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Developing nanoscale analysis techniques for microscopy

This project is a nexus of materials engineering, microscopy and scientific computing. Using advanced microscopy techniques, you will delve into the rich nanostructures and atomic-s more...

Supervisor(s): Ceguerra, Anna (Dr)

A predictive framework for the behaviour of concrete structures

This research will aim at developing a computational framework based on the discrete crack approach that can be efficiently used in engineering.  more...

Supervisor(s): Dias-da-Costa, Daniel (Dr)

Development of apps for designing concrete structures

The purpose of this project is to develop a platform to support the design of concrete structures.  more...

Supervisor(s): Dias-da-Costa, Daniel (Dr)

Non-destructive techniques for detecting damage in structures

The purpose of this research is to develop non-destructive techniques for assessing, measuring and characterising the structural response of structures.  more...

Supervisor(s): Dias-da-Costa, Daniel (Dr)

Concrete and rock hydro-cracking

The purpose of this research is to identify the micro-mechanisms governing the permeability of concrete and rocks featuring cracks, and those governing the crack opening induced by more...

Supervisor(s): Dias-da-Costa, Daniel (Dr)

Automated and connected vehicle technologies for traffic congestion management

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Supervisor(s): Ramezani Ghalenoei, Mohsen (Dr)

Electromagnetic Simulation of Complex Dynamic Environments to Assist Cognitive Active Perception

  Active perception involves moving a sensor to maximise information gain about the local environment. Cognitive radar goes even further, to change the sensor parameters themse more...

Supervisor(s): Johnson, David (Dr)

Cross-Spectral Imaging and Classification of Concealed Targets in Cluttered Environments

This project involves developing a software defined radar system to improve robotic perception in highly unstructured environments. Can multi-spectral techniques be used to iterativ more...

Supervisor(s): Johnson, David (Dr)

Measures to Increase Trust and Reliability of Robotic Systems in the Presence of Adversity

Development of low-profile sensing techniques for stealthy robotic platforms in unstructured environments. This includes minimising electromagnetic and acoustic signatures while per more...

Supervisor(s): Johnson, David (Dr)

Active Perception at the System Level, Including Human-(on-the-loop)-Unmanned Teaming

Active perception involves moving a sensor to maximise information gain. For a system comprised of multiple heterogeneous platforms including humans, the problem of maximising infor more...

Supervisor(s): Johnson, David (Dr)