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Die Unfallzahlen für das Jahr 2008 zeigen, dass die intensiven Anstrengungen für die Verkehrssicherheit weiterhin Früchte tragen. Nachdem im Jahr 2007 mit 220 Toten auch in Rheinland-Pfalz der geringste Stand seit Einführung der Unfallstatistik registriert wurde, konnte dieser Trend auch im Jahr 2008 bestätigt werden. Die Verkehrssicherheitsarbeit in Rheinland-Pfalz sieht sich dabei zunächst im Kontext des anspruchsvollen Ziels der EU, die Zahl der Verkehrstoten bis 2010 zu halbieren. Im Mittelpunkt steht dabei die Frage, wie die Risiken im Verkehrsverhalten der Menschen minimiert werden können. Vorhandene Sicherheitspotenziale sollen genutzt werden, Maßnahmen sind gezielt auf die Brennpunkte im Verkehrsgeschehen auszurichten. Neben Sicherheitsaktionen und Trainings für die Verkehrsteilnehmer sowie der Polizeiarbeit ist einer der wichtigsten Ansätze die Verbesserung der Infrastruktur. Zu den Maßnahmen auf diesem Gebiet zählen neue Ansätze beispielsweise bei der Überprüfung sicherheitsrelevanter Aspekte schon in der Planung, beim Bau moderner Verkehrsbeeinflussungsanlagen oder bei der Sicherheit an Bahnübergängen und in Tunnels. Ein Fokus liegt jedoch auf der Unfallkommissionsarbeit. Sie ist ein wesentlicher Bestandteil der Gesamtkonzeption zur Verbesserung der Verkehrssicherheit. Das Land Rheinland-Pfalz verfügt seit nunmehr über 35 Jahren über institutionalisierte Erfahrungen auf diesem Gebiet, die auch als Beispiel für die bundesweite Entwicklung dienten. In einem weiteren Schritt werden seit kurzem in einer landesweiten Unfallkonferenz nunmehr Programmschwerpunkte wie beispielsweise die Bekämpfung von Motorradunfällen oder Baumunfällen definiert. Zudem wurden mit einem aufwändigen Programm allen der etwa 400 Unfallkommissionsmitglieder in Rheinland-Pfalz Schulungen angeboten. Eine permanente Nachschulung garantiert dabei einen gleichbleibend hohen Wissensstand. Beispielgebend ist allerdings auch die zentrale Unfallauswertestelle beim Landesbetrieb Mobilität in Koblenz, die es in dieser Form so nur noch in Bayern gibt. Mit ihr steht seit vielen Jahren ein Instrument zur Verfügung, das nicht nur die Grundlagen für gezielte und effektive Verkehrssicherheitsmaßnahmen schafft, sondern auch landesweite Controllings durchführt. Ohne eine finanzielle Ausstattung ist jedoch eine effektive Unfallkommissionsarbeit nicht möglich. Aus diesem Grund wurde als Novum ein spezieller Haushaltsansatz geschaffen, der gezielt ausschließlich im Sinne der Verkehrssicherheit - derzeit mit dem Schwerpunkt Baumunfälle und Motorradsicherheit - eingesetzt wird. Dabei wurde auch in einem Bewertungsverfahren zum Ausbauplan für Landesstraßen die Verkehrssicherheit so gewichtet, dass speziell Unfallhäufungsstellen in die Prioritätenreihung gelangen. Diese Ansätze mit Strategien aus einer Landesunfallkonferenz, gezielter Schulung, finanzieller Ausstattung sowie Unterstützung und Controlling durch eine zentrale Unfallauswertestelle sind zugleich Chance und Herausforderung für eine künftige Verkehrssicherheitsarbeit.
