Automatic alignment for three-dimensional tomographic reconstruction
Inverse Problems , Volume 34 - Issue 2 p. 024004
In tomographic reconstruction, the goal is to reconstruct an unknown object from a collection of line integrals. Given a complete sampling of such line integrals for various angles and directions, explicit inverse formulas exist to reconstruct the object. Given noisy and incomplete measurements, the inverse problem is typically solved through a regularized least-squares approach. A challenge for both approaches is that in practice the exact directions and offsets of the x-rays are only known approximately due to, e.g. calibration errors. Such errors lead to artifacts in the reconstructed image. In the case of sufficient sampling and geometrically simple misalignment, the measurements can be corrected by exploiting so-called consistency conditions. In other cases, such conditions may not apply and we have to solve an additional inverse problem to retrieve the angles and shifts. In this paper we propose a general algorithmic framework for retrieving these parameters in conjunction with an algebraic reconstruction technique. The proposed approach is illustrated by numerical examples for both simulated data and an electron tomography dataset.
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|Real-Time 3D Tomography , The See-Through Museum|
|Organisation||Centrum Wiskunde & Informatica, Amsterdam (CWI), The Netherlands|
van Leeuwen, T, Maretzke, S.C, & Batenburg, K.J. (2018). Automatic alignment for three-dimensional tomographic reconstruction. Inverse Problems, 34(2). doi:10.1088/1361-6420/aaa0f8