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Mapping 2D Images to 3D Shape

The future of personal audio devices relies on the ability to extract 3D ear shape from 2D photographic images using morphable models of ear shape and techniques of multiple view ge more...

Supervisor(s): Jin, Craig (Associate Professor), Leong, Philip (Professor), McEwan, Alistair (Professor)

Modelling the hardening behaviour of Magnesium alloys using 3D disloation dynamic simulations

This project aims to develop a 3D dislocation dynamics model to understand the hardening mechanisms at play during the deformation alloys containing precipitates more...

Supervisor(s): Proust, Gwenaelle (Dr)

Impedance tomography for cardiac imaging: high speed tomography

This project will involve the development of a high speed 3D Electrical Impedance Tomography device for chest imaging to determine pulmonary and cardiac function. more...

Supervisor(s): McEwan, Alistair (Professor), Jin, Craig (Associate Professor), Leong, Philip (Professor)

Radar modeling of large mining vehicles

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Supervisor(s): Brooker, Graham (Dr)

Statistical models of ear shape and ear acoustics

The future of personal audio devices relies on statistical shape analysis of ears and ear acoustics. We have the world’s largest database of head-ear meshes together with ear more...

Supervisor(s): Jin, Craig (Associate Professor), Leong, Philip (Professor), McEwan, Alistair (Professor)

Combined, Correlative and Integrated Microscopy: Unraveling Biomolecular Structure-Function Activities in Cancer & Transendothelial Transport

Our team seek to understand the spatial and temporal mechanisms involved in the onset and progress of colorectal cancer by using state-of-the-art multidimensional microscopy and 3-D more...

Supervisor(s): Braet, Filip (Associate Professor)

Targeting melanoma secretory pathways.

Cancer cells secrete a variety of factors that induce tumour growth, metastasis, angiogenesis, and alter the tumour stroma to create a more favourable microenviroment. This project more...

Supervisor(s): Weninger , Wolfgang (Professor), Beaumont, Kimberley (Dr)

Polymers for Medical Device Engineering: Laser and Plasma Interactions

Exciting APA (Industry) scholarship on an ARC Linkage project involving hermetic bonding of polymers. Applicants must be Australian or New Zealand citizens or Australian permanent r more...

Supervisor(s): McKenzie, David (Professor)

Plasmonics for Protein Attachment

Plasmonics will be used in combination with ellipsometry to investigate the attachment of biomolecules to surfaces. The structure of the attached layers will be investigated using n more...

Supervisor(s): McKenzie, David (Professor)

Magnetic resonance micro-imaging of human and animal tissue.

Use of magnetic resonance microimaging of human and animal tissue to study disease processes. more...

Supervisor(s): Bourne, Roger (Dr)