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Mark Oliver Güld
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2000 – 2009
- 2009
- [j6]Aurélie Névéol, Thomas Martin Deserno, Stéfan Jacques Darmoni, Mark Oliver Güld, Alan R. Aronson:
Natural language processing versus content-based image analysis for medical document retrieval. J. Assoc. Inf. Sci. Technol. 60(1): 123-134 (2009) - [c36]Tatiana Tommasi, Barbara Caputo, Petra Welter, Mark Oliver Güld, Thomas Martin Deserno:
Overview of the CLEF 2009 Medical Image Annotation Track. CLEF (2) 2009: 85-93 - [c35]Tatiana Tommasi, Barbara Caputo, Petra Welter, Mark Oliver Güld, Thomas Martin Deserno:
Overview of the CLEF 2009 Medical Image Annotation Track. CLEF (Working Notes) 2009 - 2008
- [j5]Thomas Martin Deserno, Mark Oliver Güld, Bartosz Plodowski, Klaus Spitzer, Berthold B. Wein, Henning Schubert, Hermann Ney, Thomas Seidl:
Extended Query Refinement for Medical Image Retrieval. J. Digit. Imaging 21(3): 280-289 (2008) - [j4]Mark Oliver Güld, Christian Thies, Benedikt Fischer, Thomas Martin Deserno:
A framework and baseline results for the CLEF medical automatic annotation task. Pattern Recognit. Lett. 29(15): 2025-2031 (2008) - [c34]Mark Oliver Güld, Thomas Martin Deserno:
Baseline Results for the CLEF 2008 Medical Automatic Annotation Task. CLEF (Working Notes) 2008 - [c33]Mark Oliver Güld, Petra Welter, Thomas Martin Deserno:
Baseline Results for the ImageCLEF 2008 Medical Automatic Annotation Task in Comparison over the Years. CLEF 2008: 752-755 - [c32]Júlia E. E. de Oliveira, Mark Oliver Güld, Arnaldo de Albuquerque Araújo, Bastian Ott, Thomas M. Deserno:
Toward a standard reference database for computer-aided mammography. Computer-Aided Diagnosis 2008: 69151Y - [c31]Benedikt Fischer, Michael Sauren, Mark Oliver Güld, Thomas M. Deserno:
Scene analysis with structural prototypes for content-based image retrieval in medicine. Image Processing 2008: 69141X - 2007
- [j3]Mark Oliver Güld, Christian Thies, Benedikt Fischer, Thomas Martin Lehmann:
A generic concept for the implementation of medical image retrieval systems. Int. J. Medical Informatics 76(2-3): 252-259 (2007) - [c30]Sameer K. Antani, Thomas Martin Deserno, L. Rodney Long, Mark Oliver Güld, Leif Neve, George R. Thoma:
Interfacing Global and Local CBIR Systems for Medical Image Retrieval. Bildverarbeitung für die Medizin 2007: 166-171 - [c29]Mark Oliver Güld, Thomas Martin Deserno:
Baseline Results for the ImageCLEF 2007 Medical Automatic Annotation Task Using Global Image Features. CLEF 2007: 637-640 - [c28]Mark Oliver Güld, Thomas Martin Deserno:
Baseline Results for the CLEF 2007 Medical Automatic Annotation Task. CLEF (Working Notes) 2007 - 2006
- [c27]Benedikt Fischer, Benjamin Winkler, Christian Thies, Mark Oliver Güld, Thomas Martin Lehmann:
Strukturprototypen zur Modellierung medizinischer Bildinhalte. Bildverarbeitung für die Medizin 2006: 71-75 - [c26]Mark Oliver Güld, Christian Thies, Benedikt Fischer, Thomas Martin Deserno:
Baseline Results for the ImageCLEF 2006 Medical Automatic Annotation Task. CLEF 2006: 686-689 - [c25]Mark Oliver Güld, Christian Thies, Benedikt Fischer, Thomas Martin Lehmann:
Combining Global Features within a Nearest Neighbor Classifier for Content-based Retrieval of Medical Images. CLEF (Working Notes) 2006 - [c24]Mark Oliver Güld, Christian Thies, Benedikt Fischer, Thomas Martin Lehmann:
Baseline Results for the ImageCLEF 2006 Medical Automatic Annotation Task. CLEF (Working Notes) 2006 - 2005
- [c23]Benedikt Fischer, Christian Lappe, Christian Thies, Mark Oliver Güld, Thomas Martin Lehmann:
Nettrack. Bildverarbeitung für die Medizin 2005: 465-469 - [c22]Mark Oliver Güld, Daniel Schneider, Raoul Moritz, Alexander Craemer, Christian Thies, Benedikt Fischer, Thomas Martin Lehmann:
Effektive Implementierung von Algorithmen zum inhaltsbasierten Bildzugriff auf medizinische Bilddaten. Bildverarbeitung für die Medizin 2005: 480-484 - [c21]Mark Oliver Güld, Christian Thies, Benedikt Fischer, Thomas Martin Lehmann:
Content-Based Retrieval of Medical Images by Combining Global Features. CLEF 2005: 702-711 - [c20]Mark Oliver Güld, Christian Thies, Benedikt Fischer, Thomas Martin Lehmann:
Combining Global features for Content-based Retrieval of Medical Images. CLEF (Working Notes) 2005 - [c19]Mark Oliver Güld, Christian Thies, Benedikt Fischer, Thomas Martin Lehmann:
A Generic Concept for the Implementation of Medical Image Retrieval Systems. MIE 2005: 459-464 - 2004