Zur Frage, ob das "Begleitete Fahren ab 17" (BF17) zur Verkehrssicherheit junger Fahrer beiträgt, wurden zwei große Zufallsstichproben von Fahranfängern aus dem im Kraftfahrt-Bundesamt geführten Zentralen Fahrerlaubnisregister hinsichtlich ihrer Verkehrsauffälligkeit am Beginn ihres selbstständigen Fahrens verglichen: ehemalige BF17-Teilnehmer und gleichaltrige Fahranfänger mit herkömmlichem Erwerb eines Pkw-Führerscheins unmittelbar nach ihrem 18. Geburtstag. Beide Untersuchungsgruppen wurden postalisch um Teilnahme an Internet-Befragungen gebeten. 19.000 Pkw-Fahrer berichteten von ihrem ersten Jahr des selbstständigen Fahrens, dazu von Verkehrsverstößen und Verkehrsunfällen. Wiederholt wurde die Untersuchung an zwei "stillen" Untersuchungsgruppen mit zusammen 75.000 Fahrern durch Abfrage ihrer Verkehrsverstöße im Verkehrszentralregister (VZR), getrennt nach solchen mit Unfällen und ohne Unfälle. Das BF17-Modell wurde zwischen April 2004 und Januar 2008 in allen 16 Bundesländern in Deutschland eingeführt. Bis Ende 2009 hatten fast eine Million Fahranfänger an ihm teilgenommen. Zu diesem Zeitpunkt entschieden sich fast drei Viertel der Zielgruppe " sogenannte Früheinsteiger, die das selbstständige Fahren unmittelbar mit dem Erreichen von 18 Jahren anstreben - für das BF17. Dabei ist es in der Einführungsphase des BF17 zu einer temporären etwa fünfprozentigen Nachfragesteigerung nach Pkw-Führerscheinen bei den unter 19-Jährigen gekommen. Im ersten Jahr des selbstständigen Fahrens zeigen BF17-Absolventen 19 % weniger Unfallbeteiligungen und 18 % weniger Verkehrsverstöße im Vergleich zu gleichaltrigen Fahrern mit herkömmlichem Führerscheinerwerb. Nach Berücksichtigung konfundierender Faktoren (u.a. Geschlechtszugehörigkeit, Fahrzeugverfügbarkeit) verbleibt eine maßnahmenbedingte Verringerung der Unfälle um 17 % und der Verkehrsverstöße um 15 %. Bei Berücksichtigung der Fahrleistung verringern sich die Unfälle um 22 % und die Verkehrsverstöße um 20 %. Die Ergebnisse sind statistisch signifikant und gelten für Männer wie Frauen. Dies bestätigt sich in der Wiederholungsuntersuchung auf Basis der VZR-Daten mit einer Ausnahme: Für die ehemaligen BF17-Fahrerinnen und hier allein für die VZR-Verstöße ohne Unfall ist keine signifikante Reduktion festzustellen. Allerdings liegt deren Zahl ohnehin schon um drei Viertel niedriger als bei den Männern. Rein rechnerisch gesehen, verhinderte das BF17 im Jahr 2009 rund 1.700 Unfälle mit Personenschaden.
Das Ziel der vorliegenden Arbeit war der Vergleich verschiedener Stauendewarnungen hinsichtlich ihrer Effekte auf die Fahrsicherheit. Hierfür wurden im Rahmen einer Fahrsimulatorstudie mit N = 32 Probanden mit Bewegungssystem on-trip Warnungen vor Stauenden auf Autobahnen untersucht. Es wurden in zwei Verkehrsbedingungen ("mit Verkehr" vs. "ohne Verkehr": Stauenden werden mit oder ohne Umgebungsverkehr erreicht) jeweils zwei Stauendearten simuliert: (1) Umgebungsverkehr bremst kurz vor dem Stauende plötzlich ab ("hartes Stauende") bzw. Stauende ist durch die Streckengeometrie nicht einsehbar ("verdecktes Stauende") vs. (2) Umgebungsverkehr reduziert die Geschwindigkeit vor dem Stauende graduell ("weiches Stauende") bzw. Stauende ist einsehbar ("unverdecktes Stauende"). Zudem wurde der erstmalige Zeitpunkt der Warnung ("3.5 km" vs. "1.5 km" vs. "0.3 km" vor Stauende) und die Warnpräzision ("präzise Warnung": Distanz zum Stauende wird angezeigt und regelmäßig aktualisiert vs. "unpräzise Warnung" ohne konkrete Distanzangabe) variiert. Außerdem wurden Stauenden in einer nicht-gewarnten Kontrollfahrt angefahren. Es wurde ein Bewertungskonzept für die Fahrsicherheit entwickelt, anhand dessen die eingeführten Warnkonzepte mittels Indikatoren für Längs- und Querregelung, Ereigniserkennung und Probandenbefragung verglichen werden können: (1) Die Rohdaten verschiedenartiger Indikatoren wurden in einem deskriptiven, graphischen und inferenzstatistischen Vorgehen interpretiert und (2) die so ermittelten Kennwerte wurden in eine integrierte statistische Auswertung mittels TOPSIS (Technique for Order Preference by Similarity to Ideal Solution), das einen standardisierten Vergleich verschiedener Warnalternativen ermöglicht, überführt. Dieses Bewertungskonzept wurde auf die in der Fahrsimulation aufgezeichneten Daten angewendet, so dass für die eingeführten Variationen der Stauendearten (Warnpräzision und Warndistanz) in Abhängigkeit der Verkehrsbedingung eine vergleichende Bewertung der Sicherheitswirkungen ermöglicht wurde. Durch eine ergänzende kritische Einordnung der Ergebnisse und des Versuchsaufbaus dienen die Ergebnisse als Entscheidungsunterstützung bei der Entwicklung und Einführung von Stauendewarnungen.
