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ORCIDGábor Székely
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- affiliation: ETH Zurich, Switzerland
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2020 – today
- 2021
[j56]Gábor Székely
, Gergo Ládi, Tamás Holczer, Levente Buttyán:
Protocol State Machine Reverse Engineering with a Teaching-Learning Approach. Acta Cybern. 25(2): 517-535 (2021)
2010 – 2019
- 2019
- [j55]Denis K. Samuylov, Gábor Székely, Grégory Paul:
A Bayesian Framework for the Analog Reconstruction of Kymographs From Fluorescence Microscopy Data. IEEE Trans. Image Process. 28(1): 410-425 (2019) - [j54]Denis K. Samuylov, Prateek Purwar, Gábor Székely, Grégory Paul:
Modeling Point Spread Function in Fluorescence Microscopy With a Sparse Gaussian Mixture: Tradeoff Between Accuracy and Efficiency. IEEE Trans. Image Process. 28(8): 3688-3702 (2019) - [c148]Máté Horváth, Levente Buttyán, Gábor Székely, Dóra Neubrandt:
There Is Always an Exception: Controlling Partial Information Leakage in Secure Computation. ICISC 2019: 133-149 - [i3]Máté Horváth, Levente Buttyán, Gábor Székely, Dóra Neubrandt:
There Is Always an Exception: Controlling Partial Information Leakage in Secure Computation. IACR Cryptol. ePrint Arch. 2019: 1302 (2019) - 2018
- [j53]Lazaros Vlachopoulos, Gábor Székely, Christian Gerber, Philipp Fürnstahl:
A scale-space curvature matching algorithm for the reconstruction of complex proximal humeral fractures. Medical Image Anal. 43: 142-156 (2018) - [i2]Denis K. Samuylov, Prateek Purwar, Gábor Székely, Grégory Paul:
Modelling Point Spread Function in Fluorescence Microscopy with a Sparse Combination of Gaussian Mixture: Trade-off between Accuracy and Efficiency. CoRR abs/1809.01579 (2018) - [i1]Denis K. Samuylov, Gábor Székely, Grégory Paul:
A Bayesian framework for the analog reconstruction of kymographs from fluorescence microscopy data. CoRR abs/1809.01590 (2018) - 2017
- [j52]Aymen Laadhari, Gábor Székely:
Eulerian finite element method for the numerical modeling of fluid dynamics of natural and pathological aortic valves. J. Comput. Appl. Math. 319: 236-261 (2017) - [j51]Aymen Laadhari, Pierre Saramito, Chaouqi Misbah, Gábor Székely:
Fully implicit methodology for the dynamics of biomembranes and capillary interfaces by combining the level set and Newton methods. J. Comput. Phys. 343: 271-299 (2017) - [j50]Valeriy Vishnevskiy, Tobias Gass, Gábor Székely, Christine Tanner, Orçun Göksel:
Isotropic Total Variation Regularization of Displacements in Parametric Image Registration. IEEE Trans. Medical Imaging 36(2): 385-395 (2017) - [c147]Denis K. Samuylov, Gábor Székely, Grégory Paul:
Tracking microtubule ends is more than point tracking. ISBI 2017: 808-812 - 2016
- [j49]Christine Tanner, Y. Zur, Karen French, Golnoosh Samei, Jan Strehlow, G. Sat, Helen McLeod, Graeme Houston, Sebastian Kozerke, Gábor Székely, Andreas Melzer, Tobias Preußer:
In vivo validation of spatio-temporal liver motion prediction from motion tracked on MR thermometry images. Int. J. Comput. Assist. Radiol. Surg. 11(6): 1143-1152 (2016) - [j48]Michael Tschannen, Lazaros Vlachopoulos, Christian Gerber, Gábor Székely, Philipp Fürnstahl:
Regression forest-based automatic estimation of the articular margin plane for shoulder prosthesis planning. Medical Image Anal. 31: 88-97 (2016) - [j47]Gábor Székely, Lutz-Peter Nolte:
Image guidance in orthopaedics and traumatology: A historical perspective. Medical Image Anal. 33: 79-83 (2016) - [j46]Alessandro Crimi, Maxim Makhinya, Ulrich Baumann, Christoph Thalhammer, Gábor Székely, Orcun Goksel:
Automatic Measurement of Venous Pressure Using B-Mode Ultrasound. IEEE Trans. Biomed. Eng. 63(2): 288-299 (2016) - [j45]Bjoern H. Menze, Koen Van Leemput, Danial Lashkari, Tammy Riklin-Raviv, Ezequiel Geremia, Esther Alberts, Philipp Gruber, Susanne Wegener, Marc-André Weber, Gábor Székely, Nicholas Ayache, Polina Golland:
A Generative Probabilistic Model and Discriminative Extensions for Brain Lesion Segmentation - With Application to Tumor and Stroke. IEEE Trans. Medical Imaging 35(4): 933-946 (2016) - [c146]Christine Tanner, Minglei Yang, Golnoosh Samei, Gábor Székely:
Influence of inter-subject correspondences on liver motion predictions from population models. ISBI 2016: 286-289 - [c145]Florian Wassmer, Valeria De Luca, Ruben Casanova, Alex Soltermann, Gábor Székely:
Automatic segmentation of lung carcinoma in histological images using a visual dictionary. ISBI 2016: 1037-1040 - [c144]Xiaoran Chen, Christine Tanner, Orçun Göksel, Gábor Székely, Valeria De Luca:
Temporal Prediction of Respiratory Motion Using a Trained Ensemble of Forecasting Methods. MIAR 2016: 383-391 - 2015
- [j44]Peter Baki, Sergio J. Sanabria, Gabor Kosa, Gábor Székely, Orcun Goksel:
Thermal expansion imaging for monitoring lesion depth using M-mode ultrasound during cardiac RF ablation: in vitro study. Int. J. Comput. Assist. Radiol. Surg. 10(6): 681-693 (2015) - [j43]Matthias Schneider, Sven Hirsch, Bruno Weber, Gábor Székely, Bjoern H. Menze:
Joint 3-D vessel segmentation and centerline extraction using oblique Hough forests with steerable filters. Medical Image Anal. 19(1): 220-249 (2015) - [j42]Markus Rempfler, Matthias Schneider, Giovanna D. Ielacqua, Xianghui Xiao, Stuart R. Stock, Jan Klohs, Gábor Székely, Bjoern Andres, Bjoern H. Menze:
Reconstructing cerebrovascular networks under local physiological constraints by integer programming. Medical Image Anal. 25(1): 86-94 (2015) - [j41]Bjoern H. Menze, András Jakab, Stefan Bauer, Jayashree Kalpathy-Cramer, Keyvan Farahani, Justin S. Kirby, Yuliya Burren, Nicole Porz, Johannes Slotboom, Roland Wiest, Levente Lanczi, Elizabeth R. Gerstner, Marc-André Weber, Tal Arbel, Brian B. Avants, Nicholas Ayache, Patricia Buendia, D. Louis Collins, Nicolas Cordier, Jason J. Corso, Antonio Criminisi, Tilak Das, Herve Delingette, Çagatay Demiralp, Christopher R. Durst, Michel Dojat, Senan Doyle, Joana Festa, Florence Forbes, Ezequiel Geremia, Ben Glocker, Polina Golland, Xiaotao Guo, Andac Hamamci, Khan M. Iftekharuddin, Raj Jena, Nigel M. John, Ender Konukoglu, Danial Lashkari, José Antonio Mariz, Raphael Meier, Sérgio Pereira, Doina Precup, Stephen J. Price, Tammy Riklin Raviv, Syed M. S. Reza, Michael T. Ryan, Duygu Sarikaya, Lawrence H. Schwartz, Hoo-Chang Shin, Jamie Shotton, Carlos A. Silva, Nuno J. Sousa, Nagesh K. Subbanna, Gábor Székely, Thomas J. Taylor, Owen M. Thomas, Nicholas J. Tustison, Gözde B. Ünal, Flor Vasseur, Max Wintermark, Dong Hye Ye, Liang Zhao, Binsheng Zhao, Darko Zikic, Marcel Prastawa, Mauricio Reyes, Koen Van Leemput:
The Multimodal Brain Tumor Image Segmentation Benchmark (BRATS). IEEE Trans. Medical Imaging 34(10): 1993-2024 (2015) - [c143]Markus Rempfler, Matthias Schneider, Giovanna D. Ielacqua, Tim Sprenger, Xianghui Xiao, Stuart R. Stock, Jan Klohs, Gábor Székely, Bjoern Andres, Bjoern H. Menze:
Rekonstruktion zerebraler Gefässnetzwerke aus in-vivo μMRA mittels physiologischem Vorwissen zur lokalen Gefässgeometrie. Bildverarbeitung für die Medizin 2015: 161-166 - [c142]Denis K. Samuylov, Lukas A. Widmer, Gábor Székely, Grégory Paul:
Mapping complex spatio-temporal models to image space: The virtual microscope. ISBI 2015: 707-711 - [c141]Valeriy Vishnevskiy, Tobias Gass, Gábor Székely, Christine Tanner, Orcun Goksel:
Unsupervised detection of local errors in image registration. ISBI 2015: 841-844 - [c140]Taha Sabri Koltukluoglu, Sven Hirsch, Christian Binter, Sebastian Kozerke, Gábor Székely, Aymen Laadhari:
A robust comparison approach of velocity data between MRI and CFD based on divergence-free space projection. ISBI 2015: 1393-1397 - [c139]Christine Tanner, Golnoosh Samei, Gábor Székely:
Robust exemplar model of respiratory liver motion and individualization using an additional breath-hold image. ISBI 2015: 1576-1579 - [c138]Golnoosh Samei, Gábor Székely, Christine Tanner:
Prediction of Rib Motion During Free-Breathing from Liver Observations Using 4D MRI. CLIP@MICCAI 2015: 45-53 - [c137]Valeriy Vishnevskiy, Christian T. Stoeck, Gábor Székely, Christine Tanner, Sebastian Kozerke:
Simultaneous Denoising and Registration for Accurate Cardiac Diffusion Tensor Reconstruction from MRI. MICCAI (1) 2015: 215-222 - [c136]Valeria De Luca, Gábor Székely, Christine Tanner:
Gated-tracking: Estimation of Respiratory Motion with Confidence. MICCAI (3) 2015: 451-458 - [c135]Taha Sabri Koltukluoglu, Christian Binter, Christine Tanner, Sven Hirsch, Sebastian Kozerke, Gábor Székely, Aymen Laadhari:
A Partial Domain Approach to Enable Aortic Flow Simulation Without Turbulent Modeling. MICCAI (2) 2015: 544-551 - 2014
- [j40]Michael Gessat, Raoul Hopf, Thomas Pollok, Christoph Russ, Thomas Frauenfelder, Simon Harald Sündermann, Sven Hirsch, Edoardo Mazza, Gábor Székely, Volkmar Falk:
Image-Based Mechanical Analysis of Stent Deformation: Concept and Exemplary Implementation for Aortic Valve Stents. IEEE Trans. Biomed. Eng. 61(1): 4-15 (2014) - [j39]Tobias Gass, Gábor Székely, Orcun Goksel:
Simultaneous Segmentation and Multiresolution Nonrigid Atlas Registration. IEEE Trans. Image Process. 23(7): 2931-2943 (2014) - [c134]Alessandro Crimi, Maxim Makhinya, Ulrich Baumann, Gábor Székely, Orcun Goksel:
Vessel tracking for ultrasound-based venous pressure measurement. ISBI 2014: 306-309 - [c133]Christine Tanner, Koen A. J. Eppenhof, Jaap Gelderblom, Gábor Székely:
Decision fusion for temporal prediction of respiratory liver motion. ISBI 2014: 698-701 - [c132]Golnoosh Samei, Christine Tanner, Gábor Székely:
RIB detection in MR images using shape priors and appearance models. ISBI 2014: 798-801 - [c131]Christoph Russ, Raoul Hopf, Simon Harald Sündermann, Silvia Born, Sven Hirsch, Volkmar Falk, Gábor Székely, Michael Gessat:
Computational Stent Placement in Transcatheter Aortic Valve Implantation. ISBMS 2014: 95-105 - [c130]Matthias Schneider, Sven Hirsch, Bruno Weber, Gábor Székely, Bjoern H. Menze:
TGIF: Topological Gap In-Fill for Vascular Networks - A Generative PhysiologicalModeling Approach. MICCAI (2) 2014: 89-96 - [c129]Christine Tanner, Golnoosh Samei, Gábor Székely:
Improved Reconstruction of 4D-MR Images by Motion Predictions. MICCAI (1) 2014: 146-153 - [c128]Tobias Gass, Gábor Székely, Orcun Goksel:
Multi-atlas Segmentation and Landmark Localization in Images with Large Field of View. MCV 2014: 171-180 - [c127]Valeriy Vishnevskiy, Tobias Gass, Gábor Székely, Orcun Goksel:
Total Variation Regularization of Displacements in Parametric Image Registration. ABDI@MICCAI 2014: 211-220 - [c126]Markus Rempfler, Matthias Schneider, Giovanna D. Ielacqua, Xianghui Xiao, Stuart R. Stock, Jan Klohs, Gábor Székely, Bjoern Andres, Bjoern H. Menze:
Extracting Vascular Networks under Physiological Constraints via Integer Programming. MICCAI (2) 2014: 505-512 - [c125]Golnoosh Samei, Gábor Székely, Christine Tanner:
Detection and Registration of Ribs in MRI Using Geometric and Appearance Models. MICCAI (1) 2014: 706-713 - [c124]Tobias Gass, Gábor Székely, Orcun Goksel:
Detection and correction of inconsistency-based errors in non-rigid registration. Medical Imaging: Image Processing 2014: 90341B - [c123]Tobias Gass, Gábor Székely, Orcun Goksel:
Auxiliary anatomical labels for joint segmentation and atlas registration. Medical Imaging: Image Processing 2014: 90343T - [c122]Tobias Gass, Gábor Székely, Orcun Goksel:
Registration Fusion Using Markov Random Fields. WBIR 2014: 213-222 - 2013
- [j38]Christine Tanner, Guido van Schie, Jan M. Lesniak, Nico Karssemeijer, Gábor Székely:
Improved location features for linkage of regions across ipsilateral mammograms. Medical Image Anal. 17(8): 1265-1272 (2013) - [j37]René Mooser, Fredrik Forsberg, Erwin Hack, Gábor Székely, Urs Sennhauser:
Estimation of affine transformations directly from tomographic projections in two and three dimensions. Mach. Vis. Appl. 24(2): 419-434 (2013) - [c121]Christoph Russ, Raoul Hopf, Sven Hirsch, Simon H. Sündermann, Volkmar Falk, Gábor Székely, Michael Gessat:
Simulation of transcatheter aortic valve implantation under consideration of leaflet calcification. EMBC 2013: 711-714 - [c120]Orcun Goksel, Seokhee Jeon, Matthias Harders, Gábor Székely:
Deformable haptic model generation through manual exploration. World Haptics 2013: 543-548 - [c119]Julien Egger, Ajit S. Mallik, Dominik Szczerba, Daniel A. Rüfenacht, Gábor Székely, Sven Hirsch:
Spatial Stabilization Strategies Applied to Multiphysics Modeling of Blood Clotting Using a Modified PTT Model. ICCS 2013: 996-1005 - [c118]Christine Tanner, Golnoosh Samei, Gábor Székely:
Investigating anisotropic diffusion for the registration of abdominal MR images. ISBI 2013: 484-487 - [c117]Orcun Goksel, Tobias Gass, Valery Vishnevsky, Gábor Székely:
Estimation of atlas-based segmentation outcome: Leveraging information from unsegmented images. ISBI 2013: 1215-1218 - [c116]Golnoosh Samei, Grzegorz Chlebus, Gábor Székely, Christine Tanner:
Adaptive Confidence Regions of Motion Predictions from Population Exemplar Models. Abdominal Imaging 2013: 231-240 - [c115]Valeria De Luca, Michael Tschannen, Gábor Székely, Christine Tanner:
A Learning-Based Approach for Fast and Robust Vessel Tracking in Long Ultrasound Sequences. MICCAI (1) 2013: 518-525 - [c114]Dirk Boye, Golnoosh Samei, Johannes Schmidt, Gábor Székely, Christine Tanner:
Population based modeling of respiratory lung motion and prediction from partial information. Medical Imaging: Image Processing 2013: 86690U - 2012
- [j36]Philipp Fürnstahl, Gábor Székely, Christian Gerber, Jürg Hodler, Jess Gerrit Snedeker, Matthias Harders:
Computer assisted reconstruction of complex proximal humerus fractures for preoperative planning. Medical Image Anal. 16(3): 704-720 (2012) - [j35]Rémi Blanc, Christof Seiler, Gábor Székely, Lutz-Peter Nolte, Mauricio Reyes:
Statistical model based shape prediction from a combination of direct observations and various surrogates: Application to orthopaedic research. Medical Image Anal. 16(6): 1156-1166 (2012) - [j34]Matthias Schneider, Johannes Reichold, Bruno Weber, Gábor Székely, Sven Hirsch:
Tissue metabolism driven arterial tree generation. Medical Image Anal. 16(7): 1397-1414 (2012) - [j33]Rémi Blanc, Gábor Székely:
Confidence Regions for Statistical Model Based Shape Prediction From Sparse Observations. IEEE Trans. Medical Imaging 31(6): 1300-1310 (2012) - [c113]Valeria De Luca, Christine Tanner, Gábor Székely:
Speeding-up image registration for repetitive motion scenarios. ISBI 2012: 1355-1358 - [c112]Jan M. Lesniak, Guido van Schie, Christine Tanner, Bram Platel, Henkjan J. Huisman, Nico Karssemeijer, Gábor Székely:
Multimodal Classification of Breast Masses in Mammography and MRI Using Unimodal Feature Selection and Decision Fusion. Digital Mammography / IWDM 2012: 88-95 - [c111]Tobias Gass, Gábor Székely, Orcun Goksel:
Semi-supervised Segmentation Using Multiple Segmentation Hypotheses from a Single Atlas. MCV 2012: 29-37 - [c110]Matthias Schneider, Sven Hirsch, Gábor Székely, Bruno Weber, Bjoern H. Menze:
Oblique Random Forests for 3-D Vessel Detection Using Steerable Filters and Orthogonal Subspace Filtering. MCV 2012: 142-154 - [c109]Golnoosh Samei, Christine Tanner, Gábor Székely:
Predicting Liver Motion Using Exemplar Models. Abdominal Imaging 2012: 147-157 - 2011
- [c108]Christine Tanner, Nico Karssemeijer, Gábor Székely:
Deformation models for registering MR and 3D ultrasound breast images. ISBI 2011: 582-585 - [c107]Marcel Krcah, Gábor Székely, Rémi Blanc:
Fully automatic and fast segmentation of the femur bone from 3D-CT images with no shape prior. ISBI 2011: 2087-2090 - [c106]Jan M. Lesniak, Rianne Hupse, Michiel Kallenberg, Maurice Samulski, Rémi Blanc, Nico Karssemeijer, Gábor Székely:
Computer aided detection of breast masses in mammography using support vector machine classification. Medical Imaging: Computer-Aided Diagnosis 2011: 79631K - [c105]Matthias Schneider, Sven Hirsch, Bruno Weber, Gábor Székely:
