Proceedings ArticleDOI
Simple technique for calibrating imaging geometries
Kenneth R. Hoffmann,Jacqueline Esthappan,Shidong Li,Charles A. Pelizzari +3 more
- Vol. 2708, pp 371-376
TLDR
A new, simple technique for accurate determination of the imaging geometry for calibration of projection imaging systems by translating and rotating the phantom model until it aligned optimally with the set of lines connecting the focal spot with the corresponding image points.Abstract:
We have developed a new, simple technique for accurate determination of the imaging geometry for calibration of projection imaging systems. Images of a phantom containing lead beads were obtained after it was placed at arbitrary, unknown locations which were near the isocenter of a radiation therapy simulator. The location of the lead beads were identified in the images. A computer model of the phantom was generated and positioned at an arbitrary location. Projection images of the model were generated and compared with the actual image locations. A modified projection-Procrustes algorithm was then used to translate and rotate the phantom model until it aligned optimally with the set of lines connecting the focal spot with the corresponding image points. The rotation matrix and translation vector relating the multiple projection geometries were then determined using a Procrustes algorithm and the calculated positions of the phantom for each projection. For a wide range of starting points, the technique converged to 3D locations with an approximate precision of 0.1 cm in position and approximately 0.2 degrees in orientation. The calculated angles and distances agreed with the readouts on the imaging systems to within approximately 0.25 degrees.© (1996) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.read more
Citations
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Journal ArticleDOI
A quantitative analysis of 3-D coronary modeling from two or more projection images
TL;DR: A method is introduced to examine the geometrical accuracy of the three-dimensional representation of coronary arteries from multiple (two and more) calibrated two-dimensional angiographic projections based on the information provided by the semi-automated centerline detection in two initial calibrated projections.
Journal ArticleDOI
A system for determination of 3D vessel tree centerlines from biplane images.
TL;DR: It is believed that this system will provide accurate and reproducible vascular tree centerlines from biplane images while the patient is still on the table, and thereby will facilitate interventions and associated quantitative analyses of the vasculature.
Journal ArticleDOI
Determination of three-dimensional positions of known sparse objects from a single projection.
TL;DR: A new technique is developed for accurate determination of the three-dimensional position and orientation of known sparse objects from a single-perspective projection by using a modification of the projection-Procrustes technique.
Journal ArticleDOI
Biplane X-ray angiograms, intravascular ultrasound, and 3D visualization of coronary vessels.
Kenneth R. Hoffmann,Andreas Wahle,C. Pellot-Barakat,C. Pellot-Barakat,J. Sklansky,Milan Sonka +5 more
TL;DR: Techniques have been developed which allow the calculation of the imaging geometry and the 3D position of the vessel centerlines of the vascular tree from biplane views without a calibration object, i.e., from the images themselves, removing the awkwardness of moving the patient to obtain 3D information.
Journal ArticleDOI
Alignment of a volumetric tomography system.
TL;DR: An analysis of the sensitivity of reconstructed images to geometrical misalignment is presented, with reconstructed images with spatial resolution approaching the theoretical limit based on detector pixel size and accounting for data interpolation.
References
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Determination of three-dimensional structure in biplane radiography without prior knowledge of the relationship between the two views: theory.
Charles E. Metz,Laura E. Fencil +1 more
TL;DR: A novel method allows the determination of three-dimensional object structure from two projection images that are obtained at arbitrary, unknown orientations using the image coordinates of eight or more object points to determine the relative geometry of the two projections.
Journal ArticleDOI
Three-dimensional reconstruction of moving arterial beds from digital subtraction angiography
TL;DR: A system for three-dimensional reconstruction of dynamic (moving) vascular bed structures has been developed and is described and angle-corrected densitometric methods are used to refine the vessel cross section.
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