Dr Glenn Myers

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Position
Postdoctoral Fellow
Department
Department of Applied Mathematics
Office phone
54690
Email
Office
Cockcroft 4 65

4D tomography - imaging materials in 3D as they change

The ANU has constructed an X-ray micro-computed tomography facility with a unique helical scanning configuration that enables tomographic images of extremely high quality to be produced.  This experimental project will work with theoreticians to image the evolution of time-changing samples with unprecented time resolution.

A/Prof Adrian Sheppard, Dr Glenn Myers, Dr Andrew Kingston

Compression of 3D X-ray imaging data

The CT lab hosts several 3D X-ray imaging systems, each generating ~240GB/day of data. The student will: (i) explore various data compression schemes; (ii) theoretically and empirically analyse interactions between data compression, X-ray image processing, and 3D analysis; (iii) develop new 3D imaging methods, based on successful data compression schemes

Dr Glenn Myers, Dr Andrew Kingston, A/Prof Adrian Sheppard

High-density artifact correction in x-ray micro-tomography

High-density objects in specimens of interest (e.g., metal-pins in biological specimens), can cause significant quality degradation of 3D images produced at our micro-tomography facility. This project explores/compares techniques in hardware to avoid the problem and techniques in software to correct for the problems caused by these objects.

Dr Andrew Kingston, Dr Glenn Myers, A/Prof Adrian Sheppard

Multi-spectral x-ray micro-tomography

The ANU X-ray micro-tomography facility images over a broad spectrum (or range) of X-ray energies. The behaviour of specimens of interest at different X-ray energies can tell us a lot about its composition. This project will explore 1) techniques to image specimens at various X-ray spectral-bands, and 2) methods to analyse the results.

Dr Andrew Kingston, Dr Glenn Myers, A/Prof Adrian Sheppard

Intelligent 3D X-ray imaging, for improved analysis of complex 3D images.

This project will develop new methods for "intelligent" processing of 3D X-ray data (i.e. methods which use a priori information). These new methods will double as a non-traditional approach to automated image analysis; the project will compare this new approach with more traditional methods.

Dr Glenn Myers, Dr Andrew Kingston, A/Prof Adrian Sheppard

3D phantoms for X-ray micro-tomography

"Phantoms" are objects used for performance testing and/or calibration of 3D X-ray computed tomography (CT) systems. This project involves designing, 3D printing, and subsequently imaging phantoms at the micro-CT facility of the Applied Maths department.

Dr Andrew Kingston, Dr Glenn Myers, A/Prof Adrian Sheppard, Prof Timothy Senden

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