- [c18]Daniel Beier, Christian Thies, Mark Oliver Güld, Benedikt Fischer, Michael Kohnen, Thomas Martin Lehmann:
Ein lokal-adaptives Ähnlichkeitsmaß als Kriterium der hierarchischen Regionenverschmelzung. Bildverarbeitung für die Medizin 2004: 100-104 - [c17]Christian Lappe, Benedikt Fischer, Christian Thies, Mark Oliver Güld, Michael Kohnen, Thomas Martin Lehmann:
Optimierung eines konnektionistischen Graphmatchers zum inhaltsbasierten Retrieval medizinischer Bilder. Bildverarbeitung für die Medizin 2004: 338-342 - [c16]Mark Oliver Güld, Alexander Craemer, Bartosz Plodowski, Christian Thies, Benedikt Fischer, Michael Kohnen, Thomas Martin Lehmann:
Verteilte Bearbeitung inhaltsbasierter Suchanfragen an ein medizinisches Bildarchiv. Bildverarbeitung für die Medizin 2004: 347-350 - [c15]Christian Thies, Mark Oliver Güld, Benedikt Fischer, Thomas Martin Lehmann:
Content-based Queries on the Casimage Database with the IRMA framework: A Field Report. CLEF (Working Notes) 2004 - [c14]Christian Thies, Mark Oliver Güld, Benedikt Fischer, Thomas Martin Lehmann:
Content-Based Queries on the CasImage Database Within the IRMA Framework. CLEF 2004: 781-792 - [c13]Thomas Martin Lehmann, Mark Oliver Güld, Daniel Keysers, Thomas Deselaers, Henning Schubert, Berthold B. Wein, Klaus Spitzer:
Similarity of Medical Images Computed from Global Feature Vectors for Content-Based Retrieval. KES 2004: 989-995 - [c12]Thomas Martin Lehmann, Mark Oliver Güld, Christian Thies, Bartosz Plodowski, Daniel Keysers, Bastian Ott, Henning Schubert:
IRMA - Content-Based Image Retrieval in Medical Applications. MedInfo 2004: 842-846 - [c11]Benedikt Fischer, Christian J. Thies, Mark Oliver Güld, Thomas Martin Lehmann:
Content-based image retrieval by matching hierarchical attributed region adjacency graphs. Image Processing 2004 - 2003
- [j2]Thomas Martin Lehmann, Mark Oliver Güld, Daniel Keysers, Henning Schubert, Michael Kohnen, Berthold B. Wein:
Determining the View of Chest Radiographs. J. Digit. Imaging 16(3): 280-291 (2003) - [c10]Benedikt Fischer, Christian Thies, Mark Oliver Güld, Thomas Martin Lehmann:
Matching von Multiskalengraphen für den inhaltsbasierten Zugriff auf medizinische Bilder. Bildverarbeitung für die Medizin 2003: 353-357 - [c9]Bartosz Plodowski, Mark Oliver Güld, Henning Schubert, Daniel Keysers, Thomas Martin Lehmann:
Modulares Design von webbasierten Benutzerschnittstellen für inhaltsbasierte Zugriffe auf medizinische Bilddaten. Bildverarbeitung für die Medizin 2003: 383-387 - [c8]Mark Oliver Güld, Henning Schubert, Marcel Leisten, Bartosz Plodowski, Benedikt Fischer, Daniel Keysers, Thomas Martin Lehmann:
Automatische Kategorisierung von medizinischem Bildmaterial in einen multiaxialen monohierarchischen Code. Bildverarbeitung für die Medizin 2003: 388-392 - [c7]Thomas Martin Lehmann, Mark Oliver Güld, Daniel Keysers, Henning Schubert, Andrea Wenning, Berthold B. Wein:
Automatic detection of the view position of chest radiographs. Image Processing 2003 - [c6]Mark Oliver Güld, Christian Thies, Benedikt Fischer, Daniel Keysers, Berthold B. Wein, Thomas Martin Lehmann:
Platform for distributed image processing and image retrieval. VCIP 2003: 1109-1120 - 2002
- [c5]Mark Oliver Güld, Jörg Bredno, Daniel Keysers, Michael Kohnen, Christian Thies, Henning Schubert, Berthold B. Wein, Thomas Martin Lehmann:
Eine verteilte Systemarchitektur für IRMA: (Image Retrieval in Medical Applications). Bildverarbeitung für die Medizin 2002: 175-178 - [c4]Mark Oliver Güld, Berthold B. Wein, Daniel Keysers, Christian Thies, Michael Kohnen, Henning Schubert, Thomas Martin Lehmann:
A Distributed Architecture for Content-Based Image Retrieval in Medical Applications. PRIS 2002: 299-314 - 2001
- [j1]Jörg Dahmen, Daniel Keysers, Hermann Ney, Mark Oliver Güld:
Statistical Image Object Recognition using Mixture Densities. J. Math. Imaging Vis. 14(3): 285-296 (2001) - 2000
- [c3]Marcus Schreckenberg, Jörg Dahmen, Georg Schummers, Mark Oliver Güld, Dietrich Meyer-Ebrecht, Hermann Ney:
Automatische Endokarderkennung in 3D mit approximierenden Thin-Plate-Splines unter Einsatz von Gauß'schen Mischverteilungs-Modellen für die lokale Klassifikation. Bildverarbeitung für die Medizin 2000: 351-356 - [c2]Jörg Dahmen, Daniel Keysers, Mark Oliver Güld, Hermann Ney:
Invariant Image Object Recognition Using Mixture Densities. ICPR 2000: 2614-2617 - [c1]Jörg Dahmen, Klaus Beulen, Mark Oliver Güld, Hermann Ney:
A Mixture Density Based Approach to Object Recognition for Image Retrieval. RIAO 2000: 1632-1647
Coauthor Index
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