Two-Dimensional Block Trees
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Two-Dimensional Block TreesDate
2024-01Citation
Nieves R. Brisaboa, Travis Gagie, Adrián Gómez-Brandón, Gonzalo Navarro, Two-Dimensional Block Trees, The Computer Journal, Volume 67, Issue 1, January 2024, Pages 391–406, https://doi.org/10.1093/comjnl/bxac182
Abstract
[Absctract]: The Block Tree is a data structure for representing repetitive sequences in compressed space, which reaches space comparable with that of Lempel–Ziv compression while retaining fast direct access to any position in the sequence. In this paper, we generalize Block Trees to two dimensions, in order to exploit repetitive patterns in the representation of images, matrices and other kinds of bidimensional data. We demonstrate the practicality of the two-dimensional Block Trees (2D-BTs) in representing the adjacency matrices of Web graphs, and raster images in GIS applications. For this purpose, we integrate our 2D-BT with the k2-tree—an efficient structure that exploits clustering and sparseness to compress adjacency matrices—so that it also exploits repetitive patterns. Our experiments show that this structure uses 60–80% of the space of the original k2-tree, while being 30% faster to three times slower when accessing cells.
Keywords
Block Trees
k2-trees
Graph compression
Image compression
k2-trees
Graph compression
Image compression
Editor version
ISSN
0010-4620
1460-2067
1460-2067