TYPE OF SUPPORT
Research Background
The project aims to develop advanced quantum-based modelling and optimisation solutions for transport and mobility systems in preparation for the Brisbane 2032 games and long-term urban mobility.
Leveraging expertise in quantum computing, transport modelling, and optimisation, the project seeks to address complex challenges in traffic flow, route optimisation, and multi-modal transport network design to improve efficiency, sustainability, and resilience.
QCIF Role
QCIF contributes as a project advisory partner, providing strategic guidance and technical expertise in quantum computing applications for large-scale optimisation and modelling tasks in transport systems. QCIF's role includes:
Advisory on integration of quantum algorithms for transport optimisation models (simple OD corridor models to complex BMAM frameworks).
Providing HPC and cloud computing resources to support model training, simulation, and testing.
Engaging with project partners to align technical approaches with Queensland's strategic transport and mobility objectives for the Brisbane 2032 games.
Ensuring secure and scalable architecture for computational experiments, leveraging QCIF’s infrastructure expertise.
Participation in project governance and milestone reviews.
Research Outcome & Impact
The project will deliver next-generation quantum-enhanced modelling tools for transport optimisation, capable of tackling both simple and highly complex mobility problems.
Expected outcomes include reduced congestion, improved travel time reliability, and more sustainable urban transport solutions, contributing to a smarter, more connected Brisbane in the lead-up to and beyond the 2032 Olympics.
We’re excited to pioneer quantum-powered solutions that will reshape transport for Brisbane 2032 and beyond, making mobility smarter, faster, and more sustainable.
Dr Moji Ghadimi, Head of AI & Quantum Algorithms, QCIF
