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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)

MultiPlane Graph Embedding (2.5D Graph Embeddability)

The mathematics of embeddings of graphs in three dimensions with constraints using a set of 2D planes, called MultiPlane or 2.5D representation. more...

Supervisor(s): Hong, Seok-Hee (Professor)

Mechanism and control of diamond and graphene-based nanostructures using direct electric-field and laser excitation

To investigate the sculpting of carbon-based structures through controlled electric field and/or laser excitation, through first-principles based calculations. more...

Supervisor(s): Stampfl, Catherine (Professor)

Brain Network Structure and Dynamics

This research area is concerned with developing better understanding of the structure of the brain, especially through modeling the dynamics and interactions of its neuronal network more...

Supervisor(s): Robinson, Peter (Professor)

Drawing Algorithms for Almost Planar Graphs

The project aims to develop graph drawing algorithms under a number of constraints related to planarity. more...

Supervisor(s): Hong, Seok-Hee (Professor)

Algorithms for Drawing Non-Planar Graphs in Three Dimensions

The project aims to design and implement new graph drawing algorithms for non-planar graphs in three dimensions, under a number of new design constraints. more...

Supervisor(s): Hong, Seok-Hee (Professor)

Scalable Visual Analytics

Visual analytics is the science of analytical reasoning facilitated by interactive visual interface. This project aims to design and evaluate new visual representations and interact more...

Supervisor(s): Hong, Seok-Hee (Professor)

Visualization and Analysis of Large and Complex Biological Networks and Social Networks

This project aims to design, implement and evaluate new analysis, visualization and interaction techniques for large and complex networks such as social networks and biological netw more...

Supervisor(s): Hong, Seok-Hee (Professor)

2.5D Graph Navigation and Interaction Techniques

This project aim to design, implement and evaluate new methods and algorithms for effective and efficient navigation and interaction with 2.5D graph layout. more...

Supervisor(s): Hong, Seok-Hee (Professor)