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Gábor Székely: [Publications] [Author Rank by year] [Co-authors] [Prefers] [Cites] [Cited by]

Publications of Author

  1. 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. [Citation Graph (0, 0)][DBLP]
    CAIP, 1993, pp:687-692 [Conf]
  2. Raimundo Sierra, Michael Bajka, Gábor Székely
    Evaluation of different pathology generation strategies for surgical training simulators. [Citation Graph (0, 0)][DBLP]
    CARS, 2003, pp:376-381 [Conf]
  3. Michael Quicke, Christian Brechbühler, Johannes Hug, Hans Blattman, Gábor Székely
    Parameterization of Closed Surfaces for Parametric Surface Descriptio. [Citation Graph (0, 0)][DBLP]
    CVPR, 2000, pp:1354-1360 [Conf]
  4. 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. [Citation Graph (0, 0)][DBLP]
    CVRMed, 1995, pp:495-505 [Conf]
  5. Tuomo Vehkomäki, Guido Gerig, Gábor Székely
    A user-guided tool for efficient segmentation of medical image data. [Citation Graph (0, 0)][DBLP]
    CVRMed, 1997, pp:685-694 [Conf]
  6. Guido Gerig, Gábor Székely, Thomas Koller
    Line-finding in 2-D and 3-D by Multi-valued Non-linear Diffusion of Feature Maps. [Citation Graph (0, 0)][DBLP]
    DAGM-Symposium, 1993, pp:289-296 [Conf]
  7. Robert L. Ogniewicz, Gábor Székely, Olaf Kübler
    Detection of Prominent Boundary Points based on Structural Characteristics of the Hierarchic Medial Axis Transform. [Citation Graph (0, 0)][DBLP]
    DAGM-Symposium, 1993, pp:321-331 [Conf]
  8. Johannes Hug, Christian Brechbühler, Gábor Székely
    Model-Based Initialisation for Segmentation. [Citation Graph (0, 0)][DBLP]
    ECCV (2), 2000, pp:290-306 [Conf]
  9. Jonathan Oakley, John Missimer, Gábor Székely
    Magnetic Resonance Imaging Based Correction and Reconstruction of Positron Emission Tomography Images. [Citation Graph (0, 0)][DBLP]
    EMMCVPR, 1999, pp:301-316 [Conf]
  10. Peter Cech, Philippe C. Cattin, Gábor Székely
    Automatic Identification of Critical Landmarks on the Third Ventricle . [Citation Graph (0, 0)][DBLP]
    GI Jahrestagung (1), 2006, pp:459-466 [Conf]
  11. Mireille Reeff, Friederike Gerhard, Philippe C. Cattin, Gábor Székely
    Mosaicing of Endoscopic Placenta Images. [Citation Graph (0, 0)][DBLP]
    GI Jahrestagung (1), 2006, pp:467-474 [Conf]
  12. Peter Leiskovsk, Matthias Harders, Gábor Székely
    Assessing the Fidelity of Haptically Rendered Deformable Objects. [Citation Graph (0, 0)][DBLP]
    HAPTICS, 2006, pp:3- [Conf]
  13. Dominik Szczerba, Gábor Székely
    A Computational Model of Micro-vascular Growth. [Citation Graph (0, 0)][DBLP]
    International Conference on Computational Science (3), 2005, pp:17-24 [Conf]
  14. Dominik Szczerba, Gábor Székely, Haymo Kurz
    A Multiphysics Model of Capillary Growth and Remodeling. [Citation Graph (0, 0)][DBLP]
    International Conference on Computational Science (2), 2006, pp:86-93 [Conf]
  15. Thomas Koller, Guido Gerig, Gábor Székely, Daniel Dettwiler
    Multiscale Detection of Curvilinear Structures in 2D and 3D Image Data. [Citation Graph (0, 0)][DBLP]
    ICCV, 1995, pp:864-869 [Conf]
  16. Walter M. Neuenschwander, Pascal Fua, Gábor Székely, Olaf Kübler
    Deformable Velcro(tm) Surfaces. [Citation Graph (0, 0)][DBLP]
    ICCV, 1995, pp:828-833 [Conf]
  17. V. Vuskovic, M. Kauer, Gábor Székely, M. Reidy
    Realistic Force Feedback for Virtual Reality Based Diagnostic Surgery Simulators. [Citation Graph (0, 0)][DBLP]
    ICRA, 2000, pp:1592-1598 [Conf]
  18. 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. [Citation Graph (0, 0)][DBLP]
    IPMI, 1993, pp:94-111 [Conf]
  19. 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. [Citation Graph (0, 0)][DBLP]
