Alignment of a volumetric tomography system
- 6 July 2001
- journal article
- Published by Wiley in Medical Physics
- Vol. 28 (7) , 1472-1481
- https://doi.org/10.1118/1.1382609
Abstract
A test-bed system has been developed for imaging phantoms with tomosynthesis and volumetric computed tomography. This system incorporates an amorphous silicon flat panel detector on a movable gantry and a computer-controlled rotational positioning stage. In this paper, an analysis of the sensitivity of reconstructed images to geometrical misalignment is presented. Application of this method to circular digital tomosynthesis is examined, with spatial resolution in the focal plane as the criterion for evaluating the effect of misalignment. A software-based method is presented for correcting data for imperfect system alignment prior to image reconstruction. Experimental results yield reconstructed images with spatial resolution approaching the theoretical limit based on detector pixel size and accounting for data interpolation.Keywords
This publication has 17 references indexed in Scilit:
- Performance of a 41×41‐cm amorphous silicon flat panel x‐ray detector for radiographic imaging applicationsMedical Physics, 2000
- Full breast digital mammography with an amorphous silicon‐based flat panel detector: Physical characteristics of a clinical prototypeMedical Physics, 2000
- A controlled evaluation of tuned-aperture computed tomography applied to digital spot mammographyJournal of Digital Imaging, 2000
- Three‐dimensional computed tomographic reconstruction using a C‐arm mounted XRII: Image‐based correction of gantry motion nonidealitiesMedical Physics, 2000
- Virtual alignment of x-ray cone-beam tomography system using two calibration aperture measurementsOptical Engineering, 1999
- Evaluation of imaging geometries calculated from biplane imagesMedical Physics, 1998
- Empirical investigation of the signal performance of a high‐resolution, indirect detection, active matrix flat‐panel imager (AMFPI) for fluoroscopic and radiographic operationMedical Physics, 1997
- Geometrical calibration of x-ray imaging chains for three-dimensional reconstructionComputerized Medical Imaging and Graphics, 1993
- CT fan beam reconstruction with a nonstationary axis of rotationIEEE Transactions on Medical Imaging, 1992
- Reconstruction for fan beam with an angular‐dependent displaced center‐of‐rotationMedical Physics, 1988