16 April 1996 Pincushion correction techniques and their effects on calculated 3D positions and imaging geometries
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Proceedings Volume 2710, Medical Imaging 1996: Image Processing; (1996); doi: 10.1117/12.237948
Event: Medical Imaging 1996, 1996, Newport Beach, CA, United States
Abstract
Two techniques for pincushion correction are evaluated based on their effect on calculation of the image geometry and 3D positions of object points. Images of a uniform wire mesh and a calibration phantom containing lead beads in its surface were acquired on the image intensifier TV systems in our catheterization labs. The radial mapping functions relating points in the original images and in the corrected images were determined using the mesh image. The undistorted mesh model was also used to determine and correct the distortions locally, i.e., for each square region between the mesh points. Thus, two corrected images were obtained. Images of the calibration phantom before and after correction were analyzed to determine the 3D position of the lead beads and the imaging geometry, using a calibration algorithm and the enhanced Metz-Fencil technique. In comparing the 3D positions calculated from the radially corrected and locally corrected images, the calculated 3D positions using the calibration technique vary by less than 0.6 mm in the x and y direction and less than 5.0 mm in the z direction. The uncorrected data yields differences of over 1 cm in the z direction. The 3D positions calculated using the enhanced Metz-Fencil technique appear to be more accurate when pincushion correction is applied.
© (1996) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Kenneth R. Hoffmann, Yang Chen, Jacqueline Esthappan, Shiuh-Yung James Chen, John D. Carroll, "Pincushion correction techniques and their effects on calculated 3D positions and imaging geometries", Proc. SPIE 2710, Medical Imaging 1996: Image Processing, (16 April 1996); doi: 10.1117/12.237948; https://doi.org/10.1117/12.237948
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KEYWORDS
3D image processing

Imaging systems

3D image enhancement

Calibration

Lead

Image enhancement

Image intensifiers

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