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Detection of Anomalous Variations in Dynamic Networks

The project aims to develop better algorithms for the modelling and study of dynamic networks. more...

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

The Choice of Appropriate Difference Measures

The project will focus on developing new measures that best detect abnormal and/or significant changes in networks. more...

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

Accountability in Distributed Systems for Bioinformatics Data Management

The project will investigate different techniques that can be used to endow distributed systems with better accountability and provenance measures. more...

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

Research in Design-Led Innovation

The design of new products and services is the central activity of engineering. Research in this area advances the design of engineered products and services and new tools and metho more...

Supervisor(s): Dong, Andy (Professor)

Distributed Coalition Planning and Decision Making

The work involves the use of graph-theoretic and game-theoretic techniques to study how decisions evolve in distributed systems. more...

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

Federating Autonomous Sensor Networks

The work involves the use of a variety of theoretical techniques to study federation in distributed systems. more...

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

Game theory based transmission strategies for cognitive radio

It has been recognized by radio regulatory bodies that the exclusive use of spectrum to licensed users is highly efficient. This is due to the high variability of traffic statistics more...

Supervisor(s): Li, Yonghui (Professor), Vucetic, Branka (Professor)

Autonomic Communications in Parallel and Distributed Computing Systems

The project explores the interaction between computation and communication and its effect on the performance of distributed computing systems. more...

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

Quantum Control with Trapped Ions

This project aims to develop novel techniques for the control of quantum systems using trapped atomic ions. more...

Supervisor(s): Biercuk, Michael J. (Professor)

Development of novel anti-cancer metastasis agents derived from omega-3 fatty acid metabolites

At present we have no therapies that prevent cancer spread. In this project we will develop novel w-3 fatty acid epoxide analogues that inhibit tumour metastasis. These derivatives more...

Supervisor(s): Murray, Michael (Professor)