2008 |
78 | EE | Martin Styner,
Ipek Oguz,
Tobias Heimann,
Guido Gerig:
Minimum description length with local geometry.
ISBI 2008: 1283-1286 |
77 | EE | Marcel Prastawa,
Guido Gerig:
Brain Lesion Segmentation through Physical Model Estimation.
ISVC (1) 2008: 562-571 |
76 | EE | Andriy Fedorov,
Eric Billet,
Marcel Prastawa,
Guido Gerig,
Alireza Radmanesh,
Simon K. Warfield,
Ron Kikinis,
Nikos Chrisochoides:
Evaluation of Brain MRI Alignment with the Robust Hausdorff Distance Measures.
ISVC (1) 2008: 594-603 |
75 | EE | Casey Goodlett,
P. Thomas Fletcher,
John H. Gilmore,
Guido Gerig:
Group Statistics of DTI Fiber Bundles Using Spatial Functions of Tensor Measures.
MICCAI (1) 2008: 1068-1075 |
74 | EE | Sylvain Gouttard,
Martin Styner,
Marcel Prastawa,
Joseph Piven,
Guido Gerig:
Assessment of Reliability of Multi-site Neuroimaging Via Traveling Phantom Study.
MICCAI (2) 2008: 263-270 |
2007 |
73 | EE | Kevin Gorczowski,
Martin Styner,
Ja-Yeon Jeong,
J. S. Marron,
Joseph Piven,
Heather Cody Hazlett,
Stephen M. Pizer,
Guido Gerig:
Statistical Shape Analysis of Multi-Object Complexes.
CVPR 2007 |
72 | EE | Fan Zhang,
Casey Goodlett,
Edwin R. Hancock,
Guido Gerig:
Probabilistic Fiber Tracking Using Particle Filtering and Von Mises-Fisher Sampling.
EMMCVPR 2007: 303-317 |
71 | EE | Timothy B. Terriberry,
James N. Damon,
Stephen M. Pizer,
Sarang C. Joshi,
Guido Gerig:
Population-Based Fitting of Medial Shape Models with Correspondence Optimization.
IPMI 2007: 700-712 |
70 | EE | Martin Styner,
Shun Xu,
Mohammed El-Sayed,
Guido Gerig:
Correspondence Evaluation in Local Shape Analysis and Structural Subdivision.
ISBI 2007: 1192-1195 |
69 | EE | Delphine Nain,
Martin Andreas Styner,
Marc Niethammer,
James J. Levitt,
Martha Elizabeth Shenton,
Guido Gerig,
Aaron F. Bobick,
Allen Tannenbaum:
Statistical Shape Analysis of Brain Structures Using Spherical Wavelets.
ISBI 2007: 209-212 |
68 | EE | Casey Goodlett,
P. Thomas Fletcher,
Weili Lin,
Guido Gerig:
Quantification of Measurement Error in DTI: Theoretical Predictions and Validation.
MICCAI (1) 2007: 10-17 |
67 | EE | Fan Zhang,
Casey Goodlett,
Edwin R. Hancock,
Guido Gerig:
Probabilistic Fiber Tracking Using Particle Filtering.
MICCAI (2) 2007: 144-152 |
2006 |
66 | EE | Guido Gerig,
Brad Davis,
Peter Lorenzen,
Shun Xu,
Matthieu Jomier,
Joseph Piven,
Sarang C. Joshi:
Computational Anatomy to Assess Longitudinal Trajectory of Brain Growth.
3DPVT 2006: 1041-1047 |
65 | EE | Guido Gerig,
Sarang C. Joshi,
P. Thomas Fletcher,
Kevin Gorczowski,
Shun Xu,
Stephen M. Pizer,
Martin Andreas Styner:
Statistics of populations of images and its embedded objects: driving applications in neuroimaging.
ISBI 2006: 1120-1123 |
64 | EE | Martin Andreas Styner,
Matthieu Jomier,
Guido Gerig:
Closed and open source neuroimage analysis tools and libraries at UNC.
ISBI 2006: 702-705 |
63 | EE | Shun Xu,
Martin Andreas Styner,
Brad Davis,
Sarang C. Joshi,
Guido Gerig:
Group mean differences of voxel and surface objects via nonlinear averaging.
ISBI 2006: 758-761 |
62 | EE | Martin Styner,
Kevin Gorczowski,
P. Thomas Fletcher,
Ja-Yeon Jeong,
Stephen M. Pizer,
Guido Gerig:
Statistics of Pose and Shape in Multi-object Complexes Using Principal Geodesic Analysis.
