Fleet safety in the nonprofit sector. This project offers three unique opportunities. First, this research will improve the safety of work-related drivers within the nonprofit sector by implementing a multilevel fleet safety program addressing the key aspects that influence driving behaviour. Second, this research will address the safety of those volunteering their services through nonprofit agencies by developing regulatory frameworks to protect them from personal civil liability. Third, throug ....Fleet safety in the nonprofit sector. This project offers three unique opportunities. First, this research will improve the safety of work-related drivers within the nonprofit sector by implementing a multilevel fleet safety program addressing the key aspects that influence driving behaviour. Second, this research will address the safety of those volunteering their services through nonprofit agencies by developing regulatory frameworks to protect them from personal civil liability. Third, through achieving successful safety outcomes, this research will reduce the unnecessary costs associated with work-related crashes in a sector least able to afford such services.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882942
Funder
Australian Research Council
Funding Amount
$350,000.00
Summary
Advanced Driving Simulator for Injury Prevention Research. Tragically road crashes are still the major cause of traumatic death and injury in Australia with an economic and social burden estimated at over $17 billion per year. This internationally recognised research team proposes to use a world leading advanced driving simulator for experimental studies to reduce the carnage and loss on Australian roads. It is vital that Australian researchers are granted access to the highest possible standa ....Advanced Driving Simulator for Injury Prevention Research. Tragically road crashes are still the major cause of traumatic death and injury in Australia with an economic and social burden estimated at over $17 billion per year. This internationally recognised research team proposes to use a world leading advanced driving simulator for experimental studies to reduce the carnage and loss on Australian roads. It is vital that Australian researchers are granted access to the highest possible standard of driving simulator technology to facilitate state-of-the-art research that could not otherwise be undertaken on open road settings due to ethical and safety reasons and cost limitations. This advanced driving simulator will support regulations regarding automotive safety.Read moreRead less
Ubiquitous Data Mining and Situation-Awareness for Improving Road Safety. Road crashes cost Australia $15 billion a year and 95% of these are attributed to drivers' errors. Risk assessment is at the core of the road crash problem. This innovative project develops a computational model that analyses situational driver behaviour and proposes real-time countermeasures to minimise fatalities/casualties. We develop and evaluate a novel Intelligent Transport System that assesses and acts upon drivers ....Ubiquitous Data Mining and Situation-Awareness for Improving Road Safety. Road crashes cost Australia $15 billion a year and 95% of these are attributed to drivers' errors. Risk assessment is at the core of the road crash problem. This innovative project develops a computational model that analyses situational driver behaviour and proposes real-time countermeasures to minimise fatalities/casualties. We develop and evaluate a novel Intelligent Transport System that assesses and acts upon drivers' risks. This multidisciplinary project integrates recent models of data mining, context-awareness computing, physiological metrics, ubiquitous computing, driver distraction models, risk perception and road safety. This project yields a new understanding of driver behaviour and countermeasures in risk situations.Read moreRead less
Safety in the Heavy Vehicle Industry: A Collaborative Response. The management and regulation of heavy vehicles, particularly in relation to safety, is recognised as an urgent issue at all levels of government across Australia. In the absence of research that identifies the key determinants of heavy vehicle crashes, countermeasures will continue to be based on anecdote. The proposed study will determine the role key risk factors, namely scheduling and sleep-related factors, play in heavy vehicl ....Safety in the Heavy Vehicle Industry: A Collaborative Response. The management and regulation of heavy vehicles, particularly in relation to safety, is recognised as an urgent issue at all levels of government across Australia. In the absence of research that identifies the key determinants of heavy vehicle crashes, countermeasures will continue to be based on anecdote. The proposed study will determine the role key risk factors, namely scheduling and sleep-related factors, play in heavy vehicle crashes and will identify cost-effective strategies to reduce the growing economic burden associated with these crashes.Read moreRead less
Improving child safety in cars. This study aims to reduce the number of children killed and injured as passengers in car crashes. These deaths and injuries currently impose huge social and emotional costs on the community and the families involved. Any injury will compromise child health and development, and many result in temporary or long-term disability and care needs. From an economic viewpoint alone, child passenger fatalities and injuries have been conservatively estimated to cost in ex ....Improving child safety in cars. This study aims to reduce the number of children killed and injured as passengers in car crashes. These deaths and injuries currently impose huge social and emotional costs on the community and the families involved. Any injury will compromise child health and development, and many result in temporary or long-term disability and care needs. From an economic viewpoint alone, child passenger fatalities and injuries have been conservatively estimated to cost in excess of $400 million per year. Thus, this research will contribute to both social and economic savings and contribute to better health outcomes for the nation's childrenRead moreRead less