In a first step, we have examined approximately 23 000 single vehicle accidents within the Austrian National Statistics database. In a second step, we considered 15% of all fatal "running off the road" accidents that occurred in Austria in 2003. As a result, two accident categories were specified; "leaving the road without preceding manoeuvre" and "leaving the road with preceding manoeuvre". These two categories can be basically characterised by the vehicle- heading angle and its velocity angle. In this report, we further suggest theoretical approaches for the dimensioning of a safety zone, an area adjacent to the road free of fixed objects or dangerous slopes. We also show the link between the two accident categories mentioned above and the real world accidents analysed in detail. These observations also form the basis for the required length for safety devices. Finally, we summarise accident avoidance strategies.
Looking at the total of sum of fatal car accidents the number of single-vehicle accidents and particularly run-offroad (ROR) accidents are most frequent. In Austria on the Autobahn ROR accidents amounts to almost 45% of all fatal accidents, i.e. nearly every second fatal accident is caused by ROR accidents and interaction with infrastructure. Approximately 43 people were killed on Autobahns in ROR accidents with passenger cars. One possibility of protection against impacts with infrastructure is the use of guardrails. However, the initial element identified as a turned down terminal could become a dangerous impact object. These turned down terminals may lead a vehicle to roll over or the car "takes-off" when impacting the turned down guardrail. In many cases it is reported that the vehicle is jumping into road side objects such as traffic sign poles or overpasses. On average, nine people are killed in such accidents every year in Austria.
With an ever rising human life expectancy the share of elderly people in society is constantly rising. This leads to the fact that at the same rate the share of people with age related diseases such as dementia and poor eyesight taking part in traffic will rise and therefore traffic accidents caused by this group of people due to the disease will play an ever greater role. This Situation will be among the future challenges of road safety work. At present this study displays specific characteristics of accidents caused by elderly car drivers (aged 65 or higher) based on the analysis of the German In-Depth Accident Study GIDAS. Herein almost 1000 elderly car drivers were identified as accident participants in the years 2008 to 2011. The focus of this study lies on identifying special types of accidents which are caused by elderly drivers and on characterizing these types with the information gathered on scene and by interviewing the participants. The main evidence analyzed is the knowledge about the accident locality, the trajectories of the participants as well as the reasons for the occurrence of the accidents. Furthermore personal information such as the personal condition before the accident and driving purposes is used to identify patterns of contributing circumstances for accidents caused by elderly traffic participants.
This study aims to analyze spine injuries in motor vehicle accidents. Between 1985 and 2004 the Hannover accident research unit documented 18353 accidents. We identified 161 front passengers (0.53%) with cervical spine injuries, 84 (0.28%) with thoracic and 95 (0.31%) with lumbar injuries. Technical and medical data was reviewed. Patients" records were retrieved. X-rays were evaluated and fractures were classified according to the Magerl classification. 68% and 57% of thoracic and lumbar fractures occurred in accidents with multiple impacts. Delta-v was 50, 40 and 40 kph in passengers with cervical, thoracic and lumbar spine, resp. Passengers with spinal fractures frequently showed numerous concomitant injuries, e.g. additional vertebral fractures. The influence of seat belts and airbags is discussed. Patient work-up has to include a thorough investigation for additional injuries.
