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Characterising and compensating for partial volume effects in motion-compensated brain imaging of small animals

Partial volume effects resulting from the limited spatial resolution of positron emission tomography (PET) remain a key limitation to accurate quantification of PET image data. This more...

Supervisor(s): Meikle, Steven (Professor), Kyme, Andre (Dr)

Resilience and distributed systems for a healthy society

This project aims to develop an understanding of the link between the nature of distributed systems and the resilience that underpins healthy future societies. more...

Supervisor(s): Zomaya, Albert Y. (Professor), Vadas, Mathew (Professor)

Surface estimation of freely moving animals to enable quantitative neuroimaging

Accurate estimation of the highly non-rigid surface of freely moving animals is necessary to properly quantify data from brain imaging studies in which the animals are allowed to mo more...

Supervisor(s): Meikle, Steven (Professor), Kyme, Andre (Dr)

Complex Networks and Performance

The project aims to develop a social network based model and operational constructs for exploring individual behaviour in relation to choice and personal health. more...

Supervisor(s): Zomaya, Albert Y. (Professor), Vadas, Mathew (Professor)

Metal Ion Sensors for Medicinal and Environmental Applications

Metal cations like Zn(II), Cu and K(I) play a raft of important signalling roles in our bodies; others such as Hg(II), Cd(II) and Pb(II) are toxic pollutants in the environment. more...

Supervisor(s): Rutledge, Peter (Professor), Canning, John (Honorary Professor)

Self-Assembly and Self-Organization in Complex Distributed Systems

The aim of this project is use a range of algorithmic techniques (graph theoretic, game theoretic, information theoretic) to study and gain insight into the processes of self-assemb more...

Supervisor(s): Zomaya, Albert Y. (Professor), Vadas, Mathew (Professor)

Parallel Stochastic Optimization Algorithms

This project is investigating the application of unorthodox optimization techniques such fuzzy logic, genetic algorithms, neural networks, simulated annealing, ant colonies, Tabu se more...

Supervisor(s): Zomaya, Albert Y. (Professor), Vadas, Mathew (Professor)

MicroRNAs as Regulators of Cellular Programs

This project involves modeling the role of transcription factors and miRNAs in the control of systems implicated in maintaining and regaining optimal health. more...

Supervisor(s): Zomaya, Albert Y. (Professor), Vadas, Mathew (Professor)

Biological metaphors and resilience

The project will seek inspiration from biological networks to optimize the resilience of public health systems. more...

Supervisor(s): Zomaya, Albert Y. (Professor), Vadas, Mathew (Professor)

Exploring the link between international trade and the global obesity epidemic

The project aims to investigate the link between global trade patterns in food commodities and the global obesity epidemic. more...

Supervisor(s): Lenzen, Manfred (Professor)