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3 July 2001 Acceleration and evaluation of block-based motion estimation algorithms for x-ray fluoroscopy
Claudia Mayntz, Til Aach, Georg Schmitz
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Proceedings Volume 4322, Medical Imaging 2001: Image Processing; (2001) https://doi.org/10.1117/12.430982
Event: Medical Imaging 2001, 2001, San Diego, CA, United States
Abstract
This paper discusses acceleration methods for block-based motion estimation with the focus on the application to moving low-dose x-ray images (x-ray fluoroscopy). These images often exhibit a very low signal-to-noise ratio. If the frame rate is sufficiently high, these degradations can at least be partly compensated by temporally motion- compensated filtering, which requires first a motion estimation step. Due to the low signal-to-noise level and strong local motions standard algorithms are not suitable for application to fluoroscopy sequences. In an earlier work we developed a full search Bayesian block matching algorithm using spatial and temporal regularization. Based on the so-called Successive Elimination Algorithm by Li and Salari we developed several acceleration methods for the motion estimation step. Here, these methods and a detailed evaluation based on several synthetically generated motion types in fluoroscopy sequences are provided. Using a weighted block-norm based inequality, combined with an efficient calculation of the error measure which is partitioned into local measures, the number of search positions is remarkably reduced without significant loss in estimation quality.
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Claudia Mayntz, Til Aach, and Georg Schmitz "Acceleration and evaluation of block-based motion estimation algorithms for x-ray fluoroscopy", Proc. SPIE 4322, Medical Imaging 2001: Image Processing, (3 July 2001); https://doi.org/10.1117/12.430982
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KEYWORDS
Motion estimation
Fluoroscopy
X-rays
Algorithm development
Neodymium
X-ray imaging
Ions
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