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Wavelets on Graphs via Spectral Graph Theory
TLDR
In this paper, the spectral graph wavelet operator is defined based on spectral decomposition of the discrete graph Laplacian, and a wavelet generating kernel and a scale parameter are used to localize this operator to an indicator function.Abstract:
We propose a novel method for constructing wavelet transforms of functions defined on the vertices of an arbitrary finite weighted graph. Our approach is based on defining scaling using the the graph analogue of the Fourier domain, namely the spectral decomposition of the discrete graph Laplacian $\L$. Given a wavelet generating kernel $g$ and a scale parameter $t$, we define the scaled wavelet operator $T_g^t = g(t\L)$. The spectral graph wavelets are then formed by localizing this operator by applying it to an indicator function. Subject to an admissibility condition on $g$, this procedure defines an invertible transform. We explore the localization properties of the wavelets in the limit of fine scales. Additionally, we present a fast Chebyshev polynomial approximation algorithm for computing the transform that avoids the need for diagonalizing $\L$. We highlight potential applications of the transform through examples of wavelets on graphs corresponding to a variety of different problem domains.read more
Citations
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Journal ArticleDOI
Wavelet-Based Visual Analysis of Dynamic Networks
Alcebiades Dal Col,Paola Valdivia,Fabiano Petronetto,Fabio Dias,Cláudio T. Silva,L. Gustavo Nonato +5 more
TL;DR: This work proposes a novel visual analytics methodology for dynamic networks, which relies on the spectral graph wavelet theory to enable the automatic analysis of a signal defined on the nodes of the network, making viable the robust detection of network properties.
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Skeleton-based action recognition by part-aware graph convolutional networks
TL;DR: The part-aware convolutions is designed to replace common convolutions which is performed on all the neighboring joints and an Inception-like structure is introduced, which can concatenate feature maps from different convolution kernels.
Proceedings ArticleDOI
Multiresolution graph signal processing via circulant structures
TL;DR: This work uses circulant structures to present a new framework for multiresolution analysis and processing of graph signals, and designs two-channel, critically-sampled, perfect-reconstruction, orthogonal lattice-filter structures to process signals defined oncirculant graphs.
Journal ArticleDOI
A Spectral Method for Generating Surrogate Graph Signals
TL;DR: The graph Fourier transform is used to define a new method for generating surrogate graph signals that is based on sign-randomization of theGraph Fourier coefficients and, therefore, the correlation structure of the surrogategraph signals is imposed by the measured data.
Proceedings ArticleDOI
Graph Fourier transform based on directed Laplacian
TL;DR: This paper redefine the graph Fourier transform (GFT) under the DSPG framework by considering the Jordan eigenvectors of the directed Laplacian matrix as graph harmonics and the corresponding eigenvalues as the graph frequencies.
References
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Object recognition from local scale-invariant features
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TL;DR: This paper presents a meta-analyses of the wavelet transforms of Coxeter’s inequality and its applications to multiresolutional analysis and orthonormal bases.
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Ten Lectures on Wavelets
TL;DR: In this article, the regularity of compactly supported wavelets and symmetry of wavelet bases are discussed. But the authors focus on the orthonormal bases of wavelets, rather than the continuous wavelet transform.