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Framework for quantitative evaluation of 3D vessel segmentation approaches using vascular phantoms in conjunction with 3D landmark localization and registration.

S. Wörz, P. Hoegen, W. Liao, M. Müller-Eschner, H. Kauczor, H. von Tengg-Kobligk, and K. Rohr. Medical Imaging: Image Processing, volume 9784 of SPIE Proceedings, page 978419. SPIE, (2016)

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Stefan Kunert University of Stuttgart

Stefan Schippling University of Stuttgart

Stefan Hecht University of Stuttgart

Stefan Keuler University of Stuttgart

Dr. -Ing. Stefan Carosella University of Stuttgart

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Evaluation of Approaches for Tracking Virus Particles in Fluorescence Microscopy Images.W. Godinez, M. Lampe, S. Wörz, B. Müller, R. Eils, and K. Rohr. Bildverarbeitung für die Medizin, page 207-211. Springer, (2009)Landmark-Based 3D Elastic Registration of Pre- and Postoperative Liver CT Data.T. Lange, S. Wörz, K. Rohr, and P. Schlag. Bildverarbeitung für die Medizin, page 107-111. Springer, (2009)Aortic Arch Quantification using Efficient Joint Segmentation and Registration.A. Biesdorf, K. Rohr, H. von Tengg-Kobligk, and S. Wörz. Bildverarbeitung für die Medizin, page 279-283. Springer, (2011)Automatic human brain vessel segmentation from 3D 7 Tesla MRA images using fast marching with anisotropic directional prior.W. Liao, K. Rohr, C. Kang, Z. Cho, and S. Wörz. ISBI, page 1140-1143. IEEE, (2012)An extension of thin-plate splines for image registration with radial basis functions.K. Rohr, and S. Wörz. ISBI, page 442-445. IEEE, (2012)Cramér-Rao Bounds for Estimating the Position and Width of 3D Tubular Structures and Analysis of Thin Structures with Application to Vascular Images.S. Wörz, and K. Rohr. Journal of Mathematical Imaging and Vision, 30 (2): 167-180 (2008)Spline-Based Hybrid Image Registration using Landmark and Intensity Information based on Matrix-Valued Non-radial Basis Functions.S. Wörz, and K. Rohr. International Journal of Computer Vision, 106 (1): 76-92 (2014)3D parametric intensity models for the localization of 3D anatomical point landmarks and 3D segmentation of human vessels.S. Wörz. University of Hamburg, (2006)3D shape analysis of heterochromatin foci based on a 3D spherical harmonics intensity model.S. Eck, S. Wörz, K. Müller-Ott, M. Hahn, G. Schotta, K. Rippe, and K. Rohr. Medical Imaging: Image Processing, volume 9034 of SPIE Proceedings, page 90340X. SPIE, (2014)Elastic registration based on matrix-valued spline functions and direct integration of landmarks and intensities.S. Wörz, A. Biesdorf, and K. Rohr. Medical Imaging: Image Processing, volume 8314 of SPIE Proceedings, page 83141B. SPIE, (2012)