To elucidate the risk of pedestrians, bicycle and motorbike users, data of two accident research units from 1999 to 2014 were analysed in regard to demographic data, collision details, preclinical and clinical data using SPSS. 14.295 injured vulnerable road users were included. 92 out of 3610 pedestrians ("P", 2.5%), 90 out of 8307 bicyclists ("B", 1.1%) and 115 out of 4094 motorcycle users ("M", 2.8%) were diagnosed with spinal fractures. Thoracic fractures were most frequent ahead of lumbar and cervical fractures. Car collisions were most frequent mechanism (68, 62 and 36%). MAIS was 3.8, 2.8 and 3.2 for P, B and A with ISS 32, 16 and 23. AIS-head was 2.2, 1.3 and 1.5). Vulnerable road users are at significant risk for spine fractures. These are often associated with severe additional injuries, e.g. the head and a very high overall trauma severity (polytrauma).
The data situation for quantifying the proportion of accidents avoided by the introduction of active safety systems is incomplete, since there is generally no data available on the accidents avoided by the technology in question. In this paper, a split-register approach is suggested and compared with the classical case-control approach known from epidemiologic applications. Provided a set of assumptions hold, which can reasonably be made in such data situations, the split register approach allows inferences on the population accident risk. For both approaches the benefits of basing the analysis on the results of a logistic regression to adjust for confounding factors are outlined. The biasing effects of violating key assumptions are discussed and the split-register approach is demonstrated using the example of the active safety system ESP with data from the German in-depth accident study GIDAS.
Beijing, mit 11,4 Millionen Einwohnern, 563.690 Kraftfahrzeugen einschließlich der motorisierten Zweiräder aller Art, 7,4 Millionen Fahrrädern, 5.213 Bussen und einer U-Bahn-Linie, ist nicht nur eine alte, traditionsreiche Kaiserstadt im Herzen Chinas, sondern auch eine aufstrebende, geschäftige Millionenstadt Asiens, die von Tag zu Tag, dem wirtschaftlichen Aufschwung folgend, sich städtebaulich und verkehrlich wandelt. Trotz vielfältiger Umweltprobleme wird der Zuwachs an Mobilität positiv bewertet; dem tragen die Verantwortlichen Rechnung durch Ausbau der Infrastruktur sowohl des ÖPNV als auch des Individualverkehrs. Der vorliegende Artikel beschäftigt sich mit den Entwicklungen des Stadtverkehrs und vermittelt eine detaillierte Analyse des Unfallgeschehens; heute stirbt in Beijing täglich durchschnittlich ein Mensch im Straßenverkehr.
In Germany, in-depth accident investigations are carried out in the Hannover area since 1973. In 1999 a second region was added with surveys in Dresden and the surrounding area. Internationally, the acronym GIDAS (German In-Depth Accident Study) is commonly used for these surveys. Compared to many other countries, the sample sizes of the GIDAS surveys are much larger. The goal is to collect 1.000 accidents involving personal injuries per year and region. Data collection takes place by using a sampling procedure, which can be interpreted as a two-stage process with time intervals as primary units and accidents as secondary units. An important question is, to what extend these samples are representative for the target population from which they are drawn. Analyses show, for example, that accidents with persons killed or seriously injured are overrepresented in the samples compared to accidents with slightly injured persons. This means, that these data are subject to biases due to uncontrolled variation of sample inclusion probability. Therefore, appropriate weighting and expansion methods have to be applied in order to adjust or correct for these biases. The contribution describes the statistical and methodological principles underlying the GIDAS surveys with respect to sampling procedure, data collection and expansion. In addition, some suggestions regarding potential improvements of study design are made from a methodological point of view.
