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Rapid human visual perception: Lags and costs in processing features of multiple objects

With a view toward understanding how the brain manages incoming visual information through coordination of perception, attention, and cognition, you will use behavioral psychophysic more...

Supervisor(s): Holcombe, Alex (Professor)

Understanding visual experience: The visual perception of 3D shape, material, and colour

My lab is dedicated to understanding what shapes our visual experience of the world. Our goal is to discover the information that the brain uses to extract meaningful properties more...

Supervisor(s): Anderson, Barton (Professor)

Cross-adaptation of visual and auditory motion and psychophysical receptive fields for multisensory motion

This project will build on recent work in our lab using a genetic algorithm (GA) to determine spatiotemporal receptive fields for translating visual motion. Pilot work shows the the more...

Supervisor(s): Alais, David (Professor)

Signal processing in the visual system

Research in my laboratory focuses on signal processing in the visual system. I use three methodologies - computational modelling, the analysis of existing neuronal data, and human p more...

Supervisor(s): Freeman, Alan (Dr)

Visual Communication in Space and Time

Colour in nature is a central channel of communication, though its study has progressed without consideration of the inherent fluidity of information exchange.  This project se more...

Supervisor(s): White, Thomas (Dr)

Whole-system robotic perception: From photons to actions

This work will build two-way information flows between the imaging, mapping, and control systems of a robot, allowing operation in previously inaccessible dynamic and interactive sp more...

Supervisor(s): Dansereau, Donald (Dr)

Brain reading

This project seeks to elucidate the connection between brain and behaviour. To this end, students will use human neuroimaging experiments (fMRI, MEG, EEG) to measure how the brain r more...

Supervisor(s): Carlson, Thomas (Associate Professor)

Low-latency robotic imaging for fast driving, flight and manipulation

This work will develop new low-latency visual perception systems, enabling unprecedented levels of robotic autonomy where response time is critical. more...

Supervisor(s): Dansereau, Donald (Dr)

Developing new imaging devices to help robots see and do

This work will develop specialised imaging devices to improve robotic perception in challenging conditions. more...

Supervisor(s): Dansereau, Donald (Dr)