Innovative and human-centred design in underground coalmining: a new concept vehicle for safe personnel transport. Australian coalminers commute daily on a system of underground roads to the ‘longwall’, the site where their work can begin, in vehicles that are primitive by aboveground standards. These current vehicles contribute to short- and long-term injuries amongst mining personnel. This project will develop benchmark standards for an innovative underground personnel carrier that promotes a ....Innovative and human-centred design in underground coalmining: a new concept vehicle for safe personnel transport. Australian coalminers commute daily on a system of underground roads to the ‘longwall’, the site where their work can begin, in vehicles that are primitive by aboveground standards. These current vehicles contribute to short- and long-term injuries amongst mining personnel. This project will develop benchmark standards for an innovative underground personnel carrier that promotes a safer and healthier working environment by contributing to reduced injury rates and ensuring the comfort of workers. This project contributes to the health and welfare of coalminers in regional Australia and in the international mining sector through innovative and ’human-centred’ design.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0883093
Funder
Australian Research Council
Funding Amount
$285,000.00
Summary
A Haptically enabled Universal Motion Simulator Research Facility. The proposed universal motion simulator research facility will enable to develop a better understanding of issues involved in ergonomic and safe vehicle designs and provides opportunities to improve Australia's international competitiveness and economic sustainability through innovations in the manufacturing and transport sectors. This universal motion simulator will provide opportunity to extend our understanding of operator con ....A Haptically enabled Universal Motion Simulator Research Facility. The proposed universal motion simulator research facility will enable to develop a better understanding of issues involved in ergonomic and safe vehicle designs and provides opportunities to improve Australia's international competitiveness and economic sustainability through innovations in the manufacturing and transport sectors. This universal motion simulator will provide opportunity to extend our understanding of operator controlled devices, such as cars and mining machinery, and to develop effective strategies to reduce the risk of vehicle accidents.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
Safety management system for heavy vehicle transport. Crashes involving heavy vehicles result in around 330 deaths, over 3000 serious injuries annually, and cost over $6 billion per year. Trucks deliver 72% of Australia's total freight. The quantity delivered by trucks has increased by 40% over a decade and will double over the next 20 years. Conservatively the transport industry contributes about 5.6% to GDP and employs nearly 5% of the workforce. Safe transport is crucial for Australia's heal ....Safety management system for heavy vehicle transport. Crashes involving heavy vehicles result in around 330 deaths, over 3000 serious injuries annually, and cost over $6 billion per year. Trucks deliver 72% of Australia's total freight. The quantity delivered by trucks has increased by 40% over a decade and will double over the next 20 years. Conservatively the transport industry contributes about 5.6% to GDP and employs nearly 5% of the workforce. Safe transport is crucial for Australia's health and economic recovery. If a 10% reduction in casualty truck crashes were to result from this study, the cost benefit ratio would be around 200 to 1.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0228900
Funder
Australian Research Council
Funding Amount
$603,000.00
Summary
Testing facility for heavily loaded bridge and barrier systems. Government and industry are increasing truck masses from current single articulated 42.5 tonne trucks to 160 tonne multi-bogie trucks. This will provide Australia with over $1 billion of potential benefits and an efficient and competitive transport industry. To capture these benefits and further progress Australia's economy, considerable collaborative research on a number of fronts must be carried out investigating how bridges and b ....Testing facility for heavily loaded bridge and barrier systems. Government and industry are increasing truck masses from current single articulated 42.5 tonne trucks to 160 tonne multi-bogie trucks. This will provide Australia with over $1 billion of potential benefits and an efficient and competitive transport industry. To capture these benefits and further progress Australia's economy, considerable collaborative research on a number of fronts must be carried out investigating how bridges and barriers can perform safely when subjected to very heavy traffic and impact loads under laboratory and typical service conditions. This application seeks funds for establishing a unique hi-tech testing facility in Australia vital for advancing such infrastructure technology.Read moreRead less