    IPMI, 2003, pp:63-75 [Conf]
  20. Daniel Welti, Guido Gerig, Ernst-Wilhelm Radü, Ludwig Kappos, Gábor Székely
    Spatio-temporal Segmentation of Active Multiple Sclerosis Lesions in Serial MRI Data. [Citation Graph (0, 0)][DBLP]
    IPMI, 2001, pp:438-445 [Conf]
  21. Raimundo Sierra, Michael Bajka, Gábor Székely
    Pathology Design for Surgical Training Simulators. [Citation Graph (0, 0)][DBLP]
    IS4TH, 2003, pp:375-384 [Conf]
  22. Guido Gerig, Martin Andreas Styner, Gábor Székely
    Statistical shape models for segmentation and structural analysis. [Citation Graph (0, 0)][DBLP]
    ISBI, 2002, pp:18-21 [Conf]
  23. S. Tuchschmid, M. Grassi, D. Bachofen, P. Früh, Markus Thaler, Gábor Székely, Matthias Harders
    A Flexible Framework for Highly-Modular Surgical Simulation Systems. [Citation Graph (0, 0)][DBLP]
    ISBMS, 2006, pp:84-92 [Conf]
  24. 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. [Citation Graph (0, 0)][DBLP]
    ISMAR, 2005, pp:188-189 [Conf]
  25. Raimundo Sierra, Michael Bajka, Celalettin Karadogan, Gábor Székely, Matthias Harders
    Coherent Scene Generation for Surgical Simulators. [Citation Graph (0, 0)][DBLP]
    ISMS, 2004, pp:221-229 [Conf]
  26. Tamás Kovács, Philippe C. Cattin, Hatem Alkadhi, Simon Wildermuth, Gábor Székely
    Automatic Segmentation of the Aortic Dissection Membrane from 3D CTA Images. [Citation Graph (0, 0)][DBLP]
    MIAR, 2006, pp:317-324 [Conf]
  27. Adrian Andronache, Philippe C. Cattin, Gábor Székely
    Adaptive Subdivision for Hierarchical Non-rigid Registration of Multi-modal Images Using Mutual Information. [Citation Graph (0, 0)][DBLP]
    MICCAI (2), 2005, pp:976-983 [Conf]
  28. Gérald Bianchi, Matthias Harders, Gábor Székely
    Mesh Topology Identification for Mass-Spring Models. [Citation Graph (0, 0)][DBLP]
    MICCAI (1), 2003, pp:50-58 [Conf]
  29. Gérald Bianchi, Barbara Solenthaler, Gábor Székely, Matthias Harders
    Simultaneous Topology and Stiffness Identification for Mass-Spring Models Based on FEM Reference Deformations. [Citation Graph (0, 0)][DBLP]
    MICCAI (2), 2004, pp:293-301 [Conf]
  30. Kathrin Burckhardt, Gábor Székely
    XIMIT - X-Ray Migration Measurement Using Implant Models and Image Templates. [Citation Graph (0, 0)][DBLP]
    MICCAI, 2000, pp:1195-1204 [Conf]
  31. Philippe C. Cattin, Herbert Bay, Luc J. Van Gool, Gábor Székely
    Retina Mosaicing Using Local Features. [Citation Graph (0, 0)][DBLP]
    MICCAI (2), 2006, pp:185-192 [Conf]
  32. Dimitrios Ekatodramis, Gábor Székely, Guido Gerig
    Detecting and Inferring Brain Activation from Functional MRI by Hypothesis-Testing Based on the Likelihood Ratio. [Citation Graph (0, 0)][DBLP]
    MICCAI, 1998, pp:578-589 [Conf]
  33. 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. [Citation Graph (0, 0)][DBLP]
    MICCAI, 1998, pp:469-480 [Conf]
  34. Matthias Harders, Gábor Székely
    A Multi-modal Approach to Segmentation of Tubular Structures. [Citation Graph (0, 0)][DBLP]
    MICCAI, 2001, pp:1180-1182 [Conf]
  35. Matthias Harders, D. Steinemann, M. Gross, Gábor Székely
    A Hybrid Cutting Approach for Hysteroscopy Simulation. [Citation Graph (0, 0)][DBLP]
    MICCAI (2), 2005, pp:567-574 [Conf]
  36. Matthias Harders, Simon Wildermuth, Dominik Weishaupt, Gábor Székely
    Improving Virtual Endoscopy for the Intestinal Tract. [Citation Graph (0, 0)][DBLP]
    MICCAI (2), 2002, pp:20-27 [Conf]
  37. Johannes Hug, Christian Brechbühler, Gábor Székely
    Tamed Snake: A Particle System for Robust Semi-automatic Segmentation. [Citation Graph (0, 0)][DBLP]
    MICCAI, 1999, pp:106-115 [Conf]
  38. M. Kauer, V. Vuskovic, J. Dual, Gábor Székely, Michael Bajka
