Rekonstruktion zerebraler Gefaus in-vivo μMRA mittels physiologischem Vorwissen zur lokalen Gef¨
暂无分享,去创建一个
Bjoern H. Menze | Markus Rempfler | Bjoern Andres | Matthias Schneider | Jan Klohs | Xianghui Xiao | Giovanna D. Ielacqua | R Stuart | Matthias Schneider | Markus Rempfler | Giovanna D. Ielacqua | Xianghui Xiao | R. Stuart | J. Klohs | Bjoern Andres | B. Menze
[1] Gábor Székely,et al. Joint 3-D vessel segmentation and centerline extraction using oblique Hough forests with steerable filters , 2015, Medical Image Anal..
[2] Gábor Székely,et al. Extracting Vascular Networks under Physiological Constraints via Integer Programming , 2014, MICCAI.
[3] Pascal Fua,et al. Reconstructing Loopy Curvilinear Structures Using Integer Programming , 2013, 2013 IEEE Conference on Computer Vision and Pattern Recognition.
[4] Lawrence H. Staib,et al. Vessel Connectivity Using Murray's Hypothesis , 2011, MICCAI.
[5] Isabelle Bloch,et al. A review of 3D vessel lumen segmentation techniques: Models, features and extraction schemes , 2009, Medical Image Anal..
[6] Francis K. H. Quek,et al. A review of vessel extraction techniques and algorithms , 2004, CSUR.
[7] Chris Pudney,et al. Distance-Ordered Homotopic Thinning: A Skeletonization Algorithm for 3D Digital Images , 1998, Comput. Vis. Image Underst..
[8] Alejandro F. Frangi,et al. Muliscale Vessel Enhancement Filtering , 1998, MICCAI.