Assessing the full impacts of high efficiency heavy vehicles in urban traffic networks using new analytical tools. Significant economic benefits result from new innovative heavy vehicles, which are able to carry up to twice the payload of standard semi-trailers. In addition, those vehicles have the potential to reduce overall accidents and evironmental degradation. Those benefits need to be traded-off against the impacts on other road users. This research will improve the operation of such ve ....Assessing the full impacts of high efficiency heavy vehicles in urban traffic networks using new analytical tools. Significant economic benefits result from new innovative heavy vehicles, which are able to carry up to twice the payload of standard semi-trailers. In addition, those vehicles have the potential to reduce overall accidents and evironmental degradation. Those benefits need to be traded-off against the impacts on other road users. This research will improve the operation of such vehicles in regional centres by producing: (1) an assessment methodology to deal with options for network efficiency gains which will capture the full impacts; and (2) a computer modelling tool based on fundamental research to quantify those impacts, in terms of delays and accident rates.Read moreRead less
Evaluation of profile edge markings as a road safety countermeasure: Analysis of crash statistics and on-road study of driver behaviour and attitudes. Fatigue contributes to 20% of fatal car crashes. Profile line-marking (PLM) aims to reduce fatigue-related crashes by alerting drivers when they begin veering off the road. Substantial stretches are laid annually Australia-wide, although evaluations of PLM have been unsophisticated or flawed. We aim to improve understanding of PLM impacts by inve ....Evaluation of profile edge markings as a road safety countermeasure: Analysis of crash statistics and on-road study of driver behaviour and attitudes. Fatigue contributes to 20% of fatal car crashes. Profile line-marking (PLM) aims to reduce fatigue-related crashes by alerting drivers when they begin veering off the road. Substantial stretches are laid annually Australia-wide, although evaluations of PLM have been unsophisticated or flawed. We aim to improve understanding of PLM impacts by investigating: 1)beliefs/attitudes regarding PLM (e.g. "PLM damages cars"); 2)whether road-edge PLM increases head-on crashes; 3)the efficacy of PLM with more widely spaced "ribs", with and without separate raised pavement markers; 4)underlying mechanisms (e.g. reducing fatigue, increasing visibility during night/wet) in order to improve the efficacy and efficiency of PLM use.Read moreRead less
Developing Contemporary Driving Risk Assessment Tools to Improve Fleet Safety. The development of effective driving risk management tools will provide valuable insight into methods to reduce a significant community and national problem, as work-related road crashes cost Australia $15 billion a year. Importantly, the project has the potential to benefit both urban and rural areas of Queensland and Australia, as road crashes are a national problem. The research study also has the potential to cr ....Developing Contemporary Driving Risk Assessment Tools to Improve Fleet Safety. The development of effective driving risk management tools will provide valuable insight into methods to reduce a significant community and national problem, as work-related road crashes cost Australia $15 billion a year. Importantly, the project has the potential to benefit both urban and rural areas of Queensland and Australia, as road crashes are a national problem. The research study also has the potential to create business cost savings from reductions in productivity loss and medical expenses, as well as flow through to the general population in terms of better (a) fleet management, and (b) driver attitudes and behaviour.Read moreRead less
Protecting Occupants in Vehicle Rollover Crashes. This project addresses a public health issue involving rollover crashes. It will help prevent 340 deaths, 6000 injuries and save $3.6 billion annually in Australia and many fold this number internationally. A dynamic rollover crashworthiness test protocol, that ensures efficient and economical vehicle rollover protection systems are designed and manufactured, will be provided to consumer and regulatory bodies to consider and implement. In additio ....Protecting Occupants in Vehicle Rollover Crashes. This project addresses a public health issue involving rollover crashes. It will help prevent 340 deaths, 6000 injuries and save $3.6 billion annually in Australia and many fold this number internationally. A dynamic rollover crashworthiness test protocol, that ensures efficient and economical vehicle rollover protection systems are designed and manufactured, will be provided to consumer and regulatory bodies to consider and implement. In addition, much needed Occupational Health & Safety information regarding vehicle rollover crashworthiness, which provide a safe work place environment for professional drivers and employees using vehicles, will be supplied to industry fleet managers, defence and emergency services.Read moreRead less