Spectral Graph and Minimal Spanning Tree for 3D Polygonal Meshes Fingerprinting

Spectral Graph and Minimal Spanning Tree for 3D Polygonal Meshes Fingerprinting

In this paper, the authors present a robust three-dimensional fingerprint algorithm for verification, indexing, and identification. The core idea behind our technique is to apply the eigen-decomposition to the mesh Laplacian matrix, and then compute minimum spanning trees (MST) of several concentrat...

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Veröffentlicht in:International journal of information technology and web engineering 2014-10, Vol.9 (4), p.40-53
Hauptverfasser: Abdallah, Emad E, Al-Oqily, Ibrahim, Abdallah, Alaa E, Otoom, Ahmed F, Alsarhan, Ayoub
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Authentication
Copy prevention techniques
Data security
Digital rights (Intellectual property)
Engineering research
Fingerprinting
Fingerprints
Graph theory
Hash based algorithms
Hashing (Computers)
Hashing functions
Indexing
Mathematical analysis
Methods
Software protection
Spectra
Three dimensional
Vectors (mathematics)
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Beschreibung
Zusammenfassung:In this paper, the authors present a robust three-dimensional fingerprint algorithm for verification, indexing, and identification. The core idea behind our technique is to apply the eigen-decomposition to the mesh Laplacian matrix, and then compute minimum spanning trees (MST) of several concentrations of the mesh shape structure. The fixed size hash vector of a 3D mesh is defined in terms of the MST values and number of the initial patches. The extensive experimental results on several 3D meshes prove the uniqueness of the extracted hash vectors and the robustness of the proposed technique against the most common attacks including distortion-less attacks, compression, noise, smoothing, scaling, rotation as well as mixtures of these attacks.
ISSN:1554-1045
1554-1053
DOI:10.4018/ijitwe.2014100104