Title :
Downsampling of Signals on Graphs Via Maximum Spanning Trees
Author :
Nguyen, H.Q. ; Do, M.N.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Illinois at Urbana-Champaign, Urbana, IL, USA
Abstract :
Downsampling of signals living on a general weighted graph is not as trivial as of regular signals where we can simply keep every other samples. In this paper we propose a simple, yet effective downsampling scheme in which the underlying graph is approximated by a maximum spanning tree (MST) that naturally defines a graph multiresolution. This MST-based method significantly outperforms the two previous downsampling schemes, coloring-based and SVD-based, on both random and specific graphs in terms of computations and partition efficiency quantified by the graph cuts. The benefit of using MST-based downsampling for recently developed critical-sampling graph wavelet transforms in compression of graph signals is demonstrated.
Keywords :
approximation theory; signal sampling; trees (mathematics); wavelet transforms; MST-based method; bipartite approximation; critical-sampling graph wavelet transforms; general weighted graph; graph cuts; graph multiresolution; graph signal compression; maximum spanning trees; signal downsampling scheme; Bipartite graph; Interpolation; Joining processes; Laplace equations; Signal resolution; Transforms; Vegetation; Bipartite approximation; downsampling on graphs; graph multiresolution; graph wavelet filter banks; max-cut; maximum spanning tree; signal processing on graphs;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2014.2369013