The main focus of the benefit estimation of advanced safety systems with a warning interface by simulation is on the driver. The driver is the only link between the algorithm of the safety system and the vehicle, which makes the setup of a driver model for such simulations very important. This paper describes an approach for the use of a statistical driver model in simulation. It also gives an outlook on further work on this topic. The build-up process of the model suffices with a distribution of reaction times and a distribution of reaction intensities. Both were combined in different scenarios for every driver. Each scenario has then a specific probability to occur. To use the statistical driver model, every accident scene has to be simulated with each driver scenario (combinations of reaction times and intensities). The results of the simulations are then combined regarding the probabilities to occur, which leads to an overall estimated benefit of the specific system. The model works with one or more equipped participants and delivers a range for the benefit of advanced safety systems with warning interfaces.
Ziel der Studie ist die Verkehrsbeteiligung der 3- bis 17-jährigen und die Darstellung eventueller Veränderungen im Straßenverkehrsverhalten der angesprochenen Personengruppe für den Erhebungszeitraum 1984/85 im Vergleich zum Erhebungszeitraum 1975/76. Der Darstellung der Ergebnisse (Entwicklung der Unfälle von Kindern und Jugendlichen seit 1975; generelle Verkehrsbeteiligung von Kindern und Jugendlichen; aktuelle Verkehrsbeteiligung der Kinder und Jugendlichen) folgen Vorschläge zur Ergreifung von Maßnahmen, wobei zwischen forschungsstrategischen Maßnahmen und sozial-technologischen Maßnahmen unterschieden wird.
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.
To determine whether the model "Accompanied driving from age 17" (AD17) contributes to improvement of young drivers' road safety, two large random samples of novice drivers drawn from the Central Register of Driving Licences (ZFER) held at the Federal Motor Transport Authority (KBA) were compared in terms of the rates of accident involvement and traffic offences at the start of their solo driving career. The samples comprised former participants in the AD17 model and novice drivers of the same age who had obtained a driving licence in the conventional manner immediately after their 18th birthday. Both analysis groups were contacted by post and asked to complete an online questionnaire. In response, 19,000 drivers reported on their first year of solo driving and on the occurrence of any accidents or traffic offences during this period. The analyses were repeated with two "silent" analysis groups comprising a total of 75,000 drivers, for whom any records of traffic offences were retrieved from the Central Register of Traffic Offenders (VZR), with a distinction being made between offences in connection with an accident and other offences. The AD17 model was introduced in all 16 German federal states between April 2004 and January 2008. By the end of 2009, almost one million novice drivers had participated in the model, and almost three-quarters of the target group - so-called "early beginners" who wished to commence solo driving immediately after reaching the age of 18 years - opted for the AD17 model. The phase of introduction of the model was associated with a temporary increase of around five per cent in the demand for driving licences from persons under 19 years of age. During the first year of solo driving, the rate of accident involvement for AD17 participants was 19 per cent lower and the rate of traffic offences 18 per cent lower than for drivers of the same age who had obtained their driving licence in the conventional manner. After adjustment for confounds (e.g. gender and vehicle availability), a reduction in accidents by 17 per cent and in traffic offences by 15 per cent remained as an effect attributable to the model. A comparison on the basis of the distances driven indicated 22 per cent fewer accidents and 20 per cent fewer traffic offences. The results are statistically significant and apply to both male and female drivers. The findings were confirmed in the replication study based on VZR data, with one exception: For female AD17 drivers, and here only for VZR-recorded offences excluding accidents, no significant reduction was found. On the other hand, the rate for female drivers is already lower than that of their male counterparts by three-quarters. Approximately 1,700 injury accidents were prevented by implementation of the model in 2009.
The "Seven Steps Method" is an analysis and classification system, which describes the human participation factors and their causes in the temporal sequence (from the perceptibility to concrete action errors) taking into consideration the logical sequence of individual basic functions. By means of the "seven steps" it is possible to describe the relevant human causes of accidents from persons involved in the accident in an economic way with a sufficient degree of exactitude, because the causes can be further differentiated in their value (e.g. diversion as external diversion with regard to impact due to surroundings) and their sub values (e.g. external diversion with regard to impact due to surroundings in the shape of a "capture" of the perception by a prominent object of the traffic environment). Theoretically it is possible that one or more causing moments can be assigned to a person involved in an accident in each of the "seven steps"; however it is also possible to sufficiently clarify the cause in only one level (examples for this are described). In the practice of accident investigation at the site of the accident, the sequence chart is also relevant. With its assistance the questioning of the people involved in an accident can be accomplished in a structured way by assigning a set of questions to each step.
