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Method and system for automatically segmenting organs from three dimensional computed tomography images. Vol US20050907690. Amerikai Egyesült Államok; 2009.
Geometrical model-based segmentation of the organs of sight on CT images. MEDICAL PHYSICS. 2008;35(2):735-743.
Systems and methods for segmenting an organ in a plurality of images. Vol US20040858241. Amerikai Egyesült Államok; 2008.
3D segmentation of liver, kidneys and spleen from CT images. INTERNATIONAL JOURNAL OF COMPUTER ASSISTED RADIOLOGY AND SURGERY. 2007;2(1 SUPPL.):S45-S47.
Decomposition Algorithms for Reconstructing Discrete Sets with Disjoint Components. In: Herman G T, Kuba A, editors. ADVANCES IN DISCRETE TOMOGRAPHY AND ITS APPLICATIONS. Cambridge: Birkhauser Boston; 2007. 1. p. 153-173p. (Applied and Numerical Harmonic Analysis).
Discrete Tomography Methods for Nondestructive Testing. In: Herman G T, Kuba A, editors. Advances in Discrete Tomography and Its Applications. Birkhauser; 2007. 3. p. 303-332p. (Applied and Numerical Harmonic Analysis ).
Discrete Tomography Methods for Nondestructive Testing. In: Herman G T, Kuba A, editors. Advances in Discrete Tomography and Its Applications. Birkhauser; 2007. 3. p. 303-332p. (Applied and Numerical Harmonic Analysis ).
Emission discrete tomography. In: Herman G T, Kuba A, editors. ADVANCES IN DISCRETE TOMOGRAPHY AND ITS APPLICATIONS. Cambridge: Birkhauser Boston; 2007. 3. p. 333-366p. (Applied and Numerical Harmonic Analysis ).
Emission discrete tomography. In: Herman G T, Kuba A, editors. ADVANCES IN DISCRETE TOMOGRAPHY AND ITS APPLICATIONS. Cambridge: Birkhauser Boston; 2007. 3. p. 333-366p. (Applied and Numerical Harmonic Analysis ).
A benchmark evaluation of large-scale optimization approaches to binary tomography. In: Kuba A, Nyúl LGábor, Palágyi K, editors. Discrete Geometry for Computer Imagery. Berlin; Heidelberg: Springer-Verlag; 2006. 1. p. 146-156p.
A benchmark evaluation of large-scale optimization approaches to binary tomography. In: Kuba A, Nyúl LGábor, Palágyi K, editors. Discrete Geometry for Computer Imagery. Berlin; Heidelberg: Springer-Verlag; 2006. 1. p. 146-156p.
Computer Aided Surgical Planning.; 2006.
Discrete Geometry for Computer Imagery. Vol 4245. Kuba A, Nyúl LGábor, Palágyi K, editors. Springer-Verlag; 2006. (Lecture Notes in Computer Science; vol 4245).
MedEdit: A Computer Assisted Image Processing and Navigation System for Orthopedic Trauma Surgery. ACTA CYBERNETICA-SZEGED. 2006;17:589-603.
The number of line-convex directed polyominoes having the same orthogonal projections. In: Kuba A, Nyúl LGábor, Palágyi K, editors. Discrete Geometry for Computer Imagery. Berlin, Heidelberg: Springer-Verlag; 2006. 7. p. 77-85p.
Parameter settings for reconstructing binary matrices from fan-beam projections. CIT JOURNAL OF COMPUTING AND INFORMATION TECHNOLOGY. 2006;14(2):100-110.
Application of automatic image registration in a segmentation framework of pelvic CT images. LECTURE NOTES IN COMPUTER SCIENCE. 2005;3691:628-635.
Discrete Reconstruction Techniques. ELECTRONIC NOTES IN DISCRETE MATHEMATICS. 2005;20:385-398.
Discrete tomography for reconstruction from limited view angles in non-destructive testing. ELECTRONIC NOTES IN DISCRETE MATHEMATICS. 2005;20(1):455-474.
Discrete tomography in neutron radiography. NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A- ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT. 2005;542(1-3):376-382.