashes. BioTab was developed to provide a complete evidenced-based method to describe and document injury causation from in-depth crash investigations with confidence levels assigned to the causes of injury based on the available evidence. This paper describes how the BioTab method is being used in CIREN to leverage the data collected from in-depth crash investigations, and particularly the detailed injury data available in CIREN, to develop evidence-based assessments of injury causation. CIREN case examples are provided to demonstrate the ability of the BioTab method to improve real-world crash/injury data assessment.