Trond Varslot scite author profile

This paper reports on recent advances at the micro-computed tomography facility at the Australian National University. Since 2000 this facility has been a significant centre for developments in imaging hardware and associated software for image reconstruction, image analysis and image-based modelling. In 2010 a new instrument was constructed that utilises theoretically-exact image reconstruction based on helical scanning trajectories, allowing higher cone angles and thus better utilisation of the available X-ray flux. We discuss the technical hurdles that needed to be overcome to allow imaging with cone angles in excess of 60°. We also present dynamic tomography algorithms that enable the changes between one moment and the next to be reconstructed from a sparse set of projections, allowing higher speed imaging of time-varying samples. Researchers at the facility have also created a sizeable distributed-memory image analysis toolkit with capabilities ranging from tomographic image reconstruction to 3D shape characterisation. We show results from image registration and present some of the new imaging and experimental techniques that it enables. Finally, we discuss the crucial question of image segmentation and evaluate some recently proposed techniques for automated segmentation.

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High-resolution helical cone-beam micro-CT with theoretically-exact reconstruction from experimental data

Varslot

Kingston

Myers

et al. 2011

Med. Phys.

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Digital rock physics: 3D imaging of core material and correlations to acoustic and flow properties

et al. 2009

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Trond Varslot

Automatic sound speed selection in photoacoustic image reconstruction using an autofocus approach

Reliable automatic alignment of tomographic projection data by passive auto‐focus

Techniques in helical scanning, dynamic imaging and image segmentation for improved quantitative analysis with X-ray micro-CT

High-resolution helical cone-beam micro-CT with theoretically-exact reconstruction from experimental data

Digital rock physics: 3D imaging of core material and correlations to acoustic and flow properties

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