Rapidly-converging multigrid reconstruction of cone-beam tomographic data

Myers, Glenn; Kingston, Andrew; Latham, Shane; Recur, Benoit; Li, Heyang (Thomas); Turner, Michael L.; Beeching, Levi; Sheppard, Adrian

Rapidly-converging multigrid reconstruction of cone-beam tomographic data

Date

2016-10-03

Authors

Myers, Glenn

Kingston, Andrew

Latham, Shane

Recur, Benoit

Li, Heyang (Thomas)

Turner, Michael L.

Beeching, Levi

Sheppard, Adrian

Publisher

Society of Photo-Optical Instrumentation Engineers (SPIE)

Abstract

In the context of large-angle cone-beam tomography (CBCT), we present a practical iterative reconstruction (IR) scheme designed for rapid convergence as required for large datasets. The robustness of the reconstruction is provided by the “space-filling” source trajectory along which the experimental data is collected. The speed of convergence is achieved by leveraging the highly isotropic nature of this trajectory to design an approximate deconvolution filter that serves as a pre-conditioner in a multi-grid scheme. We demonstrate this IR scheme for CBCT and compare convergence to that of more traditional techniques.

Keywords

X-ray Computed tomography, iterative image reconstruction, multigrid

Citation

Glenn R. Myers, Andrew M. Kingston, Shane J. Latham, Benoit Recur, Thomas Li, Michael L. Turner, Levi Beeching, Adrian P. Sheppard, "Rapidly converging multigrid reconstruction of cone-beam tomographic data," Proc. SPIE 9967, Developments in X-Ray Tomography X, 99671M (3 October 2016); doi: 10.1117/12.2238267