Your search keyword '"Žalik, Krista Rizman"' showing total 3 results

1. Lossless chain code compression with an improved Binary Adaptive Sequential Coding of zero-runs.

Author

Žalik, Borut, Mongus, Domen, Žalik, Krista Rizman, Podgorelec, David, and Lukač, Niko

Subjects

*LOSSLESS data compression, *VIDEO coding, *BINARY codes, *ENCODING, *SEQUENTIAL codes, *ARITHMETIC coding, *TRANSFORM coding

Abstract

A new method for encoding a sequence of integers, named Binary Adaptive Sequential Coding with Return to Bias , is proposed in this paper. It extends the compressing pipeline for chain codes' compression consisting of Burrows Wheeler Transform, Move-To-Front Transform, and Adaptive Arithmetic Coding. We also explain when to include the Zero-Run Transform into the above-mentioned pipeline. The Zero-Run Transform generates a sequence of integers corresponding to the number of zero-runs. This sequence is encoded by Golomb coding, Binary Adaptive Sequential Coding, and the new Binary Adaptive Sequential Coding with Return to Bias. Finally, a comparison is performed with the two state-of-the-art methods. The proposed method achieved similar compression efficiency for the Freeman chain code in eight directions. However, for the chain codes with shorter alphabets (Freeman chain code in four directions, Vertex Chain Code, and Three-OrThogonal chain code), the introduced method outperforms the referenced ones. [ABSTRACT FROM AUTHOR]

Published

2021

2. Can burrows-Wheeler transform be replaced in chain code compression?

Author

Žalik, Borut, Mongus, Domen, Lukač, Niko, and Žalik, Krista Rizman

Subjects

*DATA compression, *LOSSLESS data compression, *CIPHERS

Abstract

Burrows-Wheeler Transform, followed by Move-To-Front Transform, are often used transformation techniques in data compression. They may reduce the information entropy of the input sequence, which becomes more compressible in this way. This paper suggests an alternative, a Prediction-based Move-To-Front Transform, which may replace the aforementioned transformations. According to the context, consisting of a few already seen symbols, the Prediction-based Move-To-Front Transform selects an appropriate ordered domain of symbols to achieve a better match with the currently transforming symbol. Freeman chain code in four and eight directions, Three-Orthogonal chain code, and Vertex Chain Code were used for experiments. We confirmed that the proposed approach, when using an appropriate length of context, reduces the information entropy to a similar extent as the Burrows-Wheeler Transform followed by the Move-To-Front Transform on chain code data. Both approaches led to a very similar compression efficiency on 32 testing shapes when an arithmetic coder was used in the final stage. The proposed approach turned out to be more efficient when longer chain code sequences were used, obtained by merging all the testing chain codes of the same type. [ABSTRACT FROM AUTHOR]

Published

2020

3. Efficient chain code compression with interpolative coding.

Author

Žalik, Borut, Mongus, Domen, Lukač, Niko, and Žalik, Krista Rizman

Subjects

*CHAIN codes (Data compression), *LOSSLESS data compression, *INTERPOLATION, *DIGITAL image processing, *COMPUTER software

Abstract

This paper considers the use of interpolative coding for lossless chain code compression. The most popular chain codes are used, including Freeman chain code in eight (F8) and four directions (F4), Vertex Chain Code (VCC), and three-orthogonal chain code (3OT). The whole compression pipeline consists of the Burrows–Wheeler transform, Move-To-Front transform and the interpolative coding, which was improved by FELICS and new Ψ-coding. The approach was compared with the state-of-the-art chain code compression algorithms. For VCC, 3OT and F4, the obtained results are slightly better than the existing approaches. However, an important improvement was achieved with F8 chain code, where the presented approach is considerably better. [ABSTRACT FROM AUTHOR]

Published

2018