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Computer vision techniques for forensic engineering and damage assessment in structures

This research will develop high-end technology based on computer vision for structural health monitoring and damage localisation in structures. more...

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

Semantic-driven Multi-modal Biomedical Data Visualisation

BMIT excels at addressing bio-inspired and other real-world challenges with core computing and information technology research in image processing and informatics, computer vision, more...

Supervisor(s): Kim, Jinman (Associate Professor), Feng, David (Professor)

Biometrics (face recognition, human gait recognition or person re-identification)

This research project aims to develop new feature extraction and classification methods for face recognition, human gait recognition or person re-identification. more...

Supervisor(s): Xu, Dong (Professor)

Development of smart materials impedance graded composite materials in blast and impact mitigation

The purpose of this research is to develop novel composite materials and structural systems which have wide range of applications. more...

Supervisor(s): Mohotti, Damith (Dr)

Video analytics (activity and video event recognition)

This research project aims to develop new intelligent video analytics systems for understanding videos. more...

Supervisor(s): Xu, Dong (Professor)

Bayesian deep learning for incomplete information

This project will feature a synergy of deep learning, modular and multi-task learning with Bayesian methods to address the problem of decision making given incomplete information. more...

Supervisor(s): Cripps, Sally (Professor), Chandra, Rohitash (Dr)

Evaluating Blockchain Systems

The goal of this project is to evaluate the properties of existing blockchain protocols and to propose new building blocks for dedicated applications. more...

Supervisor(s): Gramoli, Vincent (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)

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)

Advanced orchard mapping systems using robotics, sensing and perception

The aim of the project is to research and develop intelligent orchard mapping systems that provide timely, high resolution data to support farm management. more...

Supervisor(s): Underwood, James (Dr)