Abstract
Adjacency and Laplacian matrices are popular structures to use as representations of shape graphs, because their sorted sets of eigenvalues (spectra) can be used as signatures for shape retrieval. Unfortunately, the descriptiveness of these spectra is limited, and handling graphs of different size remains a challenge. In this work, we propose a new framework in which the shapes (3D models in our test corpus) are represented by multi-labeled graphs. A Hermitian matrix is associated to each graph, in which the entries are defined such that they contain all information stored in the graph edges. Additional constraints ensure that this Hermitian matrix mimics the well-studied spectral behaviour of the Laplcian matrix. We therefore use the Hermitian Fiedler vector as shape signature during retrieval. To deal with graphs of different size, we efficiently reuse the calculated Fiedler vector to decompose the graph into a limited number of non-overlapping, meaningful subgraphs. Retrieval results are based on both complete matching and subgraph matching.
Chapter PDF
Similar content being viewed by others
Keywords
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
References
Biasotti, S., Falcidieno, B., Frosini, P., Giorgi, D., Landi, C., Marini, S., Patane, G., Spagnuolo, M.: 3D shape description and matching based on properties of real functions. In: Eurographics - Tutorials (2007)
Tangelder, J.W., Veltkamp, R.C.: A survey of content based 3d shape retrieval methods. In: Shape Modeling International (2004)
Biasotti, S., Giorgi, D., Spagnuolo, M., Falcidieno, B.: Reeb graphs for shape analysis and applications. Theoretical Computer Science (2007) (to appear)
Hilaga, M., Shinagawa, Y., Kohmura, T., Kunii, T.L.: Topology matching for fully automatic similarity estimation of 3d shapes. In: SIGGRAPH (2001)
Marini, S., Spagnuolo, M., Falcidieno, B.: From exact to approximate maximum common subgraph. In: Graph-based Representations in Pattern Recognition (2005)
Tierny, J., Vandeborre, J.P., Daoudi, M.: Reeb chart unfolding based 3D shape signatures. In: Eurographics (2007)
Tung, T., Schmitt, F.: Augmented reeb graphs for content-based retrieval of 3d mesh models. In: Shape Modeling International (2004)
Demirci, M.F., van Leuken, R.H., Veltkamp, R.C.: Indexing through laplacian spectra. Computer Vision and Image Understanding 110(3), 312–325 (2008)
Sengupta, K., Boyer, K.L.: Modelbase partitioning using property matrix spectra. Computer Vision and Image Understanding 70(2), 177–196 (1998)
Shokoufandeh, A., Macrini, D., Dickinson, S., Siddiqi, K., Zucker, S.: Indexing hierarchical structures using graph spectra. Pattern Analysis and Machine Intelligence 27(7) (2005)
Wilson, R.C., Hancock, E.R., Luo, B.: Pattern vectors from algebraic graph theory. Pattern Analysis and Machine Intelligence 27, 1112–1124 (2005)
Zhu, P., Wilson, R.C.: A study of graph spectra for comparing graphs. In: British Machine Vision Conference (2005)
Biasotti, S., Falcidieno, B., Spagnuolo, M.: Extended reeb graphs for surface understanding and description. In: Discrete Geometry for Computer Imagery (2000)
Mortara, M., Patane, G., Spagnuolo, M., Falcidieno, B., Rossignac, J.: Blowing bubbles for multi-scale analysis and decomposition of triangle meshes. Algorithmica 38(1), 227–248 (2004)
Symonova, O., De Amicis, R.: Shape analysis for augmented topological shape descriptor. In: Eurographics (2007)
Mohar, B.: The laplacian spectrum of graphs. Graph Theory, Combinatorics and Applications 2, 871–898 (1991)
Merris, R.: Laplacian matrices of graphs: a survey. Linear Algebra and its Applications 197(1), 143–176 (1994)
Qiu, H., Hancock, E.R.: Graph partition for matching. In: Graph-based Representations in Pattern Recognition (2003)
Veltkamp, R.C., ter Haar, F.B.: SHREC2007: 3D Shape Retrieval Contest. Technical Report UU-CS-2007-015, Utrecht University (2007)
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2008 Springer-Verlag Berlin Heidelberg
About this paper
Cite this paper
van Leuken, R.H., Symonova, O., Veltkamp, R.C., de Amicis, R. (2008). Complex Fiedler Vectors for Shape Retrieval. In: da Vitoria Lobo, N., et al. Structural, Syntactic, and Statistical Pattern Recognition. SSPR /SPR 2008. Lecture Notes in Computer Science, vol 5342. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-89689-0_21
Download citation
DOI: https://doi.org/10.1007/978-3-540-89689-0_21
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-89688-3
Online ISBN: 978-3-540-89689-0
eBook Packages: Computer ScienceComputer Science (R0)
