An Efficient Fine-Grain Scalable Compression Scheme For Sparse Data

Stefan Strahl; A. Mertins

An Efficient Fine-Grain Scalable Compression Scheme For Sparse Data

Stefan Strahl, A. Mertins

Institut für Signalverarbeitung

Abstract

A fine-grain scalable and efficient compression scheme for sparse data based on adaptive significance-trees is presented. Com-mon approaches for 2-D image compression like EZW (embed-ded wavelet zero tree) and SPIHT (set partitioning in hierarchi-cal trees) use a fixed significance-tree that captures well the inter-and intraband correlations of wavelet coefficients. For most 1-D signals like audio, such rigid coefficient correlations are not present. We address this problem by dynamically selecting an op-timal significance-tree for the actual data frame from a given set of possible trees. Experimental results on sparse representations of audio signals are given, showing that this coding scheme outper-forms single-type tree coding schemes and performs comparable to the MPEG AAC coder while additionally achieving fine-grain scalability.

Originalsprache	Englisch
Seiten	1-8
Seitenumfang	8
Publikationsstatus	Veröffentlicht - 01.11.2005
Veranstaltung	Proceedings of Signal Processing with Adaptative Sparse Structured Representations 2005 - IRISA/INRIA, Rennes, Frankreich Dauer: 16.11.2005 → 18.11.2005

Tagung, Konferenz, Kongress

Tagung, Konferenz, Kongress	Proceedings of Signal Processing with Adaptative Sparse Structured Representations 2005
Kurztitel	SPARS05
Land/Gebiet	Frankreich
Ort	Rennes
Zeitraum	16.11.05 → 18.11.05

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AU - Mertins, A.

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AB - A fine-grain scalable and efficient compression scheme for sparse data based on adaptive significance-trees is presented. Com-mon approaches for 2-D image compression like EZW (embed-ded wavelet zero tree) and SPIHT (set partitioning in hierarchi-cal trees) use a fixed significance-tree that captures well the inter-and intraband correlations of wavelet coefficients. For most 1-D signals like audio, such rigid coefficient correlations are not present. We address this problem by dynamically selecting an op-timal significance-tree for the actual data frame from a given set of possible trees. Experimental results on sparse representations of audio signals are given, showing that this coding scheme outper-forms single-type tree coding schemes and performs comparable to the MPEG AAC coder while additionally achieving fine-grain scalability.

UR - https://www.researchgate.net/publication/228971733_An_efficient_fine-grain_scalable_compression_scheme_for_sparse_data

UR - https://www.semanticscholar.org/paper/AN-EFFICIENT-FINE-GRAIN-SCALABLE-COMPRESSION-SCHEME-Strahl-Mertins/be221c9aa17fdf6908580bf5fcbad382dc4ed25b

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An Efficient Fine-Grain Scalable Compression Scheme For Sparse Data

Abstract

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