    Inverse Finite Element Characterization of Soft Tissues. [Citation Graph (0, 0)][DBLP]
    MICCAI, 2001, pp:128-136 [Conf]
  39. D. Serby, Matthias Harders, Gábor Székely
    A New Approach to Cutting into Finite Element Models. [Citation Graph (0, 0)][DBLP]
    MICCAI, 2001, pp:425-433 [Conf]
  40. M. von Siebenthal, Philippe C. Cattin, U. Gamper, Alan J. Lomax, Gábor Székely
    4D MR Imaging Using Internal Respiratory Gating. [Citation Graph (0, 0)][DBLP]
    MICCAI (2), 2005, pp:336-343 [Conf]
  41. Raimundo Sierra, Michael Bajka, Gábor Székely
    Pathology Growth Model Based on Particles. [Citation Graph (0, 0)][DBLP]
    MICCAI (1), 2003, pp:25-32 [Conf]
  42. Raimundo Sierra, Gábor Székely, Michael Bajka
    Generation of Pathologies for Surgical Training Simulators. [Citation Graph (0, 0)][DBLP]
    MICCAI (2), 2002, pp:202-210 [Conf]
  43. Raimundo Sierra, János Zátonyi, Michael Bajka, Gábor Székely, Matthias Harders
    Hydrometra Simulation for VR-Based Hysteroscopy Training. [Citation Graph (0, 0)][DBLP]
    MICCAI (2), 2005, pp:575-582 [Conf]
  44. Dominik Szczerba, Gábor Székely
    Macroscopic Modeling of Vascular Systems. [Citation Graph (0, 0)][DBLP]
    MICCAI (2), 2002, pp:284-292 [Conf]
  45. Dominik Szczerba, Gábor Székely
    Simulating Vascular Systems in Arbitrary Anatomies. [Citation Graph (0, 0)][DBLP]
    MICCAI (2), 2005, pp:641-648 [Conf]
  46. Gábor Székely, Christian Brechbühler, R. Hutter, Alex Rhomberg, P. Schmid
    Modeling of Soft Tissue Deformation for Laparoscopic Surgery Simulation. [Citation Graph (0, 0)][DBLP]
    MICCAI, 1998, pp:550-561 [Conf]
  47. Christian Wengert, Philippe C. Cattin, John M. Duff, Charles Baur, Gábor Székely
    Markerless Endoscopic Registration and Referencing. [Citation Graph (0, 0)][DBLP]
    MICCAI (1), 2006, pp:816-823 [Conf]
  48. János Zátonyi, Rupert Paget, Gábor Székely, Michael Bajka
    Real-Time Synthesis of Bleeding for Virtual Hysteroscopy. [Citation Graph (0, 0)][DBLP]
    MICCAI (1), 2003, pp:67-74 [Conf]
  49. Christian Brechbühler, Guido Gerig, Gábor Székely
    Compensation of Spatial Inhomogeneity in MRI Based on a Parametric Bias Estimate. [Citation Graph (0, 0)][DBLP]
    VBC, 1996, pp:141-146 [Conf]
  50. András Kelemen, Gábor Székely, H.-W. Reist, Guido Gerig
    Automatic Segmentation of Cell Nuclei from Confocal Laser Scanning Microscopy Images. [Citation Graph (0, 0)][DBLP]
    VBC, 1996, pp:193-202 [Conf]
  51. Matthias Harders, Gábor Székely
    Improving Medical Segmentation with Haptic Interaction. [Citation Graph (0, 0)][DBLP]
    VR, 2002, pp:243-250 [Conf]
  52. Adrian Andronache, Philippe C. Cattin, Gábor Székely
    Local Intensity Mapping for Hierarchical Non-rigid Registration of Multi-modal Images Using the Cross-Correlation Coefficient. [Citation Graph (0, 0)][DBLP]
    WBIR, 2006, pp:26-33 [Conf]
  53. 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. [Citation Graph (0, 0)][DBLP]
    Computer Vision and Image Understanding, 1997, v:66, n:2, pp:147-161 [Journal]
  54. Walter M. Neuenschwander, Pascal Fua, Gábor Székely, Olaf Kübler
    Velcro Surfaces: Fast Initialization of Deformable Models. [Citation Graph (0, 0)][DBLP]
    Computer Vision and Image Understanding, 1997, v:65, n:2, pp:237-245 [Journal]
  55. Stephen M. Pizer, Kaleem Siddiqi, Gábor Székely, James N. Damon, Steven W. Zucker
    Multiscale Medial Loci and Their Properties. [Citation Graph (0, 0)][DBLP]
    International Journal of Computer Vision, 2003, v:55, n:2-3, pp:155-179 [Journal]
  56. Matthias Harders, Simon Wildermuth, Gábor Székely
    New paradigms for interactive 3D volume segmentation. [Citation Graph (0, 0)][DBLP]