This study is aimed to investigate the correlations of impact conditions and dynamic responses with the injuries and injury severity of child pedestrians by accident reconstruction. For this purpose, the pedestrian accident cases were selected from Sweden and Germany with detailed information about injuries, accident cars, and accident environment. The selected accident cases were reconstructed using mathematical models of pedestrian and passenger car. The pedestrian models were generated based on the height, weight, and age of the pedestrian involved in accidents. The car models were built up based on the corresponding accident car. The impact speeds in simulations were defined based on the reported data. The calculated physical quantities were analyzed to find the correlation with injury outcomes registered in the accident database. The reconstruction approaches are discussed in terms of data collection, estimating vehicle impact speeds, pedestrian moving speeds and initial posture, secondary ground impact, validity of the mathematical models, as well as impact biomechanics.
During the last 5 years, the number of cars fitted with side airbags has dramatically increased. They are now standard equipment, even on many smaller cars or less luxurious vehicles. While some side airbags offer thoracic protection alone, there are those that combine thoracic and head protection (of which most deploy from the seat). Other systems employ separate airbags for head and thorax protection, which are designed to be effective noticeably in a crash against a pole. This paper proposes an evaluation of the effectiveness of side airbags in preventing thoracic injuries to passenger car occupants involved in side crashes. First, the target population (who can take benefit of side airbag deployment and in what circumstances) is defined. Side airbags can be especially effective in cases of impacts on the door with intrusion at a certain impact speed. Then, an example case of a side impact with side airbag deployment is given were side airbag deployment is thought to have had a positive effect on injury outcome. A further case is presented where the impact configuration is likely to have reduced the effect of side airbag deployment on injury outcome. Finally, the estimation of side airbag effectiveness (in terms of additional occupant protection brought exclusively by the airbag) is proposed by comparing injury risk sustained by occupants in (more or less) similar cars (fitted or non fitted with airbags) because, during these years, car structure, and side airbag conception have considerably evolved. In-depth accident data from France, the UK and Germany has been collected. Out of 2,035 side impact accident cases available in the databases, we selected 435 occupants of passenger cars (built from 1998 onwards) involved in an injury accident between year 1998 and year 2004 for EES (Energy Equivalent Speed) values between 20km/h and 50km/h. The occupants, belted or not, were sat on the struck side, whatever the obstacle and type of accidents (intersection, loss of control, etc.). For multiple impact crashes, the side impact is assumed to be the more severe one. Passenger cars were fitted with (96) or without (339) side airbags. Most of the potential risk explanatory variables were correctly and reliably reported in the databases (velocity " impact zone " impact angle " occupant characteristics, etc.). The analysis compared injury risks for different levels of EES and different types of side airbags. A logistic regression model was also computed with injury variables (such as thoracic AIS 2+ or AIS 3+) as the dependant variable and other variables (including airbag type and EES) as explanatory injury risk factors. Results revealed statistically non-significant reductions in thoracic AIS 2+ and AIS 3+ injury risk in side airbag equipped cars in the impact violence range selected (odds ratio between 0.84 and 0.98 depending on types of airbags). The results are discussed. The non-significance is assumed to be due to a low number of cases. Statistical analysis for head injuries was not possible due to the low number of accident cases with passenger cars fitted with head airbags in the databases. Moreover, the discrepancies between the data coming from different countries (especially calculation of EES) might have introduced instability in the analysis.
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.
The objectives of this paper are the analysis of the accident risk of drivers brain pathologies (Mild Cognitive Impairment, Alzheimer- disease, and Parkinson- disease), and the investigation of the impact of driver distraction on the accident risk of patients with brain pathologies, through a driving simulator experiment. The three groups of patients are compared to a healthy group of similar demographics, with no brain pathology. In particular, 125 drivers of more than 55 years old (34 "controls"" and 91 "patients") went through a large driving simulator experimental process, in which incidents were scheduled to occur. They drove in rural and urban areas, in low and high traffic volumes and in three distraction conditions (undistracted driving, conversation with a passenger and conversation through a mobile phone). The statistical analyses indicated several interesting findings; brain pathologies affect significantly accident risk and distraction affects more the groups of patients than the control one.