Physiologically Based Construction of Optimized 3-D Arterial Tree Models. MICCAI (1) 2011: 404-411 - [c104]Valeria De Luca, H. Grabner, Lorena Petrusca, Rares Salomir, Gábor Székely, Christine Tanner:
Keep Breathing! Common Motion Helps Multi-modal Mapping. MICCAI (1) 2011: 597-604 - [c103]Ekaterina Syrkina, Rémi Blanc, Gábor Székely:
Propagating uncertainties in statistical model based shape prediction. Medical Imaging: Image Processing 2011: 796240 - [e4]Gábor Székely, Horst K. Hahn:
Information Processing in Medical Imaging - 22nd International Conference, IPMI 2011, Kloster Irsee, Germany, July 3-8, 2011. Proceedings. Lecture Notes in Computer Science 6801, Springer 2011, ISBN 978-3-642-22091-3 [contents] - 2010
- [j32]Axel Krauth, Rémi Blanc, Alejandra Poveda, Daniel Jeanmonod, Anne Morel, Gábor Székely:
A mean three-dimensional atlas of the human thalamus: Generation from multiple histological data. NeuroImage 49(3): 2053-2062 (2010) - [c102]Bryn A. Lloyd, Sven Hirsch, Gábor Székely:
Optimization of Case-Specific Vascular Tree Models Based on Vessel Size Imaging. ISMBS 2010: 38-48 - [c101]Robert H. P. McGregor, Bryn A. Lloyd, Dominik Szczerba, Gábor Székely:
Efficient Generation of Corresponding Meshes for Biomedical Flow Simulations. ISMBS 2010: 49-58 - [c100]Jürgen Fornaro, Gábor Székely, Matthias Harders:
Semi-automatic Segmentation of Fractured Pelvic Bones for Surgical Planning. ISMBS 2010: 82-89 - [c99]Christine Tanner, John H. Hipwell, David J. Hawkes, Gábor Székely:
Breast Shapes on Real and Simulated Mammograms. Digital Mammography / IWDM 2010: 540-547 - [c98]Christine Tanner, Timothy J. Carter, David J. Hawkes, Gábor Székely:
Cylindrical affine transformation model for image registration. Medical Imaging: Image Processing 2010: 76232P - [c97]Dominik Szczerba, Esra Neufeld, Marcel Zefferer, Gábor Székely, Niels Kuster:
Unstructured mesh generation from the Virtual Family models for whole body biomedical simulations. ICCS 2010: 837-844
2000 – 2009
- 2009
- [j31]Stefan C. Saur, Hatem Alkadhi, Lotus Desbiolles, Thomas J. Fuchs, Gábor Székely, Philippe C. Cattin:
Guided review by frequent itemset mining: additional evidence for plaque detection. Int. J. Comput. Assist. Radiol. Surg. 4(3): 263-271 (2009) - [j30]Amira Serifovic-Trbalic, Damir Demirovic, Naser Prljaca, Gábor Székely, Philippe C. Cattin:
Intensity-based elastic registration incorporating anisotropic landmark errors and rotational information. Int. J. Comput. Assist. Radiol. Surg. 4(5): 463-468 (2009) - [j29]Raphael Höver, Gabor Kosa, Gábor Székely, Matthias Harders:
Data-Driven Haptic Rendering—From Viscous Fluids to Visco-Elastic Solids. IEEE Trans. Haptics 2(1): 15-27 (2009) - [j28]Matthias Harders, Gérald Bianchi, Benjamin Knoerlein, Gábor Székely:
Calibration, Registration, and Synchronization for High Precision Augmented Reality Haptics. IEEE Trans. Vis. Comput. Graph. 15(1): 138-149 (2009) - [c96]Stefan C. Saur, Hatem Alkadhi, Luca Regazzoni, Simon Eugster, Gábor Székely, Philippe C. Cattin:
Contrast Enhancement with Dual Energy CT for the Assessment of Atherosclerosis. Bildverarbeitung für die Medizin 2009: 61-65 - [c95]Kathrin Burckhardt, Dominik Szczerba, Jed Brown, Krishnamurthy Muralidhar, Gábor Székely:
Fast Implicit Simulation of Oscillatory Flow in Human Abdominal Bifurcation Using a Schur Complement Preconditioner. Euro-Par 2009: 747-759 - [c94]Raphael Höver, Massimiliano Di Luca, Gábor Székely, Matthias Harders:
Computationally efficient techniques for data-driven haptic rendering. WHC 2009: 39-44 - [c93]Sven Hirsch, Dominik Szczerba, Bryn A. Lloyd, Michael Bajka, Niels Kuster, Gábor Székely:
A Mechano-Chemical Model of a Solid Tumor for Therapy Outcome Predictions. ICCS (1) 2009: 715-724 - [c92]Rémi Blanc, Ekaterina Syrkina, Gábor Székely:
Estimating the Confidence of Statistical Model Based Shape Prediction. IPMI 2009: 602-613 - [c91]Gabor Kosa, Raphael Höver, Dominik Szczerba, Gábor Székely, Matthias Harders:
Fast experimental estimation of drag coefficients of arbitrary structures. IROS 2009: 249-254 - [c90]Nico Karssemeijer, Henkjan J. Huisman, David J. Hawkes, John H. Hipwell, Tobias Böhler, Jan M. Lesniak, Christine Tanner, Gábor Székely, Wiro J. Niessen, Horst K. Hahn:
Integrating Biological Knowledge, Novel Imaging Modalities, and Modeling in Breast Cancer Diagnosis. ISBI 2009: 386-389 - [c89]Janick Cardinale, Alexander Rauch, Yves Barral, Gábor Székely, Ivo F. Sbalzarini:
Bayesian Image Analysis with On-Line Confidence Estimates and its Application to Microtubule Tracking. ISBI 2009: 1091-1094 - [c88]Rémi Blanc, Mauricio Reyes, Christof Seiler, Gábor Székely:
Conditional Variability of Statistical Shape Models Based on Surrogate Variables. MICCAI (1) 2009: 84-91 - [c87]Robert H. P. McGregor, Dominik Szczerba, Krishnamurthy Muralidhar, Gábor Székely:
A Fast Alternative to Computational Fluid Dynamics for High Quality Imaging of Blood Flow. MICCAI (1) 2009: 124-131 - [c86]Olexiy Lazarevych, Jonas Spillmann, Christoph Renner, Gábor Székely, Matthias Harders:
Friction Handling for Penalty-Based Methods. VRIPHYS 2009: 135-144 - 2008
- [j27]Adrian Andronache, Martin von Siebenthal, Gábor Székely, Philippe C. Cattin:
Non-rigid registration of multi-modal images using both mutual information and cross-correlation. Medical Image Anal. 12(1): 3-15 (2008) - [j26]Stefan Tuchschmid, Michael Bajka, Dominik Szczerba, Bryn A. Lloyd, Gábor Székely, Matthias Harders:
Modeling intravasation of liquid distension media in surgical simulators. Medical Image Anal. 12(5): 567-576 (2008) - [j25]Matthias Harders, Daniel Bachofen, Markus Grassi, Michael Bajka, Ulrich Spaelter, Matthias Teschner, Bruno Heidelberger, Raimundo Sierra, Denis Steinemann, Stefan Tuchschmid, János Zátonyi, Gábor Székely:
Virtual Reality Based Simulation of Hysteroscopic Interventions. Presence Teleoperators Virtual Environ. 17(5): 441-462 (2008) - [c85]Stefan C. Saur, Caroline Kühnel, Tobias Boskamp, Gábor Székely, Philippe C. Cattin:
Automatic Ascending Aorta Detection in CTA Datasets. Bildverarbeitung für die Medizin 2008: 323-327 - [c84]Bryn A. Lloyd, S. Kirac, Gábor Székely, Matthias Harders:
Identification of Dynamic Mass Spring Parameters for Deformable Body Simulation. Eurographics (Short Papers) 2008: 131-134 - [c83]Raphael Höver, Matthias Harders, Gábor Székely:
Data-Driven Haptic Rendering of Visco-Elastic Effects. HAPTICS 2008: 201-208 - [c82]Dominik Szczerba, Bryn A. Lloyd, Michael Bajka, Gábor Székely:
A Multiphysics Model of Myoma Growth. ICCS (2) 2008: 187-196 - [c81]Philipp Fürnstahl, Thomas J. Fuchs, Andreas Schweizer, Ladislav Nagy, Gábor Székely, Matthias Harders:
Automatic and robust forearm segmentation using graph cuts. ISBI 2008: 77-80 - [c80]Dominik Szczerba, Robert H. P. McGregor, Krishnamurthy Muralidhar, Gábor Székely:
Mechanism and Localization of Wall Failure During Abdominal Aortic Aneurysm Formation. ISBMS 2008: 119-126 - [c79]Stefan C. Saur, Hatem Alkadhi, Lotus Desbiolles, Gábor Székely, Philippe C. Cattin:
Automatic Detection of Calcified Coronary Plaques in Computed Tomography Data Sets. MICCAI (1) 2008: 170-177 - [c78]Robert H. P. McGregor, Dominik Szczerba, Martin von Siebenthal, Krishnamurthy Muralidhar, Gábor Székely:
Exploring the Use of Proper Orthogonal Decomposition for Enhancing Blood Flow Images Via Computational Fluid Dynamics. MICCAI (2) 2008: 782-789 - [p2]Gábor Székely:
Voronoi Skeletons. Medial Representations 2008: 191-221 - [p1]Matthias Harders, Peter Leskovský, Theresa Cooke, Marc O. Ernst, Gábor Székely:
Design and Evaluation of Haptic Soft Tissue Interaction. The Sense of Touch and its Rendering 2008: 225-244 - [e3]Dimitris N. Metaxas, Leon Axel, Gabor Fichtinger, Gábor Székely:
Medical Image Computing and Computer-Assisted Intervention - MICCAI 2008, 11th International Conference, New York, NY, USA, September 6-10, 2008, Proceedings, Part I. Lecture Notes in Computer Science 5241, Springer 2008, ISBN 978-3-540-85987-1 [contents] - [e2]Dimitris N. Metaxas, Leon Axel, Gabor Fichtinger, Gábor Székely:
Medical Image Computing and Computer-Assisted Intervention - MICCAI 2008, 11th International Conference, New York, NY, USA, September 6-10, 2008, Proceedings, Part II. Lecture Notes in Computer Science 5242, Springer 2008, ISBN 978-3-540-85989-5 [contents] - 2007
- [j24]Bryn A. Lloyd, Gábor Székely, Matthias Harders:
Identification of Spring Parameters for Deformable Object Simulation. IEEE Trans. Vis. Comput. Graph. 13(5): 1081-1094 (2007) - [c77]Benjamin Knoerlein, Gábor Székely, Matthias Harders:
Visuo-haptic collaborative augmented reality ping-pong. Advances in Computer Entertainment Technology 2007: 91-94 - [c76]Dominik Szczerba, Robert H. P. McGregor, Gábor Székely:
High Quality Surface Mesh Generation for Multi-physics Bio-medical Simulations. International Conference on Computational Science (1) 2007: 906-913 - [c75]Ekaterina Syrkina, Miguel Ángel González Ballester, Gábor Székely:
Correspondence Establishment in Statistical Modeling of Shapes with Arbitrary Topology. ICCV 2007: 1-7 - [c74]Robert H. P. McGregor, Dominik Szczerba, Gábor Székely:
A Multiphysics Simulation of a Healthy and a Diseased Abdominal Aorta. MICCAI (2) 2007: 227-234 - [c73]Christian Wengert, Lukas Bossard, Armin Häberling, Charles Baur, Gábor Székely, Philippe C. Cattin:
Endoscopic Navigation for Minimally Invasive Suturing. MICCAI (2) 2007: 620-627 - [c72]Martin von Siebenthal, Gábor Székely, Alan J. Lomax, Philippe C. Cattin:
Inter-subject Modelling of Liver Deformation During Radiation Therapy. MICCAI (1) 2007: 659-666 - [c71]Stefan Tuchschmid, Michael Bajka, Dominik Szczerba, Bryn A. Lloyd, Gábor Székely, Matthias Harders:
Modelling Intravasation of Liquid Distension Media in Surgical Simulators. MICCAI (1) 2007: 717-724 - [c70]Matthias Harders, Gábor Székely:
Using Statistical Shape Analysis for the Determination of Uterine Deformation States During Hydrometra. MICCAI (2) 2007: 858-865 - [c69]Bryn A. Lloyd, Dominik Szczerba, Gábor Székely:
A Coupled Finite Element Model of Tumor Growth and Vascularization. MICCAI (2) 2007: 874-881 - [c68]Matthias Harders, Ulrich Spaelter, Peter Leskovský, Gábor Székely, Hannes Bleuler:
Haptic Interface Module for Hysteroscopy Simulator System. MMVR 2007: 167-169 - [c67]Raimundo Sierra, Simon P. DiMaio, J. Wada, Nobuhiko Hata, Gábor Székely, Ron Kikinis, Ferenc A. Jolesz:
Patient Specific Simulation and Navigation of Ventriculoscopic Interventions. MMVR 2007: 433-435 - [c66]Stefan Tuchschmid, Michael Bajka, Daniel Bachofen, Gábor Székely, Matthias Harders:
Objective Surgical Performance Assessment for Virtual Hysteroscopy. MMVR 2007: 473-478 - 2006
- [j23]Raimundo Sierra, Gabriel Zsemlye, Gábor Székely, Michael Bajka:
Generation of variable anatomical models for surgical training simulators. Medical Image Anal. 10(2): 275-285 (2006) - [j22]Raimundo Sierra, Michael Bajka, Gábor Székely:
Tumor growth models to generate pathologies for surgical training simulators. Medical Image Anal. 10(3): 305-316 (2006) - [j21]Kathrin Burckhardt, Claudio Dora, Christian Gerber, Jürg Hodler, Gábor Székely:
Measuring orthopedic implant wear on standard radiographs with a precision in the 10 μm-range. Medical Image Anal. 10(4): 520-529 (2006) - [c65]Tamás Kovács, Philippe C. Cattin, Hatem Alkadhi, Simon Wildermuth, Gábor Székely:
Automatic Segmentation of the Vessel Lumen from 3D CTA Images of Aortic Dissection. Bildverarbeitung für die Medizin 2006: 161-165 - [c64]Peter Cech, Adrian Andronache, Liping Wang, Gábor Székely, Philippe C. Cattin:
Piecewise Rigid Multimodal Spine Registration. Bildverarbeitung für die Medizin 2006: 211-215 - [c63]Christian Wengert, Mireille Reeff, Philippe C. Cattin, Gábor Székely:
Fully Automatic Endoscope Calibration for Intraoperative Use. Bildverarbeitung für die Medizin 2006: 419-423 - [c62]Peter Cech, Philippe C. Cattin, Gábor Székely:
Automatic Identification of Critical Landmarks on the Third Ventricle . GI Jahrestagung (1) 2006: 459-466 - [c61]Mireille Reeff, Friederike Gerhard, Philippe C. Cattin, Gábor Székely:
Mosaicing of Endoscopic Placenta Images. GI Jahrestagung (1) 2006: 467-474 - [c60]Peter Leskovský, Matthias Harders, Gábor Székely:
Assessing the Fidelity of Haptically Rendered Deformable Objects. HAPTICS 2006: 3 - [c59]Dominik Szczerba, Gábor Székely, Haymo Kurz:
A Multiphysics Model of Capillary Growth and Remodeling. International Conference on Computational Science (2) 2006: 86-93 - [c58]Stefan Tuchschmid, Markus Grassi, Daniel Bachofen, P. Früh, Markus Thaler, Gábor Székely, Matthias Harders:
A Flexible Framework for Highly-Modular Surgical Simulation Systems. ISBMS 2006: 84-92 - [c57]Gérald Bianchi, Christoph Jung, Benjamin Knoerlein, Gábor Székely, Matthias Harders:
High-fidelity visuo-haptic interaction with virtual objects in multi-modal AR systems. ISMAR 2006: 187-196 - [c56]Tamás Kovács, Philippe C. Cattin, Hatem Alkadhi, Simon Wildermuth, Gábor Székely:
Automatic Segmentation of the Aortic Dissection Membrane from 3D CTA Images. MIAR 2006: 317-324 - [c55]Philippe C. Cattin, Herbert Bay, Luc Van Gool, Gábor Székely:
Retina Mosaicing Using Local Features. MICCAI (2) 2006: 185-192 - [c54]Christian Wengert, Philippe C. Cattin, John M. Duff, Charles Baur, Gábor Székely:
Markerless Endoscopic Registration and Referencing. MICCAI (1) 2006: 816-823 - [c53]Christoph Spuhler, Matthias Harders, Gábor Székely:
Fast and robust extraction of centerlines in 3D tubular structures using a scattered-snakelet approach. Medical Imaging: Image Processing 2006: 614442 - [c52]Denis Steinemann, Matthias Harders, Markus H. Gross, Gábor Székely:
Hybrid Cutting of Deformable Solids. VR 2006: 35-42 - [c51]Adrian Andronache, Philippe C. Cattin, Gábor Székely:
Local Intensity Mapping for Hierarchical Non-rigid Registration of Multi-modal Images Using the Cross-Correlation Coefficient. WBIR 2006: 26-33 - [e1]Matthias Harders, Gábor Székely:
Biomedical Simulation, Third International Symposium, ISBMS 2006, Zurich, Switzerland, July 10-11, 2006, Proceedings. Lecture Notes in Computer Science 4072, Springer 2006, ISBN 3-540-36009-3 [contents] - 2005
- [j20]János Zátonyi, Rupert Paget, Gábor Székely, Markus Grassi, Michael Bajka:
Real-time synthesis of bleeding for virtual hysteroscopy. Medical Image Anal. 9(3): 255-266 (2005) - [j19]Kathrin Burckhardt, Gábor Székely, Hubert Nötzli, Jürg Hodler, Christian Gerber:
Submillimeter measurement of cup migration in clinical standard radiographs. IEEE Trans. Medical Imaging 24(5): 676-688 (2005) - [c50]Diana Wald, Mireille Reeff, Gábor Székely, Philippe C. Cattin, Dietrich Paulus:
Fließende Überblendung von Endoskopiebildern für die Erstellung eines Mosaiks. Bildverarbeitung für die Medizin 2005: 287-291 - [c49]Dominik Szczerba, Gábor Székely:
A Computational Model of Micro-vascular Growth. International Conference on Computational Science (3) 2005: 17-24 - [c48]Gérald Bianchi, Christian Wengert, Matthias Harders, Philippe C. Cattin, Gábor Székely:
Camera-Marker Alignment Framework and Comparison with Hand-Eye Calibration for Augmented Reality Applications. ISMAR 2005: 188-189 - [c47]Martin von Siebenthal, Philippe C. Cattin, U. Gamper, Alan J. Lomax, Gábor Székely:
4D MR Imaging Using Internal Respiratory Gating. MICCAI (2) 2005: 336-343 - [c46]Matthias Harders, Denis Steinemann, Markus H. Gross, Gábor Székely:
A Hybrid Cutting Approach for Hysteroscopy Simulation. MICCAI (2) 2005: 567-574 - [c45]Raimundo Sierra, János Zátonyi, Michael Bajka, Gábor Székely, Matthias Harders:
Hydrometra Simulation for VR-Based Hysteroscopy Training. MICCAI (2) 2005: 575-582 - [c44]Dominik Szczerba, Gábor Székely:
Simulating Vascular Systems in Arbitrary Anatomies. MICCAI (2) 2005: 641-648 - [c43]Adrian Andronache, Philippe C. Cattin, Gábor Székely:
Adaptive Subdivision for Hierarchical Non-rigid Registration of Multi-modal Images Using Mutual Information. MICCAI (2) 2005: 976-983 - 2004