MIAR 2006: 1-8 |
61 | EE | Casey Goodlett,
Brad Davis,
Remi Jean,
John H. Gilmore,
Guido Gerig:
Improved Correspondence for DTI Population Studies Via Unbiased Atlas Building.
MICCAI (2) 2006: 260-267 |
2005 |
60 | | James S. Duncan,
Guido Gerig:
Medical Image Computing and Computer-Assisted Intervention - MICCAI 2005, 8th International Conference, Palm Springs, CA, USA, October 26-29, 2005, Proceedings, Part I
Springer 2005 |
59 | | James S. Duncan,
Guido Gerig:
Medical Image Computing and Computer-Assisted Intervention - MICCAI 2005, 8th International Conference, Palm Springs, CA, USA, October 26-29, 2005, Proceedings, Part II
Springer 2005 |
58 | EE | Timothy B. Terriberry,
Sarang C. Joshi,
Guido Gerig:
Hypothesis Testing with Nonlinear Shape Models.
IPMI 2005: 15-26 |
57 | EE | Isabelle Corouge,
P. Thomas Fletcher,
Sarang C. Joshi,
John H. Gilmore,
Guido Gerig:
Fiber Tract-Oriented Statistics for Quantitative Diffusion Tensor MRI Analysis.
MICCAI 2005: 131-139 |
56 | EE | Marcel Prastawa,
Elizabeth Bullitt,
Guido Gerig:
Synthetic Ground Truth for Validation of Brain Tumor MRI Segmentation.
MICCAI 2005: 26-33 |
55 | EE | Bénédicte Mortamet,
Donglin Zeng,
Guido Gerig,
Marcel Prastawa,
Elizabeth Bullitt:
Effects of Healthy Aging Measured By Intracranial Compartment Volumes Using a Designed MR Brain Database.
MICCAI 2005: 383-391 |
2004 |
54 | | Isabelle Corouge,
Guido Gerig,
Sylvain Gouttard:
Towards a Shape Model of White Matter Fiber Bundles Using Diffusion Tensor MRI.
ISBI 2004: 344-347 |
53 | EE | Marcel Prastawa,
John H. Gilmore,
Weili Lin,
Guido Gerig:
Automatic Segmentation of Neonatal Brain MRI.
MICCAI (1) 2004: 10-17 |
52 | EE | Sean Ho,
Guido Gerig:
Profile Scale-Spaces for Multiscale Image Match.
MICCAI (1) 2004: 176-183 |
51 | EE | Peter Lorenzen,
Brad Davis,
Guido Gerig,
Elizabeth Bullitt,
Sarang C. Joshi:
Multi-class Posterior Atlas Formation via Unbiased Kullback-Leibler Template Estimation.
MICCAI (1) 2004: 95-102 |
50 | EE | Elizabeth Bullitt,
Inkyung Jung,
Keith E. Muller,
Guido Gerig,
Stephen R. Aylward,
Sarang C. Joshi,
J. Keith Smith,
Weili Lin,
Matthew G. Ewend:
Determining Malignancy of Brain Tumors by Analysis of Vessel Shape.
MICCAI (2) 2004: 645-653 |
49 | EE | Isabelle Corouge,
Sylvain Gouttard,
Guido Gerig:
A Statistical Shape Model of Individual Fiber Tracts Extracted from Diffusion Tensor MRI.
MICCAI (2) 2004: 671-679 |
2003 |
48 | EE | Elizabeth Bullitt,
Guido Gerig,
Stephen R. Aylward,
Sarang C. Joshi,
J. Keith Smith,
Matthew G. Ewend,
Weili Lin:
Vascular Attributes and Malignant Brain Tumors.
MICCAI (1) 2003: 671-679 |
47 | EE | Pierre Fillard,
John H. Gilmore,
Joseph Piven,
Weili Lin,
Guido Gerig:
Quantitative Analysis of White Matter Fiber Properties along Geodesic Paths.
MICCAI (2) 2003: 16-23 |
46 | EE | Martin Styner,
Jeffrey A. Lieberman,
Guido Gerig:
Boundary and Medial Shape Analysis of the Hippocampus in Schizophrenia.
MICCAI (2) 2003: 464-471 |
45 | EE | Marcel Prastawa,
Elizabeth Bullitt,
Sean Ho,
Guido Gerig:
Robust Estimation for Brain Tumor Segmentation.
