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Time-series biomarkers of neurological disorders

This research will develop a new machine learning framework for finding and quantifying patterns of brain dynamics that distinguish patients with brain disorders from healthy contro more...

Supervisor(s): Fulcher, Ben (Dr)

Highly comparative time-series analysis

This research involves developing new methods for time-series analysis based on a new analytic framework for understanding structure in time series. more...

Supervisor(s): Fulcher, Ben (Dr)

Inferring the dimensionality of dynamical systems automatically using machine learning

This research will develop methods to infer the dimensionality of a dynamical system automatically, by adapting dimensionality reduction methods to high-dimensional time-series feat more...

Supervisor(s): Fulcher, Ben (Dr)

REBOUND EFFECTS AND ADDITIONALITY IN CARBON FOOTPRINTS OF GLOBAL TOURISM

This project will employ multi-region input-output analysis (Isard 1951; Leontief 1953) and a comprehensive global database (Lenzen et al. 2012; Lenzen et al. 2013; Lenzen et al. 20 more...

Supervisor(s): Lenzen, Manfred (Professor), Malik, Arunima (Dr)

UNVEILING DRIVERS AND FUTURE SCENARIOS OF THE CARBON FOOTPRINT OF GLOBAL TOURISM

This project will employ multi-region input-output analysis (Isard 1951; Leontief 1953), structural decomposition analysis and a comprehensive global database (Lenzen et al. 2012; more...

Supervisor(s): Malik, Arunima (Dr), Lenzen, Manfred (Professor)

ASSESSING THE SUSTAINABILITY OF GLOBAL TOURISM FROM SOCIAL, ENVIRONMENTAL AND ECONOMIC PERSPECTIVES

This project will employ multi-region input-output analysis (Isard 1951; Leontief 1953) and a comprehensive global database (Lenzen et al. 2012a; Lenzen et al. 2013; Lenzen et al. 2 more...

Supervisor(s): Malik, Arunima (Dr), Lenzen, Manfred (Professor)

Deconstructing the Galaxy - in search of giant waves

For the first time, we are able to probe the Milky Way in 6 dimensions - i.e. 3D spatial position, 3D kinematic motion - for millions, even billions of stars.  We can slice the more...

Supervisor(s): Bland-Hawthorn, Joss (Professor)

Nonlinear integrated photonics

Professor Benjamin Eggleton's breakthroughs in nonlinear optics of chalcogenide glasses have let to his deomonstations of new ultrafast optical devices for telecommunications applic more...

Supervisor(s): Eggleton, Benjamin (Professor)

Novel biophotonic devices

The project will explore novel biomedical applications of a new type of fibre, taking advantage of our recent breakthrough in fabrication of fibres in low Young's modulus materials more...

Supervisor(s): Fleming, Simon (Professor)

Metamaterial Hyperlenses for THz Sub-diffraction Imaging

Metamaterials are an exciting new class of artificial materials that can have extraordinary properties functionality. We have demonstrated a novel technique to make them and hav more...

Supervisor(s): Fleming, Simon (Professor)