- [c42]Raimundo Sierra, Michael Bajka, Celalettin Karadogan, Gábor Székely, Matthias Harders:
Coherent Scene Generation for Surgical Simulators. ISMS 2004: 221-229 - [c41]Gérald Bianchi, Barbara Solenthaler, Gábor Székely, Matthias Harders:
Simultaneous Topology and Stiffness Identification for Mass-Spring Models Based on FEM Reference Deformations. MICCAI (2) 2004: 293-301 - 2003
- [j18]Stephen M. Pizer, Kaleem Siddiqi, Gábor Székely, James N. Damon, Steven W. Zucker:
Multiscale Medial Loci and Their Properties. Int. J. Comput. Vis. 55(2-3): 155-179 (2003) - [j17]Nobuhiko Hata, Gábor Székely:
Editorial. Medical Image Anal. 7(4): 401 (2003) - [j16]Matthias Harders, Gábor Székely:
Enhancing human-computer interaction in medical segmentation. Proc. IEEE 91(9): 1430-1442 (2003) - [c40]Raimundo Sierra, Michael Bajka, Gábor Székely:
Evaluation of different pathology generation strategies for surgical training simulators. CARS 2003: 376-381 - [c39]Martin Styner, Kumar T. Rajamani, Lutz-Peter Nolte, Gabriel Zsemlye, Gábor Székely, Christopher J. Taylor, Rhodri H. Davies:
Evaluation of 3D Correspondence Methods for Model Building. IPMI 2003: 63-75 - [c38]Raimundo Sierra, Michael Bajka, Gábor Székely:
Pathology Design for Surgical Training Simulators. IS4TH 2003: 375-384 - [c37]Raimundo Sierra, Michael Bajka, Gábor Székely:
Pathology Growth Model Based on Particles. MICCAI (1) 2003: 25-32 - [c36]Gérald Bianchi, Matthias Harders, Gábor Székely:
Mesh Topology Identification for Mass-Spring Models. MICCAI (1) 2003: 50-58 - [c35]János Zátonyi, Rupert Paget, Gábor Székely, Michael Bajka:
Real-Time Synthesis of Bleeding for Virtual Hysteroscopy. MICCAI (1) 2003: 67-74 - 2002
- [j15]Jess Gerrit Snedeker, Michael Bajka, J. M. Hug, Gábor Székely, Peter Niederer:
The creation of a high-fidelity finite element model of the kidney for use in trauma research. Comput. Animat. Virtual Worlds 13(1): 53-64 (2002) - [j14]Matthias Harders, Simon Wildermuth, Gábor Székely:
New paradigms for interactive 3D volume segmentation. Comput. Animat. Virtual Worlds 13(1): 85-95 (2002) - [j13]Martin Kauer, Vladimir Vuskovic, Jurg Dual, Gábor Székely, Michael Bajka:
Inverse finite element characterization of soft tissues. Medical Image Anal. 6(3): 275-287 (2002) - [c34]Guido Gerig, Martin Andreas Styner, Gábor Székely:
Statistical shape models for segmentation and structural analysis. ISBI 2002: 18-21 - [c33]Matthias Harders, Simon Wildermuth, Dominik Weishaupt, Gábor Székely:
Improving Virtual Endoscopy for the Intestinal Tract. MICCAI (2) 2002: 20-27 - [c32]Raimundo Sierra, Gábor Székely, Michael Bajka:
Generation of Pathologies for Surgical Training Simulators. MICCAI (2) 2002: 202-210 - [c31]Dominik Szczerba, Gábor Székely:
Macroscopic Modeling of Vascular Systems. MICCAI (2) 2002: 284-292 - [c30]Matthias Harders, Gábor Székely:
Improving Medical Segmentation with Haptic Interaction. VR 2002: 243-250 - 2001
- [c29]Daniel Welti, Guido Gerig, Ernst-Wilhelm Radü, Ludwig Kappos, Gábor Székely:
Spatio-temporal Segmentation of Active Multiple Sclerosis Lesions in Serial MRI Data. IPMI 2001: 438-445 - [c28]Martin Kauer, Vladimir Vuskovic, Jurg Dual, Gábor Székely, Michael Bajka:
Inverse Finite Element Characterization of Soft Tissues. MICCAI 2001: 128-136 - [c27]D. Serby, Matthias Harders, Gábor Székely:
A New Approach to Cutting into Finite Element Models. MICCAI 2001: 425-433 - [c26]Matthias Harders, Gábor Székely:
A Multi-modal Approach to Segmentation of Tubular Structures. MICCAI 2001: 1180-1182 - 2000
- [j12]Gábor Székely, Guido Gerig:
Model-based Segmentation of Radiological Images. Künstliche Intell. 14(3): 18-23 (2000) - [j11]Guido Gerig, Daniel Welti, Charles R. G. Guttmann, Alan C. F. Colchester, Gábor Székely:
Exploring the discrimination power of the time domain for segmentation and characterization of active lesions in serial MR data. Medical Image Anal. 4(1): 31-42 (2000) - [j10]Gábor Székely, Christian Brechbühler, R. Hutter, Alex Rhomberg, Nicholas Ironmonger, P. Schmid:
Modelling of soft tissue deformation for laparoscopic surgery simulation. Medical Image Anal. 4(1): 57-66 (2000) - [j9]Kathrin Burckhardt, Christian Gerber, Jürg Hodler, Hubert Nötzli, Gábor Székely:
Precision of distance determination using 3D to 2D projections: The error of migration measurement using X-ray images. Medical Image Anal. 4(4): 375-388 (2000) - [j8]Gábor Székely, Michael Bajka, Christian Brechbühler, Jurg Dual, Rolf Enzler, U. Haller, Johannes Hug, R. Hutter, Nicholas Ironmonger, Martin Kauer, V. Meier, Peter Niederer, Alex Rhomberg, P. Schmid, G. Schweitzer, Markus Thaler, Vladimir Vuskovic, Gerhard Tröster:
Virtual Reality Based Simulation of Endoscopic Surgery. Presence Teleoperators Virtual Environ. 9(3): 310-333 (2000) - [j7]Martin Styner, Christian Brechbühler, Gábor Székely, Guido Gerig:
Parametric Estimate of Intensity Inhomogeneities Applied to MRI. IEEE Trans. Medical Imaging 19(3): 153-165 (2000) - [c25]Michael Quicke, Christian Brechbühler, Johannes Hug, Hans Blattman, Gábor Székely:
Parameterization of Closed Surfaces for Parametric Surface Descriptio. CVPR 2000: 1354-1360 - [c24]Johannes Hug, Christian Brechbühler, Gábor Székely:
Model-Based Initialisation for Segmentation. ECCV (2) 2000: 290-306 - [c23]Vladimir Vuskovic, Martin Kauer, Gábor Székely, M. Reidy:
Realistic Force Feedback for Virtual Reality Based Diagnostic Surgery Simulators. ICRA 2000: 1592-1598 - [c22]Kathrin Burckhardt, Gábor Székely:
XIMIT - X-Ray Migration Measurement Using Implant Models and Image Templates. MICCAI 2000: 1195-1204
1990 – 1999
- 1999
- [j6]András Kelemen, Gábor Székely, Guido Gerig:
Elastic Model-Based Segmentation of 3-D Neuroradiological Data Sets. IEEE Trans. Medical Imaging 18(10): 828-839 (1999) - [c21]Jonathan Oakley, John Missimer, Gábor Székely:
Magnetic Resonance Imaging Based Correction and Reconstruction of Positron Emission Tomography Images. EMMCVPR 1999: 301-316 - [c20]Johannes Hug, Christian Brechbühler, Gábor Székely:
Tamed Snake: A Particle System for Robust Semi-automatic Segmentation. MICCAI 1999: 106-115 - [c19]Alex Rhomberg, Christian Brechbühler, Gábor Székely, Gerhard Tröster:
A parallel architecture for interactive FEM computations in a surgery simulator. PARCO 1999: 225-232 - 1998
- [c18]Guido Gerig, Daniel Welti, Charles R. G. Guttmann, Alan C. F. Colchester, Gábor Székely:
Exploring the Discrimination Power of the Time Domain for Segmentation and Characterization of Lesions in Serial MR Data. MICCAI 1998: 469-480 - [c17]Gábor Székely, Christian Brechbühler, R. Hutter, Alex Rhomberg, P. Schmid:
Modeling of Soft Tissue Deformation for Laparoscopic Surgery Simulation. MICCAI 1998: 550-561 - [c16]Dimitrios Ekatodramis, Gábor Székely, Guido Gerig:
Detecting and Inferring Brain Activation from Functional MRI by Hypothesis-Testing Based on the Likelihood Ratio. MICCAI 1998: 578-589 - 1997
- [j5]Walter M. Neuenschwander, Pascal Fua, Gábor Székely, Olaf Kübler:
Velcro Surfaces: Fast Initialization of Deformable Models. Comput. Vis. Image Underst. 65(2): 237-245 (1997) - [j4]Martin Näf, Gábor Székely, Ron Kikinis, Martha Elizabeth Shenton, Olaf Kübler:
3D Voronoi Skeletons and Their Usage for the Characterization and Recognition of 3D Organ Shape. Comput. Vis. Image Underst. 66(2): 147-161 (1997) - [j3]Walter M. Neuenschwander, Pascal Fua, Lee Iverson, Gábor Székely, Olaf Kübler:
Ziplock Snakes. Int. J. Comput. Vis. 25(3): 191-201 (1997) - [c15]Tuomo Vehkomäki, Guido Gerig, Gábor Székely:
A user-guided tool for efficient segmentation of medical image data. CVRMed 1997: 685-694 - 1996
- [j2]Gábor Székely, András Kelemen, Christian Brechbühler, Guido Gerig:
Segmentation of 2-D and 3-D objects from MRI volume data using constrained elastic deformations of flexible Fourier contour and surface models. Medical Image Anal. 1(1): 19-34 (1996) - [c14]Christian Brechbühler, Guido Gerig, Gábor Székely:
Compensation of Spatial Inhomogeneity in MRI Based on a Parametric Bias Estimate. VBC 1996: 141-146 - [c13]András Kelemen, Gábor Székely, H.-W. Reist, Guido Gerig:
Automatic Segmentation of Cell Nuclei from Confocal Laser Scanning Microscopy Images. VBC 1996: 193-202 - 1995
- [c12]Gábor Székely, András Kelemen, Christian Brechbühler, Guido Gerig:
Segmentation of 3D Objects from MRI Volume Data Using Constrained Elastic Deformations of Flexible Fourier Surface Models. CVRMed 1995: 495-505 - [c11]Walter M. Neuenschwander, Pascal Fua, Gábor Székely, Olaf Kübler:
Deformable Velcro(tm) Surfaces. ICCV 1995: 828-833 - [c10]Thomas Koller, Guido Gerig, Gábor Székely, Daniel Dettwiler:
Multiscale Detection of Curvilinear Structures in 2D and 3D Image Data. ICCV 1995: 864-869 - 1994
- [c9]Walter M. Neuenschwander, Pascal Fua, Gábor Székely, Olaf Kübler:
Initializing snakes [object delineation]. CVPR 1994: 658-663 - [c8]Walter M. Neuenschwander, Pascal Fua, Gábor Székely, Olaf Kübler:
Making snakes converge from minimal initialization. ICPR (1) 1994: 613-615 - [c7]Christophe Bron, Filip Sadlo, Gábor Székely, Walter M. Neuenschwander, Olaf Kübler, Jörg Schüpbach:
Segmentation and visualization of membranes and intracellular organelles contours in 3D electron microscopy. VBC 1994 - [c6]Gábor Székely, Thomas Koller, Ron Kikinis, Guido Gerig:
Structural description and combined 3D display for superior analysis of cerebral vascularity from MRA. VBC 1994 - 1993
- [j1]Nahum Kiryati, Gábor Székely:
Estimating shortest paths and minimal distances on digitized three-dimensional surfaces. Pattern Recognit. 26(11): 1623-1637 (1993) - [c5]Gábor Székely, Guido Gerig, Thomas Koller, Christian Brechbühler, Olaf Kübler:
Analysis of MR Angiography Volume Data Leading to the Structural Description of the Cerebral Vessel Tree. CAIP 1993: 687-692 - [c4]Guido Gerig, Gábor Székely, Thomas Koller:
Line-finding in 2-D and 3-D by Multi-valued Non-linear Diffusion of Feature Maps. DAGM-Symposium 1993: 289-296 - [c3]Robert L. Ogniewicz, Gábor Székely, Olaf Kübler:
Detection of Prominent Boundary Points based on Structural Characteristics of the Hierarchic Medial Axis Transform. DAGM-Symposium 1993: 321-331 - [c2]Guido Gerig, Thomas Koller, Gábor Székely, Christian Brechbühler, Olaf Kübler:
Symbolic Description of 3-D Structures Applied to Cerebral Vessel Tree Obtained from MR Angiography Volume Data. IPMI 1993: 94-111 - 1992
- [c1]Gábor Székely, Christian Brechbühler, Olaf Kübler, Robert L. Ogniewicz, Thomas F. Budinger:
Mapping the human cerebral cortex using 3-D medial manifolds. VBC 1992
Coauthor Index
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