Publications

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Overview of publications

Publications 2006

[1] Stefan Fiel and Paul Guerrero. Motion Tracking with Normalized Cut and Minimum Spanning Tree. Technical Report PRIP-TR-105, PRIP, TU Wien, 2006.

[2] Yll Haxhimusa, Adrian Ion, and Walter G. Kropatsch. Comparing Hierarchies of Segmentations: Humans, Nomalized Cut, and Minimum Spanning Tree. In Frank Lenzen, Otmar Scherzer, and Markus Vincze, editors, Proceedings of 30th OEAGM Workshop, pages 95-103, Obergurgl, Austria, 2006. OCGSchriftenreihe books@ocg.at, Österreichische Computer Gesellschaft. Band 209.

[3] Yll Haxhimusa, Adrian Ion, and Walter G. Kropatsch. Evaluating Hierarchical Graph-based Segmentation. In G. Lorette Y. Y. Tang, P. Wang and Daniel Yeung, editors, 18th International Conference on Pattern Recognition, volume II, pages 195-198. IEEE Comp.Soc., 2006.

[4] Yll Haxhimusa, Adrian Ion, andWalter G. Kropatsch. Irregular Pyramid Segmentations with Stochastic Graph Decimation Strategies. In José Francisco Martínez-Trinidad, Jesús Ariel Carrasco Ochoa, and Josef Kittler, editors, Progress in Pattern Recognition, Image Analysis and Applications, volume LNCS 4225 of Lecture Notes in Computer Science, pages 277-286, Cancun, Mexico, 14-17, November 2006. Springer, Berlin Heidelberg.

[5] Thomas Illetschko. Minimal Combinatorial Maps for Analyzing 3D Data. Technical Report PRIPTR-110, PRIP, TU Wien, 2006.

[6] Thomas Illetschko, Adrian Ion, Yll Haxhimusa, andWalter G. Kropatsch. Collapsing 3D Combinatorial Maps. In Frank Lenzen, Otmar Scherzer, and Markus Vincze, editors, Proceedings of 30th OEAGM Workshop, pages 85-93, Obergurgl, Austria, 2006. OCG-Schriftenreihe books@ocg.at, Österreichische Computer Gesellschaft. Band 209.

[7] Thomas Illetschko, Adrian Ion, Yll Haxhimusa, and Walter G. Kropatsch. Effective Programming of Combinatorial Maps using COMA - A C++ Framework for Combinatorial Maps. Technical Report PRIP-TR-106, PRIP, TU Wien, 2006.

[8] Adrian Ion, Hubert Hausegger, Walter G. Kropatsch, and Yll Haxhimusa. How Humans Describe Short Videos. In International Cognitive Vision Workshop, Graz, A, 13, May 2006.

[9] Adrian Ion, Walter G. Kropatsch, and Yll Haxhimusa. Considerations regarding the minimum spanning tree pyramid segmentation method. In Dit-Yan Yeung, James T. Kwok, Ana Fred, Fabio Roli, and Dick de Ridder, editors, Structural, Syntactic, and Statistical Pattern Recognition, Joint IAPR International Workshops on SSPR 2006 and SPR 2006, volume LNCS 4109 of Lecture Notes in Computer Science, pages 182-190, Hong Kong, 17-19, August 2006. Springer, Berlin Heidelberg, New York.

[10] Walter G. Kropatsch, Adrian Ion, Yll Haxhimusa, and Thomas Flanitzer. The eccentricity transform (of a digital shape). In 13th Discrete Geom. for Comp. Imagery, pages 437-448, Szeged, Hungary, 25-27, October 2006. Springer.

[11] Samuel Peltier, Adrian Ion, Yll Haxhimusa, and Walter G. Kropatsch. Computing Homology Group Generators of Images Using Irregular Graph Pyramids. Technical Report PRIP-TR-111, PRIP, TU Wien, December 2006.

[12] Axel Pinz, Horst Bischof, Walter G. Kropatsch, Gerald Schweighofer, Yll Haxhimusa, Andreas Opelt, and Adrian Ion. Representations for Cognitive Vision: A Review of Appearance-Based, Spatio-Temporal, and Graph-Based Approaches. Technical Report PRIP-TR-109 and EMT-2006-02, PRIP, TU Wien, 2006.

[13] Zygmunt Pizlo, Emil Stefanov, John Saalweachter, Zheng Li, Yll Haxhimusa, and Walter G. Kropatsch. Traveling Salesman Problem: a Foveating Model. The Journal of Problem Solving, Vol. 1(1):83-101, 2006.

Publications 2007

[14] Yll Haxhimusa, Walter G. Kropatsch, Zygmunt Pizlo, Adrian Ion, and Andreas Lehrbaum. Approximating TSP solution by MST based graph pyramid. In Francisco Escolano and Mario Vento, editors, GbRPR, volume 4538 of Lecture Notes in Computer Science, pages 295-306. Springer, 2007.