MICCAI (2) 2003: 530-537 |
44 | EE | Guido Gerig,
Keith E. Muller,
Emily O. Kistner,
Yueh-Yun Chi,
Miranda Chakos,
Martin Styner,
Jeffrey A. Lieberman:
Age and Treatment Related Local Hippocampal Changes in Schizophrenia Explained by a Novel Shape Analysis Method.
MICCAI (2) 2003: 653-660 |
43 | EE | Y. Sampath K. Vetsa,
Martin Styner,
Stephen M. Pizer,
Jeffrey A. Lieberman,
Guido Gerig:
Caudate Shape Discrimination in Schizophrenia Using Template-Free Non-parametric Tests.
MICCAI (2) 2003: 661-669 |
42 | EE | Pierre Fillard,
Guido Gerig:
Analysis Tool for Diffusion Tensor MRI.
MICCAI (2) 2003: 967-968 |
41 | EE | Guido Gerig,
Marcel Prastawa,
Weili Lin,
John H. Gilmore:
Assessing Early Brain Development in Neonates by Segmentation of High-Resolution 3T MRI.
MICCAI (2) 2003: 979-980 |
40 | EE | Sean Ho,
Guido Gerig:
Scale-Space on Image Profiles about an Object Boundary.
Scale-Space 2003: 564-575 |
39 | | Elizabeth Bullitt,
Guido Gerig,
Stephen M. Pizer,
Weili Lin,
Stephen R. Aylward:
Measuring Tortuosity of the Intracerebral Vasculature.
IEEE Trans. Med. Imaging 22(9): 1163-1171 (2003) |
38 | EE | Stephen M. Pizer,
P. Thomas Fletcher,
Andrew Thall,
Martin Styner,
Guido Gerig,
Sarang C. Joshi:
Object models in multiscale intrinsic coordinates via m-reps.
Image Vision Comput. 21(1): 5-15 (2003) |
37 | EE | Martin Styner,
Guido Gerig,
Sarang C. Joshi,
Stephen M. Pizer:
Automatic and Robust Computation of 3D Medial Models Incorporating Object Variability.
International Journal of Computer Vision 55(2-3): 107-122 (2003) |
36 | | Stephen M. Pizer,
Guido Gerig,
Sarang C. Joshi,
Stephen R. Aylward:
Multiscale medial shape-based analysis of image objects.
Proceedings of the IEEE 91(10): 1670-1679 (2003) |
2002 |
35 | EE | Nathan Moon,
Elizabeth Bullitt,
Koen Van Leemput,
Guido Gerig:
Model-Based Brain and Tumor Segmentation.
ICPR (1) 2002: 528-531 |
34 | EE | Sean Ho,
Elizabeth Bullitt,
Guido Gerig:
Level-Set Evolution with Region Competition: Automatic 3-D Segmentation of Brain Tumors.
ICPR (1) 2002: 532- |
33 | EE | Guido Gerig,
Martin Andreas Styner,
Gábor Székely:
Statistical shape models for segmentation and structural analysis.
ISBI 2002: 18-21 |
32 | EE | Nathan Moon,
Elizabeth Bullitt,
Koen Van Leemput,
Guido Gerig:
Automatic Brain and Tumor Segmentation.
MICCAI (1) 2002: 372-379 |
2001 |
31 | EE | Martin Styner,
Guido Gerig:
Three-Dimensional Medial Shape Representation Incorporating Object Variability.
CVPR (2) 2001: 651-656 |
30 | EE | 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 |
29 | EE | Martin Styner,
Guido Gerig:
Medial Models Incorporating Object Variability for 3D Shape Analysis.
IPMI 2001: 502-516 |
28 | EE | Guido Gerig,
Martin Styner,
Martha Elizabeth Shenton,
Jeffrey A. Lieberman:
Shape versus Size: Improved Understanding of the Morphology of Brain Structures.
MICCAI 2001: 24-32 |
27 | EE | Guido Gerig,
Matthieu Jomier,
Miranda Chakos:
Valmet: A New Validation Tool for Assessing and Improving 3D Object Segmentation.
MICCAI 2001: 516-523 |
2000 |
26 | | Martin Styner,
Christian Brechbühler,
Gábor Székely,
Guido Gerig:
Parametric Estimate of Intensity Inhomogeneities Applied to MRI.
IEEE Trans. Med. Imaging 19(3): 153-165 (2000) |
25 | | Gábor Székely,
Guido Gerig:
Model-based Segmentation of Radiological Images.