Best Fit Interventions in Fleet Safety. Work related vehicle crashes account for 20% of workplace fatalities and 13% of the national road toll. Industry often, unsuccessfully, initiates single intervention strategies to address all fleet related road safety issues. However, road safety research suggests that approaches need to be multi-dimensional. CARRS-Q (a leading centre in road safety research) in conjunction with Telstra (who operate Australia's largest national vehicle fleet) intend t ....Best Fit Interventions in Fleet Safety. Work related vehicle crashes account for 20% of workplace fatalities and 13% of the national road toll. Industry often, unsuccessfully, initiates single intervention strategies to address all fleet related road safety issues. However, road safety research suggests that approaches need to be multi-dimensional. CARRS-Q (a leading centre in road safety research) in conjunction with Telstra (who operate Australia's largest national vehicle fleet) intend to develop a multi-dimensional approach to improving fleet safety and establish the true industry costs of fleet related crashes. This research will enable industry to reduce work place death and injury resulting in socio/economic advantage to Australia. Read moreRead less
Work related road safety countermeasures in a large fleet (QFleet). Despite accounting for more than 20% of the road crashes, relatively little research has been conducted on fleet safety in Australia. This research will develop guidelines for current best practice and design, implement and evaluate several new countermeasures. More importantly, it will develop a comprehensive model for future design, implementation and evaluation of fleet safety that will extend the frontier of knowledge in cra ....Work related road safety countermeasures in a large fleet (QFleet). Despite accounting for more than 20% of the road crashes, relatively little research has been conducted on fleet safety in Australia. This research will develop guidelines for current best practice and design, implement and evaluate several new countermeasures. More importantly, it will develop a comprehensive model for future design, implementation and evaluation of fleet safety that will extend the frontier of knowledge in crash analysis and prevention. By working closely with QFleet, current fleet safety thinking will be advanced to reduce the frequency and severity of road crashes thereby reducing road trauma and increasing business effectiveness.Read moreRead less
Improving Road Safety and Driver Security: The Case of High Risk Fleet (Taxi) Drivers in Australia. Road crashes constitute a major cause of death and injury in Australia and taxis have a 22 times higher crash rate compared to private passenger vehicles. In addition to their high crash risks, 1/3 of all taxi drivers have experienced physical assaults. This innovative study will examine the circumstances that contribute toward taxi crashes and assaults on drivers and more importantly, it will des ....Improving Road Safety and Driver Security: The Case of High Risk Fleet (Taxi) Drivers in Australia. Road crashes constitute a major cause of death and injury in Australia and taxis have a 22 times higher crash rate compared to private passenger vehicles. In addition to their high crash risks, 1/3 of all taxi drivers have experienced physical assaults. This innovative study will examine the circumstances that contribute toward taxi crashes and assaults on drivers and more importantly, it will design, implement and evaluate a program of countermeasures to improve the safety and security of taxi drivers, which will contribute significantly toward reducing the truma related to road crashes in Australia and assaults on public transport drivers.Read moreRead less
Rod-cone interaction under mesopic illumination. Visual function and performance can be degraded under dim light levels. This occurs in many indoor settings, emergency and traffic lighting conditions. Approximately 45% of all Australian traffic fatalities occur under dim light. The research program uses a frontier technology to determine how vision is degraded under dim lighting and provide accurate parameters to better design mesopic lighting environments to maximize visual function and perform ....Rod-cone interaction under mesopic illumination. Visual function and performance can be degraded under dim light levels. This occurs in many indoor settings, emergency and traffic lighting conditions. Approximately 45% of all Australian traffic fatalities occur under dim light. The research program uses a frontier technology to determine how vision is degraded under dim lighting and provide accurate parameters to better design mesopic lighting environments to maximize visual function and performance. This work will help to evaluate new energy-efficient lighting systems and optimise traffic lighting for early recognition of obstacles and dangerous situations. Read moreRead less
Psychophysical Assessment of Receptoral and Post-Receptoral Visual Function. Visual function and performance can be degraded under dim light levels. This occurs in many indoor settings, emergency lighting and road traffic lighting conditions. Approximately 45% of all Australian road traffic fatalities occur under dim lighting conditions. My data will be unique, as it will provide accurate parameters to better design mesopic lighting environments to maximize visual function and performance. This ....Psychophysical Assessment of Receptoral and Post-Receptoral Visual Function. Visual function and performance can be degraded under dim light levels. This occurs in many indoor settings, emergency lighting and road traffic lighting conditions. Approximately 45% of all Australian road traffic fatalities occur under dim lighting conditions. My data will be unique, as it will provide accurate parameters to better design mesopic lighting environments to maximize visual function and performance. This work will help to optimise road traffic lighting for the early recognition of obstacles and dangerous situations. The research program will make important scientific contributions to understanding human visual function and performance at dim light levels.Read moreRead less