[15] Andreas Hubmer, Adrian Ion, Walter G. Kropatsch, Yll Haxhimusa, and Hubert Hausegger. How humans describe short videos - details of an experiment. Technical Report PRIP-TR-113, PRIP, TU Wien, 2007.

[16] Adrian Ion, Thomas Illetschko, Yll Haxhimusa, and Walter G. Kropatsch. Distinguishing 3DTopological Configurations of Two Tori. In Viorel Negru, Dana Petcu, Daniela Zaharie, Ajith Abraham, Bruno Buchberger, Alexandru Cicortas, Dorian Gorgan, and Jo?l Quinqueton, editors, 8th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing (SYNASC 2006), pages 111-118, Timisoara, Romania, 2007. IEEE Computer Society.

[17] Adrian Ion, Samuel Peltier, Yll Haxhimusa, and Walter G. Kropatsch. Decomposition for efficient eccentricity transform of convex shapes. In Walter G. Kropatsch, Martin Kampel, and Allan Hanbury, editors, CAIP, volume 4673 of Lecture Notes in Computer Science, pages 653-660. Springer, 2007.

[18] Adrian Ion, Gabriel Peyré, Yll Haxhimusa, Samuel Peltier, Walter G. Kropatsch, and Laurent Cohen. Shape matching using the geodesic eccentricity transform - a study. In C. Beleznai W. Ponweiser, M. Vincze, editor, The 31st annual workshop of the Austrian Association for Pattern Recognition (OAGM/AAPR), pages 97-104, Schloss Krumbach, Austria, May 2007. OCG.

[19] Walter G. Kropatsch, Yll Haxhimusa, and Adrian Ion. Multiresolution Image Segmentations in Graph Pyramids. In Abraham Kandel, Horst Bunke, and Mark Last, editors, Applied Graph Theory in Computer Vision and Pattern Recognition, volume 52, pages 3-41. Springer Wien New York, 2007.

[20] Walter G. Kropatsch, Adrian Ion, and Samuel Peltier. Computing the eccentricity transform of a polygonal shape. In Luis Rueda, Domingo Mery, and Josef Kittler, editors, CIARP, volume 4756 of Lecture Notes in Computer Science, pages 291-300. Springer, 2007.

[21] Walter G. Kropatsch, Yll Haxhimusa, and Adrian Ion. Applied Graph Theory in Computer Vision and Pattern Recognition., volume 52 of Studies in Computational Intelligence, chapter Multiresolution Image Segmentations in Graph Pyramids., pages 3-42. Springer, 2007.

[22] Samuel Peltier, Adrian Ion, Yll Haxhimusa, and Walter G. Kropatsch. Controlling geometry of homology generators. In Michael Grabner and Helmut Grabner, editors, Proceedings of the 12th Computer Vision Winter Workshop, pages 115-121. Graz University of Technology, Institute for Computer Graphics and Vision, Verlag der Technischen Universität Graz, February 2007.

[23] Samuel Peltier, Adrian Ion, Yll Haxhimusa, Walter G. Kropatsch, and Guillaume Damiand. Computing homology group generators of images using irregular graph pyramids. In Francisco Escolano and Mario Vento, editors, GbRPR, volume 4538 of Lecture Notes in Computer Science, pages 283-294. Springer, 2007.

[24] Martin Stubenschrott. Combining an optical flow feature detector with graph-based segmentation. Technical Report PRIP-TR-112, PRIP, TU Wien, 2007.

[25] Marie Wild. Nonlinear approximation of spatiotemporal data using diffusion wavelets. In Walter G. Kropatsch, Martin Kampel, and Allan Hanbury, editors, CAIP, volume 4673 of Lecture Notes in Computer Science, pages 886-894. Springer, 2007.

Publications 2008

[26] N. Artner, S. B. López Mármol, C. Beleznai, and W. G. Kropatsch. Kernel-based tracking using spatial structure. In 32nd Workshop of the Austrian Association for Pattern Recognition, pages 103-114. Austrian Computer Society, May 2008.

[27] Nicole M. Artner. A comparison of mean shift tracking methods. In 12th Central European Seminar on Computer Graphics, pages 197-204, April 2008.

[28] Nicole M. Artner, Salvador B. López Mármol, Csaba Beleznai, and Walter G. Kropatsch. Tracking by hierarchical representation of target structure. In Joint IAPR International Workshop on Structural and Syntactic Pattern Recognition, SSPR 2008, pages 441-450. Springer, December 2008.

[29] Rocio Gonzalez-Diaz, Mabel Iglesias-Ham, Adrian Ion, and Walter G. Kropatsch. Irregular Graph Pyramids, Integral Operators and Representative Cocycles of Cohomology Generators. In Workshop Computational Topology in Image Context (CTIC), May 2008.