    Journal of Visualization and Computer Animation, 2002, v:13, n:1, pp:85-95 [Journal]
  57. J. G. Snedeker, Michael Bajka, J. M. Hug, Gábor Székely, P. Niederer
    The creation of a high-fidelity finite element model of the kidney for use in trauma research. [Citation Graph (0, 0)][DBLP]
    Journal of Visualization and Computer Animation, 2002, v:13, n:1, pp:53-64 [Journal]
  58. Gábor Székely, Guido Gerig
    Model-based Segmentation of Radiological Images. [Citation Graph (0, 0)][DBLP]
    KI, 2000, v:14, n:3, pp:18-23 [Journal]
  59. Nahum Kiryati, Gábor Székely
    Estimating shortest paths and minimal distances on digitized three-dimensional surfaces. [Citation Graph (0, 0)][DBLP]
    Pattern Recognition, 1993, v:26, n:11, pp:1623-1637 [Journal]
  60. Gábor Székely, Michael Bajka, Christian Brechbühler, J. Dual, Rolf Enzler, U. Haller, Johannes Hug, R. Hutter, Nicholas Ironmonger, M. Kauer, V. Meier, P. Niederer, Alex Rhomberg, P. Schmid, G. Schweitzer, Markus Thaler, V. Vuskovic, Gerhard Tröster
    Virtual Reality Based Simulation of Endoscopic Surgery. [Citation Graph (0, 0)][DBLP]
    Presence, 2000, v:9, n:3, pp:310-333 [Journal]
  61. Kathrin Burckhardt, Gábor Székely, Hubert Nötzli, J. Hodler, C. Gerber
    Submillimeter measurement of cup migration in clinical standard radiographs. [Citation Graph (0, 0)][DBLP]
    IEEE Trans. Med. Imaging, 2005, v:24, n:5, pp:676-688 [Journal]
  62. András Kelemen, Gábor Székely, Guido Gerig
    Elastic Model-Based Segmentation of 3-D Neuroradiological Data Sets. [Citation Graph (0, 0)][DBLP]
    IEEE Trans. Med. Imaging, 1999, v:18, n:10, pp:828-839 [Journal]
  63. Martin Styner, Christian Brechbühler, Gábor Székely, Guido Gerig
    Parametric Estimate of Intensity Inhomogeneities Applied to MRI. [Citation Graph (0, 0)][DBLP]
    IEEE Trans. Med. Imaging, 2000, v:19, n:3, pp:153-165 [Journal]
  64. Benjamin Knoerlein, Gábor Székely, Matthias Harders
    Visuo-haptic collaborative augmented reality ping-pong. [Citation Graph (0, 0)][DBLP]
    Advances in Computer Entertainment Technology, 2007, pp:91-94 [Conf]
  65. Dominik Szczerba, Robert H. P. McGregor, Gábor Székely
    High Quality Surface Mesh Generation for Multi-physics Bio-medical Simulations. [Citation Graph (0, 0)][DBLP]
    International Conference on Computational Science (1), 2007, pp:906-913 [Conf]
  66. Gérald Bianchi, Christoph Jung, Benjamin Knoerlein, Gábor Székely, Matthias Harders
    High-fidelity visuo-haptic interaction with virtual objects in multi-modal AR systems. [Citation Graph (0, 0)][DBLP]
    ISMAR, 2006, pp:187-196 [Conf]
  67. Bryn A. Lloyd, Dominik Szczerba, Gábor Székely
    A Coupled Finite Element Model of Tumor Growth and Vascularization. [Citation Graph (0, 0)][DBLP]
    MICCAI (2), 2007, pp:874-881 [Conf]
  68. Robert H. P. McGregor, Dominik Szczerba, Gábor Székely
    A Multiphysics Simulation of a Healthy and a Diseased Abdominal Aorta. [Citation Graph (0, 0)][DBLP]
    MICCAI (2), 2007, pp:227-234 [Conf]
  69. Christian Wengert, Lukas Bossard, Armin Häberling, Charles Baur, Gábor Székely, Philippe C. Cattin
    Endoscopic Navigation for Minimally Invasive Suturing. [Citation Graph (0, 0)][DBLP]
    MICCAI (2), 2007, pp:620-627 [Conf]
  70. Matthias Harders, Gábor Székely
    Using Statistical Shape Analysis for the Determination of Uterine Deformation States During Hydrometra. [Citation Graph (0, 0)][DBLP]
    MICCAI (2), 2007, pp:858-865 [Conf]
  71. Bryn A. Lloyd, Gábor Székely, Matthias Harders
    Identification of Spring Parameters for Deformable Object Simulation. [Citation Graph (0, 0)][DBLP]
    IEEE Trans. Vis. Comput. Graph., 2007, v:13, n:5, pp:1081-1094 [Journal]

