VIDEO: CAVs and the community
Watch the recording of our ‘Understanding the community’s desire to interact with Connected and Automated Vehicles’ webinar.
What C-ITS technologies for national deployment in Australia?
A comparative assessment of C-ITS technologies & international standards, helping inform future decisions for nationally consistent approaches for deployment.
Xiaojie (Zoe) Lin – iMOVE PhD student
A profile on Xiaojie Lin and her PhD, with background and reflection on her project, ‘Strengthening cybersecurity in vehicular networks’.
Development and use of cooperative perception for CAVs
Cooperative perception is an emerging and promising technology for CAVs. Its further development has been the focus of a recently completed iMOVE project.
Strengthening cybersecurity in vehicular networks
This project will develop new highly efficient cybersecurity schemes to reverse engineer vehicular network communications.
Road safety lift: CAVs can now see around corners
Australian scientists have made a breakthrough in cooperative perception tests, showing that CAVs can now see hidden pedestrians, even through buildings.
50 iMOVE projects underway
iMOVE now has 50 projects either on the go or completed. Find out more about the latest 10, who’s leading them, and where they are taking place.
Connected Vehicle Pilot: Safety and user perceptions evaluation
The build of standardised analysis methodology to evaluate the safety benefits of C-ITS, guiding transport agencies in regard to supporting its development.
World-leading connected vehicle trial begins in Ipswich
The Ipswich Connected Vehicle Pilot sees hundreds of cars fitted with technology to allow them to communicate with each other and with road infrastructure.
iMOVE projects 31 to 40: Powering on
iMOVE has hit the 40 project mark. Find out more about the project numbers 31 to 40, who’s leading them, and where they are taking place.
Vehicular network architecture using the 5G standard
This PhD research concentrates on the development of an ad hoc vehicular network architecture using the PC5 interface of the LTE standard.
Enhanced vehicle detection at traffic signals and on smart freeways
A project looking at vehicle detection technologies for traffic signal control and smart freeway operations, using comparative analysis and field trials.
Accelerating the uptake of C-ITS technologies in Australia
Safety and congestion are two of the key challenges on our networks and there is strong potential for connectivity and C-ITS to help.
Vehicle to bicycle (V2B) safety interactions using 4G mobile devices
This proof-of-concept project aims to develop a Vehicle to Bicycle (V2B) communication system to reduce collisions and enhance driver awareness of cyclists.
Digitalisation of Australian buses: What does that look like?
Digitalisation of buses offers safety and operational improvements, and enhances the overall passenger experience.
Like to carry out some CAV research but need a car and research team?
Courtesy of the Queensland Department of Transport and Main Roads, QUT’s ZOE CAV and its research team are available for interested parties.