[30] Mabel Iglesias, Adrian Ion, Walter G. Kropatsch, and Edel B. García. Delineating homology generators in graph pyramids. In 13th Iberoamerican Congress on Pattern Recognition, CIARP 2008, pages 576-584. Springer, September 2008.

[31] Mabel Iglesias-Ham, Adrian Ion, and Walter G. Kropatsch. Documentation for the graph pyramid drawing application. Technical Report PRIP-TR-117, PRIP, TU Wien, 2008.

[32] Adrian Ion, Nicole M. Artner, Gabriel Peyré, Salvador B. López Mármol, Walter G. Kropatsch, and Laurent Cohen. 3d shape matching by geodesic eccentricity. In Computer Vision and Pattern Recognition Workshops, 2008, pages 1-8. IEEE Computer Society, June 2008.

[33] Adrian Ion, Yll Haxhimusa, Walter G. Kropatsch, and Salvador B. López Mármol. A coordinate system for articulated 2d shape point correspondences. In 19th International Conference of Pattern Recognition, ICPR 2008, pages 1-4. Springer, December 2008.

[34] Adrian Ion and Walter G. Kropatsch. Mapping a coordinate system to a non-rigid shape. In Arjan Kuijper, Bettina Heise, and Leila Muresan, editors, The 32nd Workshop of the Austrian Association for Pattern Recognition (OAGM/AAPR), volume 232, pages 169-178, Linz, Austria, May 2008. Austrian Computer Society.

[35] Adrian Ion and Walter G. Kropatsch. Mapping a coordinate system to a non-rigid shape. In Workshop of the Austrian Association for Pattern Recognition, pages 169-178, Bildungszentrum St. Magdalena, Linz, 2008.

[36] S. B. López Mármol, N. M. Artner, M. Iglesias, W. Kropatsch, M. Clabian, and W. Burger. Improving tracking using structure. In Computer Vision Winter Workshop 2008, pages 69-76. SOMARU d.o.o.,Ljubljana, Slovenia, February 2008.

[37] Salvador B. López Mármol, Nicole M. Artner, Adrian Ion, Walter G. Kropatsch, and Csaba Beleznai. Video object segmentation using graphs. In 13th Iberoamerican Congress on Pattern Recognition, CIARP 2008, pages 733-740. Springer, September 2008.

Publications 2009/2010

[38] Esther Antúnez, Rebeca Marfil, Antonio Bandera, and Walter G. Kropatsch. Adaptive dominant points detector for visual landmark description. In Workshop of the AAPR, pages 189-200. OCG, 2009.

[39] Nicole M. Artner, Csaba Beleznai, and Walter G. Kropatsch. Tracking using a hierarchical structural representation. In Workshop of the AAPR, pages 249-260. OCG, 2009.

[40] Nicole M. Artner, Adrian Ion, and Walter Kropatsch. Tracking articulated objects using structure. In Computer Vision Winter Workshop 2009, pages 51-58. Pattern Recognition and Image Processing Group, February 2009.

[41] Nicole M. Artner, Adrian Ion, and Walter G. Kropatsch. Coarse-to-fine tracking of articulated objects using a hierarchical spring system. In Int. Conf. on Computer Analysis of Images and Patterns, pages 1011-1018, Münster, Germany, 2009. Springer.

[42] Nicole M. Artner, Adrian Ion, and Walter G. Kropatsch. Rigid part decomposition in a graph pyramid. In Iberoamerican Congress on Pattern Recognition, pages 758-765, Mexico, 2009. Springer.

[43] Nicole M. Artner, Adrian Ion, and Walter G. Kropatsch. Tracking objects beyond rigid motion. In Workshop on Graph-based Repr. in PR, pages 82-91, Venice, Italy, 2009. Springer.

[44] Antonio Bandera, E. Antúnez, and Rebeca Marfil. An adaptive approach for affine-invariant 2d shape description. In Iberian Conference on Pattern Recognition and Image Analysis, volume 5524, pages 417-424, 2009.

[45] Antonio Bandera, Rebeca Marfil, and E. Antúnez. Affine-invariant contours recognition using an incremental hybrid learning approach. Pattern Recognition Letters, 30(14):1310-1320, 2009.

[46] Rocio Gonzalez-Diaz, Adrian Ion, Mabel Iglesias-Ham, and Walter G. Kropatsch. Invariant representative cocycles of cohomology generators using irregular graph pyramids (submitted in 2009). Computer Vision and Image Understanding, 2010.

[47] Rocio Gonzalez-Diaz, Adrian Ion, Mabel Iglesias-Ham, and Walter G. Kropatsch. Irregular graph pyramids and representative cocycles of cohomology generators. In 7th IAPR-TC-15 International Workshop on Graph Based Representations in Pattern Recognition, pages 82-91. Springer, 2009.