  72. Fully Automatic Endoscope Calibration for Intraoperative Use. [Citation Graph (, )][DBLP]


  73. Piecewise Rigid Multimodal Spine Registration. [Citation Graph (, )][DBLP]


  74. Automatic Segmentation of the Vessel Lumen from 3D CTA Images of Aortic Dissection. [Citation Graph (, )][DBLP]


  75. Fließende Überblendung von Endoskopiebildern für die Erstellung eines Mosaiks. [Citation Graph (, )][DBLP]


  76. Automatic Ascending Aorta Detection in CTA Datasets. [Citation Graph (, )][DBLP]


  77. Contrast Enhancement with Dual Energy CT for the Assessment of Atherosclerosis. [Citation Graph (, )][DBLP]


  78. Fast Implicit Simulation of Oscillatory Flow in Human Abdominal Bifurcation Using a Schur Complement Preconditioner. [Citation Graph (, )][DBLP]


  79. Computationally efficient techniques for data-driven haptic rendering. [Citation Graph (, )][DBLP]


  80. A Multiphysics Model of Myoma Growth. [Citation Graph (, )][DBLP]


  81. A Mechano-Chemical Model of a Solid Tumor for Therapy Outcome Predictions. [Citation Graph (, )][DBLP]


  82. Correspondence Establishment in Statistical Modeling of Shapes with Arbitrary Topology. [Citation Graph (, )][DBLP]


  83. Estimating the Confidence of Statistical Model Based Shape Prediction. [Citation Graph (, )][DBLP]


  84. Automatic and robust forearm segmentation using graph cuts. [Citation Graph (, )][DBLP]


  85. Integrating Biological Knowledge, Novel Imaging Modalities, and Modeling in Breast Cancer Diagnosis. [Citation Graph (, )][DBLP]


  86. Bayesian Image Analysis with On-Line Confidence Estimates and its Application to Microtubule Tracking. [Citation Graph (, )][DBLP]


  87. Mechanism and Localization of Wall Failure During Abdominal Aortic Aneurysm Formation. [Citation Graph (, )][DBLP]


  88. Efficient Generation of Corresponding Meshes for Biomedical Flow Simulations. [Citation Graph (, )][DBLP]


  89. Optimization of Case-Specific Vascular Tree Models Based on Vessel Size Imaging. [Citation Graph (, )][DBLP]


  90. Semi-automatic Segmentation of Fractured Pelvic Bones for Surgical Planning. [Citation Graph (, )][DBLP]


  91. Breast Shapes on Real and Simulated Mammograms. [Citation Graph (, )][DBLP]


  92. Inter-subject Modelling of Liver Deformation During Radiation Therapy. [Citation Graph (, )][DBLP]


  93. Modelling Intravasation of Liquid Distension Media in Surgical Simulators. [Citation Graph (, )][DBLP]


  94. Automatic Detection of Calcified Coronary Plaques in Computed Tomography Data Sets. [Citation Graph (, )][DBLP]


  95. Exploring the Use of Proper Orthogonal Decomposition for Enhancing Blood Flow Images Via Computational Fluid Dynamics. [Citation Graph (, )][DBLP]


  96. A Fast Alternative to Computational Fluid Dynamics for High Quality Imaging of Blood Flow. [Citation Graph (, )][DBLP]


  97. Conditional Variability of Statistical Shape Models Based on Surrogate Variables. [Citation Graph (, )][DBLP]


  98. Fast experimental estimation of drag coefficients of arbitrary structures. [Citation Graph (, )][DBLP]


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