GCC-based extrapolation of truncated CBCT data with dimensionality-reduced extrapolation models

Punzet, Daniel; Frysch, Robert; Pfeiffer, Tim; Beuing, Oliver; Rose, Georg

by Daniel Punzet, Robert Frysch, Tim Pfeiffer, Oliver Beuing, Georg Rose

Abstract:

A typical incomplete data problem arising in cone-beam computed tomography (CBCT) occurs when an object is either too large to be projected onto the detector or is deliberately only projected in parts. This problem is called truncation. Tomographic images reconstructed from truncated projection data can be severely impaired by image artifacts depending on the degree of truncation. A typical strategy to counter this is to extend the projection data by some smooth extrapolation. In order to accurately approximate the shape of the scanned object outside of the volume of interest (VOI), we previously presented a method which fits an extrapolation model to the truncated data by minimizing an error function based on the Grangeat consistency condition (GCC). In this work we propose a method of reducing the complexity of the extrapolation by making use of the 0th image moments of the truncated projection data.

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Reference:

GCC-based extrapolation of truncated CBCT data with dimensionality-reduced extrapolation models (Daniel Punzet, Robert Frysch, Tim Pfeiffer, Oliver Beuing, Georg Rose), In Proceedings - 15th International Meeting on Fully Three-Dimensional Image Reconstruction in Radiology and Nuclear Medicine Volume 11072, volume 11072, 2019.

Bibtex Entry:

@inproceedings{punzet_gcc-based_2019,
	address = {Philadelphia, USA},
	title = {{GCC}-based extrapolation of truncated {CBCT} data with dimensionality-reduced extrapolation models},
	volume = {11072},
	url = {https://doi.org/10.1117/12.2534510},
	abstract = {A typical incomplete data problem arising in cone-beam computed tomography (CBCT) occurs when an object is either too large to be projected onto the detector or is deliberately only projected in parts. This problem is called truncation. Tomographic images reconstructed from truncated projection data can be severely impaired by image artifacts depending on the degree of truncation. A typical strategy to counter this is to extend the projection data by some smooth extrapolation. In order to accurately approximate the shape of the scanned object outside of the volume of interest (VOI), we previously presented a method which fits an extrapolation model to the truncated data by minimizing an error function based on the Grangeat consistency condition (GCC). In this work we propose a method of reducing the complexity of the extrapolation by making use of the 0th image moments of the truncated projection data.},
	booktitle = {Proceedings - 15th {International} {Meeting} on {Fully} {Three}-{Dimensional} {Image} {Reconstruction} in {Radiology} and {Nuclear} {Medicine} {Volume} 11072},
	author = {Punzet, Daniel and Frysch, Robert and Pfeiffer, Tim and Beuing, Oliver and Rose, Georg},
	month = may,
	year = {2019}
}