[48] Rocio Gonzalez-Diaz, Adrian Ion, Mabel Iglesias-Ham, and Walter G. Kropatsch. Irregular graph pyramids and representative cocycles of cohomology generators. In Workshop on Graph-based Repr. in PR, pages 263-272, Venice, Italy, 2009. Springer.

[49] Yll Haxhimusa, Walter G. Kropatsch, Zygmunt Pizlo, and Adrian Ion. Approximative graph pyramid solution of the e-tsp. Image and Vision Computing, 27(7):887-896, 2009.

[50] Mabel Iglesias-Ham, Walter G. Kropatsch, Rocio Gonzalez-Diaz, and Adrian Ion. Object classification by topology of convex deficiencies. In 2nd Workshop on Computational Topology in Image Context, pages 75-82, 2009.

[51] Adrian Ion, Nicole M. Artner, and Walter G. Kropatsch. Unsupervised extraction of part-based articulated models in a graph pyramid (submitted in 2009). Computer Vision and Image Understanding, 2010.

[52] Adrian Ion, Nicole M. Artner, Gabriel Peyré, Walter G. Kropatsch, and Laurent Cohen. Matching 2d & 3d articulated shapes using eccentricity (submitted in 2009). Computer Vision and Image Understanding, 2010.

[53] Adrian Ion, Yll Haxhimusa, and Walter G. Kropatsch. A coordinate system for articulated 2d shape point correspondences. In Computer Vision Winter Workshop 2009, pages 4-6. Pattern Recognition and Image Processing Group, February 2009.

[54] Adrian Ion, Yll Haxhimusa, and Walter G. Kropatsch. An improved coordinate system for point correspondences of 2d articulated shapes. In Discrete Geometry for Computer Imagery, pages 92-103. Springer, 2009.

[55] Walter G. Kropatsch. When pyramids learned walking. In Iberoamerican Congress on Pattern Recognition, pages 397-414, Mexico, 2009. Springer.

[56] Luis A. Mateos, Dan Shao, and Walter G. Kropatsch. Expanding irregular graph pyramid for an approaching object. In Iberoamerican Congress on Pattern Recognition, pages 885-891, Mexico, 2009. Springer.

[57] Samuel Peltier, Adrian Ion, Walter G. Kropatsch, Guillaume Damiand, and Yll Haxhimusa. Directly computing the generators of image homology using graph pyramids. Image and Vision Computing, 27(7):846-853, 2009.

[58] J. M. Pérez-Lorenzo, Ricardo Vázquez Martín, E. Antúnez, and Antonio Bandera. A dual graph pyramid approach to grid-based and topological maps integration for mobile robotics. In International Work-Conference on Artificial Neural Networks, pages 781-788, 2009.

[59] Martin Stubenschrott, Walter G. Kropatsch, and Yll Haxhimusa. Combining an optical flow feature detector with graph-based segmentation. In Computer Vision Winter Workshop 2009, pages 91-98. Pattern Recognition and Image Processing Group, February 2009.

[60] Esther Antúnez, Helena Molina-Abril, and Walter G. Kropatsch. Representing the surface of objects by combinatorial pyramids (submitted in 2009). In Computer Vision Winter Workshop 2010, February 2010.

[61] Nicole M. Artner, Adrian Ion, and Walter G. Kropatsch. Multi-Scale Tracking of Articulated Objects Using Hierarchical Spring Systems (submitted in 2010). Pattern Recognition, 2010.

[62] Nicole M. Artner, Adrian Ion, and Walter G. Kropatsch. A Graph Pyramid Framework for Rigid Part Decomposition in a Video (submitted in 2010). Pattern Recognition Letters, 2010.

Presentations

[1] Marie Wild. Spectral Graph Theory and Diffusion Wavelets
PRIP Seminar Talk, February 2007, Vienna University of Technology, Vienna. [ ]
[2] Walter G. Kropatsch. Hierarchies Relating Topology and Geometry
Invited Talk in the 11th Iberoamerical Congress on Pattern Recognition ,November 2006, Cancun, Mexico. [ ]
[3] Y. Haxhimusa. MST based Pyramid Model of TSP. In the 39th Annual Meeting of Mathematical Psychology , August 2006, Vancouver, Canada. [ abstract] [ ]
[4] Marie Wild. ACV Kolloquium , April 2007, PRIP, Vienna. [ ]
[5] Marie Wild. Nonlinear Approximation of Spatiotemporal Data Using Diffusion Wavelets. CAIP Vienna , Poster Presentation, August 2007. [ ]
Download the list of publications [ ] or [ ].

Last modified: May 06, 2010 by Nicole Artner