{\rtf1\ansi\deff0\deftab360 {\fonttbl {\f0\fswiss\fcharset0 Arial} {\f1\froman\fcharset0 Times New Roman} {\f2\fswiss\fcharset0 Verdana} {\f3\froman\fcharset2 Symbol} } {\colortbl; \red0\green0\blue0; } {\info {\author Biblio 7.x}{\operator }{\title Biblio RTF Export}} \f1\fs24 \paperw11907\paperh16839 \pgncont\pgndec\pgnstarts1\pgnrestart MIPPR 2009: Multispectral Image Acquisition and Processing. Vol 7494. Udupa JK, Sang N, Ny\'fal LG\'e1bor, Tong H, editors. Bellingham; Washington: SPIE; 2009.\par \par Multiple Sclerosis lesion quantification in MR images by using vectorial scale-based relative fuzzy connectedness. In: Medical Imaging 2004: Image Processing. Bellingham; Washington: SPIE; 2004. 1. p. 1764-1773p. \par \par 3DVIEWNIX-AVS: a software package for the separate visualization of arteries and veins in CE-MRA images. COMPUTERIZED MEDICAL IMAGING AND GRAPHICS. 2003;27(5):351-362.\par \par Incorporating a measure of local scale in voxel-based 3-D image registration. IEEE TRANSACTIONS ON MEDICAL IMAGING. 2003;22(2):228-237.\par \par Method for standardizing the MR image intensity scale. Vol US19990447781. Amerikai Egyes\'fclt \'c1llamok; 2003.\par \par Fuzzy-connected 3D image segmentation at interactive speeds. GRAPHICAL MODELS. 2002;64(5):259-281.\par \par A protocol-independent brain MRI segmentation method. In: Medical Imaging 2002: Image Processing. Bellingham; Washington: SPIE; 2002. 1. p. 1588-1599p. \par \par T\'f6bbdimenzi\'f3s MRI k\'e9pek feldolgoz\'e1sa. In: K\'e9pfeldolgoz\'f3k \'e9s Alakfelismer?k III. Konfereci\'e1ja. Szeged: NJSZT-K\'c9PAF; 2002. 9. p. 96-97p. \par \par Brain atrophy in relapsing-remitting multiple sclerosis: Fractional volumetric analysis of gray matter and white matter. RADIOLOGY. 2001;220(3):606-610.\par \par Multiprotocol MR image segmentation in multiple sclerosis: Experience with over 1,000 studies. ACADEMIC RADIOLOGY. 2001;8(11):1116-1126.\par \par Task-specific comparison of 3D image registration methods. In: Medical Imaging 2001: Image Processing. Bellingham; Washington: SPIE; 2001. 1. p. 1588-1598p. \par \par Brain Atrophy in Relapsing-Remitting Multiple Sclerosis: A Fractional Volumetric Analysis of Gray Matter and White Matter.; 2000.\par \par Fuzzy-connected 3D image segmentation at interactive speeds. In: Medical Imaging 2000: Image Processing. Bellingham; Washington: SPIE; 2000. 2. p. 212-223p. \par \par Magnetization Transfer Ratio Histogram Analysis of Normal Appearing Gray Matter and White Matter in MS.; 2000.\par \par MR image analysis in multiple sclerosis. NEUROIMAGING CLINICS OF NORTH AMERICA. 2000;10(4):799-815.\par \par MR Image Analysis in Multiple Sclerosis.; 2000.\par \par Multiple sclerosis: Magnetization transfer histogram analysis of segmented normal-appearing white matter. RADIOLOGY. 2000;216(2):351-355.\par \par Multiprotocol MR image segmentation in multiple sclerosis: experience with over 1000 studies. In: Medical Imaging 2000: Image Processing. Bellingham; Washington: SPIE; 2000. 1. p. 1017-1027p. \par \par New variants of a method of MRI scale standardization. IEEE TRANSACTIONS ON MEDICAL IMAGING. 2000;19(2):143-150.\par \par Numerical tissue characterization in MS via standardization of the MR image intensity scale. JOURNAL OF MAGNETIC RESONANCE IMAGING. 2000;12(5):715-721.\par \par Numerical Tissue Characterization in MS via Standardization of the MR Image Intensity Scale. In: International Society for Magnetic Resonance in Medicine: Eight Scientific Meeting and Exhibition. Berkeley; 2000. 5. 579.\par \par Standardizing the MR Image Intensity Scale and Its Applications. In: Conference of PhD Students in Computer Science. Vol Volume of extended abstracts. Szeged: J\'f3zsef Attila Tudom\'e1nyegyetem; 2000. 7. 75.\par \par Standardizing the MR image intensity scales: making MR intensities have tissue-specific meaning. In: Medical Imaging 2000: Image Display and Visualization. Bellingham; Washington: SPIE; 2000. 4. p. 496-504p. \par \par Tissue Characterization in Relapsing-remitting and Secondary-progressive MS via Magnetization Transfer Ratio. In: International Society for Magnetic Resonance in Medicine: Eight Scientific Meeting and Exhibition. Berkeley; 2000. 1. 1189.\par \par Approach to standardizing MR image intensity scale. In: Medical Imaging 1999: Image Display. Bellingham; Washington: SPIE; 1999. 5. p. 595-603p. \par \par Fuzzy Connected 3D Object Segmentation at Interactive Speeds.; 1999.\par \par Magnetization Transfer Histogram Analysis of Segmented Normal- Appearing White Matter in Multiple Sclerosis.; 1999.\par \par Magnetization Transfer Histogram Analysis of Segmented Normal-Appearing White Matter in Multiple Sclerosis. In: International Society for Magnetic Resonance in Medicine: Seventh Scientific Meeting and Exhibition. Berkeley; 1999. 9. 957.\par \par New variants of a method of MRI scale normalization. LECTURE NOTES IN COMPUTER SCIENCE. 1999;1613:490-495.\par \par New Variants of a Method of MRI Scale Standardization.; 1999.\par \par Numerical Tissue Characterization in MS via Standardization of the MR Image Intensity Scale.; 1999.\par \par On Standardizing the MR Image Intensity Scale.; 1999.\par \par On standardizing the MR image intensity scale. MAGNETIC RESONANCE IN MEDICINE. 1999;42(6):1072-1081.\par \par On Standardizing the MR Image Intensity Scale. RADIOLOGY. 1998;209(SUPPL P):581-582.\par \par Medical image registration based on fuzzy objects. In: SUMMER WORKSHOP ON COMPUTATIONAL MODELLING, IMAGING AND VISUALIZATION IN BIOSCIENCES (COMBIO). Budapest: KFKI; 1996. 4. p. 44-48p. \par \par Orvosi k\'e9pek fuzzy objektumokon alapul\'f3 regisztr\'e1ci\'f3ja. In: A sz\'e1m\'edt\'e1stechnika orvosi \'e9s biol\'f3giai alkalmaz\'e1sai: A XX. Neumann Kollokvium Kiadv\'e1nya. Budapest: NJSZT; 1996. 1. p. 107-110p. \par \par }