KI 14(3): 18-23 (2000) |
1999 |
24 | EE | Elizabeth Bullitt,
Stephen R. Aylward,
Alan Liu,
Jeffrey Stone,
Suresh K. Mukherji,
Chris Coffey,
Guido Gerig,
Stephen M. Pizer:
3D Graph Description of the Intracerebral Vasculature from Segmented MRA and Tests of Accuracy by Comparison with X-ray Angiograms.
IPMI 1999: 308-321 |
23 | EE | Martin Styner,
Thomas Coradi,
Guido Gerig:
Brain Morphometry by Distance Measurement in a Non-Euclidean, Curvilinear Space.
IPMI 1999: 364-369 |
22 | | András Kelemen,
Gábor Székely,
Guido Gerig:
Elastic Model-Based Segmentation of 3-D Neuroradiological Data Sets.
IEEE Trans. Med. Imaging 18(10): 828-839 (1999) |
1998 |
21 | EE | 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 |
20 | EE | 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 |
19 | EE | Martin Berger,
Guido Gerig:
Motion Measurements in Low-Contrast X-ray Imagery.
MICCAI 1998: 832-841 |
1997 |
18 | | Yoshinobu Sato,
Shin Nakajima,
Hideki Atsumi,
Thomas Koller,
Guido Gerig,
Shigeyuki Yoshida,
Ron Kikinis:
3D Multi-scale line filter for segmentation and visualization of curvilinear structures in medical images.
CVRMed 1997: 213-222 |
17 | | Tuomo Vehkomäki,
Guido Gerig,
Gábor Székely:
A user-guided tool for efficient segmentation of medical image data.
CVRMed 1997: 685-694 |
1996 |
16 | | Christian Brechbühler,
Guido Gerig,
Gábor Székely:
Compensation of Spatial Inhomogeneity in MRI Based on a Parametric Bias Estimate.
VBC 1996: 141-146 |
15 | | 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 |
14 | | 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 |
13 | EE | Thomas Koller,
Guido Gerig,
Gábor Székely,
Daniel Dettwiler:
Multiscale Detection of Curvilinear Structures in 2D and 3D Image Data.
ICCV 1995: 864-869 |
12 | EE | Christian Brechbühler,
Guido Gerig,
Olaf Kübler:
Parametrization of Closed Surfaces for 3-D Shape Description.
Computer Vision and Image Understanding 61(2): 154-170 (1995) |
1993 |
11 | | 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 |
10 | | 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 |
9 | | 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 |
8 | EE | Guido Gerig,
John Martin,
Ron Kikinis,
Olaf Kübler,
Martha Elizabeth Shenton,
Ferenc A. Jolesz:
Unsupervised tissue type segmentation of 3D dual-echo MR head data.
Image Vision Comput. 10(6): 349-360 (1992) |
1991 |
7 | | Guido Gerig,
Christian Brechbühler,
Patrick Droz,
Olaf Kübler:
3D Verdünnung zur symbolischen Beschreibung von verästelten, räumlichen Strukturen.
DAGM-Symposium 1991: 304-311 |
6 | | Guido Gerig,
John Martin,
Ron Kikinis,
Olaf Kübler,
Martha Elizabeth Shenton,
Ferenc A. Jolesz:
Automating Segmentation of Dual-Echo MR Head Data.
IPMI 1991: 175-187 |
1990 |
5 | | X. Cheng,
Guido Gerig:
Representation and Description of Complex 3D Objects from Medical Volume Data.
DAGM-Symposium 1990: 468-475 |
1989 |
4 | | Guido Gerig,
Walter Kuoni,
Ron Kikinis,
Olaf Kübler:
Medical Imaging and Computer Vision: An Integrated Approach for Diagnosis and Planning.
DAGM-Symposium 1989: 425-432 |
1988 |
3 | | Guido Gerig:
Erkennung globaler Bildstrukturen durch Gruppierung und regelbasierte Kombination von Strukturprimitiven.
DAGM-Symposium 1988: 128-134 |
2 | | Daniel Morgue,
Guido Gerig:
Recognition of Nonrigid Objects Using the Generalized Hough Transform.
DAGM-Symposium 1988: 151-157 |
1986 |
1 | | Frank Ade,
Guido Gerig,
Markus Ilg,
Fernand Klein:
Verstehen von Landkarten.
DAGM-Symposium 1986: 6-11 |