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Karl D. Fritscher
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2020 – today
- 2025
- [i1]Christian Gapp, Elias Tappeiner, Martin Welk, Karl D. Fritscher, Elke Ruth Gizewski, Rainer Schubert:
What are You Looking at? Modality Contribution in Multimodal Medical Deep Learning Methods. CoRR abs/2503.01904 (2025) - 2020
- [j9]Elias Tappeiner
, Samuel Pröll, Karl D. Fritscher, Martin Welk
Training of head and neck segmentation networks with shape prior on small datasets. Int. J. Comput. Assist. Radiol. Surg. 15(9): 1417-1425 (2020)
2010 – 2019
- 2019
- [j8]Elias Tappeiner
Multi-organ segmentation of the head and neck area: an efficient hierarchical neural networks approach. Int. J. Comput. Assist. Radiol. Surg. 14(5): 745-754 (2019) - [c25]Samuel Pröll
Ejection Wave Segmentation for Contact-Free Heart Rate Estimation from Ballistocardiographic Signals. EMBC 2019: 3571-3576 - 2016
- [c24]Karl D. Fritscher, Patrik Raudaschl, Paolo Zaffino
Deep Neural Networks for Fast Segmentation of 3D Medical Images. MICCAI (2) 2016: 158-165 - 2013
- [j7]Peter Karasev, Ivan Kolesov, Karl D. Fritscher, Patricio A. Vela
Interactive Medical Image Segmentation Using PDE Control of Active Contours. IEEE Trans. Medical Imaging 32(11): 2127-2139 (2013) - 2012
- [c23]Ludovic Humbert, Tristan Whitmarsh, Karl D. Fritscher, Luis Miguel del Río Barquero, Felix Eckstein, Thomas M. Link, Rainer Schubert, Alejandro F. Frangi
Femoral strength prediction using a 3D reconstruction method from Dual-energy X-ray Absorptiometry. ISBI 2012: 1451-1454 - 2011
- [c22]Tristan Whitmarsh, Karl D. Fritscher, Ludovic Humbert, Luis Miguel del Río Barquero, Rainer Schubert, Alejandro F. Frangi
Hip fracture discrimination using 3D reconstructions from Dual-energy X-ray Absorptiometry. ISBI 2011: 1189-1192 - [c21]Tristan Whitmarsh, Karl D. Fritscher, Ludovic Humbert, Luis Miguel del Río Barquero, Tobias Roth, Christian Kammerlander, Michael Blauth, Rainer Schubert, Alejandro F. Frangi
A Statistical Model of Shape and Bone Mineral Density Distribution of the Proximal Femur for Fracture Risk Assessment. MICCAI (2) 2011: 393-400 - [c20]Shohei Hanaoka, Karl D. Fritscher, Martin Welk
3-D Graph Cut Segmentation with Riemannian Metrics to Avoid the Shrinking Problem. MICCAI (3) 2011: 554-561 - [c19]Philipp Steininger, Markus Neuner, Karl D. Fritscher, Felix Sedlmayer
A novel class of machine-learning-driven real-time 2D/3D tracking methods: texture model registration (TMR). Image-Guided Procedures 2011: 79640G - [c18]Shouhei Hanaoka, Karl D. Fritscher, Benedikt Schuler, Yoshitaka Masutani
Whole vertebral bone segmentation method with a statistical intensity-shape model based approach. Image Processing 2011: 796242 - 2010
- [j6]Patrik Raudaschl, Karl D. Fritscher, Tobias Roth, Christian Kammerlander, Rainer Schubert:
Analysis of the micro-migration of sliding hip screws by using point-based registration. Int. J. Comput. Assist. Radiol. Surg. 5(5): 455-460 (2010) - [c17]Ludovic Humbert, Tristan Whitmarsh, Mathieu De Craene, Luis Miguel del Río Barquero, Karl D. Fritscher, Rainer Schubert, Felix Eckstein, Thomas M. Link, Alejandro F. Frangi
3D reconstruction of both shape and bone mineral density distribution of the femur from DXA images. ISBI 2010: 456-459 - [c16]Tristan Whitmarsh, Ludovic Humbert, Mathieu De Craene, Luis Miguel del Río Barquero, Karl D. Fritscher, Rainer Schubert, Felix Eckstein, Thomas M. Link, Alejandro F. Frangi
3D bone mineral density distribution and shape reconstruction of the proximal femur from a single simulated DXA image: an in vitro study. Image Processing 2010: 76234U - [c15]Karl D. Fritscher, Benedikt Schuler, Tobias Roth, Christian Kammerlander, Michael Blauth, Rainer Schubert:
Model guided diffeomorphic demons for atlas based segmentation. Image Processing 2010: 762306
2000 – 2009
- 2009
- [j5]Stefan Leber
Statistical model based analysis of bone mineral density of lumbar spine. Int. J. Comput. Assist. Radiol. Surg. 4(3): 239-243 (2009) - [j4]Karl D. Fritscher, Agnes Grünerbl, Markus Hänni, Norbert Suhm, Clemens Hengg, Rainer Schubert:
Trabecular Bone Analysis in CT and X-Ray Images of the Proximal Femur for the Assessment of Local Bone Quality. IEEE Trans. Medical Imaging 28(10): 1560-1575 (2009) - [c14]Benedikt Schuler, Karl D. Fritscher, Volker Kuhn, Felix Eckstein, Rainer Schubert:
Using a statistical appearance model to predict the fracture load of the proximal femur. Image-Guided Procedures 2009: 72610W - 2008
- [c13]Karl D. Fritscher, Rainer Schubert:
4D Endocardial Segmentation Using Spatio-temporal Appearance Models and Level Sets. Bildverarbeitung für die Medizin 2008: 1-5 - [c12]Karl D. Fritscher, Stefan Leber
Level Set Segmentation of Lumbar Vertebrae Using Appearance Models. Bildverarbeitung für die Medizin 2008: 46-50 - [c11]Philipp Steininger, Karl D. Fritscher, Gregor Kofler, Benedikt Schuler, Markus Hänni, Karsten Schwieger, Rainer Schubert:
Comparison of Different Metrics for Appearance-Model-Based 2D/3D-registration with X-ray Images. Bildverarbeitung für die Medizin 2008: 122-126 - [c10]Karl D. Fritscher, Benedikt Schuler, Thomas M. Link, Felix Eckstein, Norbert Suhm, Markus Hänni, Clemens Hengg, Rainer Schubert:
Prediction of Biomechanical Parameters of the Proximal Femur Using Statistical Appearance Models and Support Vector Regression. MICCAI (1) 2008: 568-575 - [c9]Alfredo Lopez, Karl D. Fritscher, Thomas Trieb, Rainer Schubert, Julian Mattes:
3D inters-subject cardiac registration using 4D information. Image Processing 2008: 691413 - 2007
- [j3]Karl D. Fritscher, Agnes Grünerbl, Rainer Schubert:
3D image segmentation using combined shape-intensity prior models. Int. J. Comput. Assist. Radiol. Surg. 1(6): 341-350 (2007) - [c8]Karl David Fritscher, Benedikt Schuler, Agnes Grünerbl, Markus Hänni, Karsten Schwieger, Norbert Suhm, Rainer Schubert:
Assessment of femoral bone quality using co-occurrence matrices and adaptive regions of interest. Computer-Aided Diagnosis 2007: 65141K - 2006
- [j2]Roland Pilgram, Rainer Schubert, Karl D. Fritscher, Ralf H. Zwick, Michael Schocke, Thomas Trieb, Otmar Pachinger:
Shape Discrimination of Healthy and Diseased Cardiac Ventricles using Medial Representation. Int. J. Comput. Assist. Radiol. Surg. 1(1): 33-38 (2006) - [j1]Karl D. Fritscher, Rainer Schubert:
3D image segmentation by using statistical deformation models and level sets. Int. J. Comput. Assist. Radiol. Surg. 1(3): 123-135 (2006) - [c7]Agnes Grünerbl, Karl D. Fritscher, Michael Blauth, Volker Kuhn, Rainer Schubert:
Shape-Based 3D Level Set Segmentation of the Proximal Femur in CT-Data. Bildverarbeitung für die Medizin 2006: 91-95 - [c6]Julian Mattes, Iris Steingruber, Michael Netzer, Karl D. Fritscher, Helmut Kopf, Werner Jaschke, Rainer Schubert:
A Robust Semi-automatic Procedure for Motion Quantification of Aortic Stent Grafts Using Point Set Registration. Bildverarbeitung für die Medizin 2006: 216-220 - [c5]Julian Mattes, Iris Steingruber, Michael Netzer, Karl D. Fritscher, Helmut Kopf, Werner Jaschke, Rainer Schubert:
Quantification of the migration and deformation of abdominal aortic aneurysm stent grafts. Image Processing 2006: 61440V - 2005
- [c4]Karl D. Fritscher, Roland Pilgram, Rainer Schubert:
Automatic Cardiac 4D Segmentation Using Level Sets. FIMH 2005: 113-122 - [c3]Karl David Fritscher, Rainer Schubert:
A software framework for preprocessing and level set segmentation of medical image data. Image Processing 2005 - 2004
- [c2]Karl D. Fritscher, Roland Pilgram, Rudolf Leuwer, Christian Habermann, Anne Müller, Rainer Schubert:
Analyzing inter-individual shape variations of the middle ear cavity by developing a common shape model based on medial representation. CARS 2004: 243-248 - [c1]Roland Pilgram, Karl D. Fritscher, Rainer Schubert:
Modeling of the geometric variation and analysis of the right atrium and right ventricle motion of the human heart using PCA. CARS 2004: 1108-1113
Coauthor Index
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