Automated vehicles have the potential to transform road safety.
But there are many unknowns associated with how drivers will interact with automated vehicles, especially at moments requiring manual resumption of vehicle control. The ultimate success of automated vehicles will depend on drivers’ trust in them and on how people choose to use and interact with them.
This aim of this research is to explore three issues critical to the successful deployment of automated vehicles:
- Factors influencing driver choice of automated vehicle control.
- Interactions between automated and manually controlled vehicles.
- Driver detection, recognition, and reaction to automated vehicle system failures.
The University of New South Wales and the University of Sydney were awarded an Australian Research Council Linkage Project Grant as well as support from the Commission to undertake this project.
As the research is ongoing, a status update will be uploaded when available.
Technologies to support semi and fully automated driving are progressively emerging among the vehicle fleet.
The aim of this research is to document two trials planned elsewhere in Australia and proposes a trial of Lane Departure Warning Systems (LDWS) on the regional WA road network.
Road safety benefit:
This research provides a background on the current uptake of automated vehicles within Australia and a fit for purpose on-road trial of LDWS in WA.
Autonomous vehicles and the readiness of Western Australian roads
This aim of the research was to examine the effect of fleet vehicle purchasing on the overall safety profile of vehicles in Western Australia.
This research profiled 2006-2009 crash data and 2006-2012 registration data for West Australian passenger vehicles by fleet type: metropolitan corporate, rural corporate, government and private. It also examined crashes and occupant injuries by road user, for the 2012 registered new vehicles over 22 years as a baseline for evaluating different fleet purchasing scenarios.
The WA corporate and government fleet was found to have an over representation of aggressive vehicle market groups and to be growing in proportion of all registrations. The safety implications for both for the fleet drivers and the general public on transfer to private ownership were addressed by evaluating alternative vehicle purchasing scenarios.
The best outcome in terms of reductions in the societal cost of crashes and occupant injuries was found with the scenario which mandated 100% fitment of forward collision and autonomous emergency braking systems operating at all speeds to fleet vehicles. This scenario produced societal savings of $117 million and prevented serious and fatal injuries to over 200 road users.
The best outcomes that came within fleet buyer break-even costs were vehicle substitution scenarios. Purchasing of large vehicles instead of medium and large SUVs in metropolitan areas and medium SUVs instead of large SUVs in rural areas, not only was estimated to save society $17 million in crash related costs but also was estimated to be purchased for less than corporate and government fleets under current purchasing practices.
Road safety benefit:
The research was beneficial to Government in that the research provides underpinning modelling to support improvements in the safety of vehicles in the fleet. This research has identified a set of priorities on which the WA government can focus to maximise the future safety of the WA vehicle fleet. Forward collision detection and mitigation technologies that operate at all speeds is the technology of those considered that offers the highest potential for reducing serious trauma and community costs in WA.
Improving two critical areas of fleet purchasing behaviour also offers the potential for significant road trauma savings in WA:
- Purchase of vehicles with the highest possible crash worthiness is the first priority.
- Reducing the aggressivity of the commercial SUV fleet through encouraging or incentivising downsizing of the SUV fleet or substitution for large cars and making good aggressivity performance a priority in the purchasing process.
Modelling the road trauma effects of potential vehicle safety improvements in the Western Australian light passenger vehicle fleet
The Vehicle Safety Research Group is a consortium of 16 government road authorities and motoring clubs from Australia and New Zealand, with representation by the Commission.
The consortium oversees a major program of research undertaken by the Monash University Accident Research Centre focused on vehicle safety monitoring and evaluation.
A primary focus of the Vehicle Safety Research Group program has been developing consumer advice on vehicle safety that rated the relative safety performance of light vehicles (Used Car Safety Ratings). The ratings system developed covers both the role of the vehicle in determining injury outcomes in the event of a crash (secondary safety) and, more recently, the contribution of vehicle design and specification to crash risk (primary safety). Secondary safety assessment covers not only how the vehicle protects its own occupants from injury in a crash (crash worthiness), but also the injury risk posed to other road users with which the vehicle collides (aggressivity).
Analysis has also been extended to look at average ratings by year of vehicle manufacture. This analysis clearly showed the effects of the introduction of Australia Design Rules (ADRs) – mandatory safety equipment and performance standards – in improving occupant protection performance and provided a mechanism for assessing the impacts of vehicle safety policy changes more broadly.
The VSRG also has a dedicated focus on research across the following themes:
- Ratings and fleet analysis.
- Evaluation of new technology.
- Vulnerable road users.
- Fleet modelling.
- Policy development & advocacy.
A list of research publications can be accessed on their website.
The aim of this research was to investigate drivers’ knowledges, attitudes towards and use of Advanced Driver Assist pre-crash technologies.
The research found:
- Most of the drivers surveyed had used pre-crash the driver assist technology fitted in their vehicle and believed it was helpful, especially Blind Spot Monitoring, Lane Departure Warning, Lane Keep Assist, Forward Collision Warning and Adaptive Cruise Control.
- However, some technologies were better received than others with the least trusted, and most likely to be turned off being Lane Keep Assist, Forward Collision Warning and Attention Assist.
Road safety benefit:
The research was beneficial to the extent that Government received a report giving an overview of Western Australian drivers’ experiences with and attitudes towards their Advances Driver Assist pre-crash technologies. Although most drivers found the technologies to be helpful the report recommended developing initiatives for promotion of the technologies and further research to explore in depth drivers’ concerns regarding the technologies.
Drivers’ use of advanced driver assistance technologies