Analysis of Lossless Compressors Applied to Integer and Floating-Point Astronomical Data

Miguel Hernández-Cabronero; Joan Bartrina-Rapesta; Joan Serra-Sagristà; Ôscar Maireles-González

doi:10.1109/DCC52660.2022.00047

Analysis of Lossless Compressors Applied to Integer and Floating-Point Astronomical Data

Miguel Hernández-Cabronero, Joan Bartrina-Rapesta, Joan Serra-Sagristà, Ôscar Maireles-González^*

^*Autor corresponent d’aquest treball

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2 Cites (Scopus)

Resum

In this work, lossless compression algorithms are evaluated on a variety of real, current as-tronomical images. The test dataset comprises raw (integer) and processed (floating-point) images of discrete and extensive astronomical objects, captured by spatial or terrestrial tele-scopes. Compression techniques herein analyzed are chosen to be representative of the most recent algorithms devised for astronomical data, as well as the most commonly employed compressors employed in real observatories. Experimental results suggest that coding techniques such as RICE and HCOMPRESS, typically employed in world-class observatories such as Roque de los Muchachos, do not produce the best possible lossless compression results. Instead, JPEG-LS, LZMA and NDZIP yield the best compression ratio results for 16-bit data (2.72), floating-point data (2.38) and radio data (1.81), respectively. Therefore, the efficiency with which data are stored and transmitted by these observatories could be significantly improved by selectively employing the aforementioned algorithms.

Idioma original	Anglès
Títol de la publicació	Proceedings - DCC 2022
Subtítol de la publicació	2022 Data Compression Conference
Editors	Ali Bilgin, Michael W. Marcellin, Joan Serra-Sagrista, James A. Storer
Editor	Institute of Electrical and Electronics Engineers Inc.
Pàgines	389-398
Nombre de pàgines	10
ISBN (electrònic)	9781665478939
DOIs	https://doi.org/10.1109/DCC52660.2022.00047
Estat de la publicació	Publicada - 2022

Sèrie de publicacions

Nom	Data Compression Conference Proceedings
Volum	2022-March
ISSN (imprès)	1068-0314

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10.1109/DCC52660.2022.00047

https://ddd.uab.cat/record/304347

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Hernández-Cabronero, M., Bartrina-Rapesta, J., Serra-Sagristà, J., & Maireles-González, Ô. (2022). Analysis of Lossless Compressors Applied to Integer and Floating-Point Astronomical Data. In A. Bilgin, M. W. Marcellin, J. Serra-Sagrista, & J. A. Storer (Ed.), Proceedings - DCC 2022: 2022 Data Compression Conference (pàg. 389-398). (Data Compression Conference Proceedings; Vol. 2022-March). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/DCC52660.2022.00047

Hernández-Cabronero, Miguel ; Bartrina-Rapesta, Joan ; Serra-Sagristà, Joan et al. / Analysis of Lossless Compressors Applied to Integer and Floating-Point Astronomical Data. Proceedings - DCC 2022: 2022 Data Compression Conference. editor / Ali Bilgin ; Michael W. Marcellin ; Joan Serra-Sagrista ; James A. Storer. Institute of Electrical and Electronics Engineers Inc., 2022. pàg. 389-398 (Data Compression Conference Proceedings).

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abstract = "In this work, lossless compression algorithms are evaluated on a variety of real, current as-tronomical images. The test dataset comprises raw (integer) and processed (floating-point) images of discrete and extensive astronomical objects, captured by spatial or terrestrial tele-scopes. Compression techniques herein analyzed are chosen to be representative of the most recent algorithms devised for astronomical data, as well as the most commonly employed compressors employed in real observatories. Experimental results suggest that coding techniques such as RICE and HCOMPRESS, typically employed in world-class observatories such as Roque de los Muchachos, do not produce the best possible lossless compression results. Instead, JPEG-LS, LZMA and NDZIP yield the best compression ratio results for 16-bit data (2.72), floating-point data (2.38) and radio data (1.81), respectively. Therefore, the efficiency with which data are stored and transmitted by these observatories could be significantly improved by selectively employing the aforementioned algorithms.",

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Hernández-Cabronero, M , Bartrina-Rapesta, J , Serra-Sagristà, J & Maireles-González, Ô 2022, Analysis of Lossless Compressors Applied to Integer and Floating-Point Astronomical Data. in A Bilgin, MW Marcellin, J Serra-Sagrista & JA Storer (ed.), Proceedings - DCC 2022: 2022 Data Compression Conference. Data Compression Conference Proceedings, vol. 2022-March, Institute of Electrical and Electronics Engineers Inc., pàg. 389-398. https://doi.org/10.1109/DCC52660.2022.00047

Analysis of Lossless Compressors Applied to Integer and Floating-Point Astronomical Data. / Hernández-Cabronero, Miguel ; Bartrina-Rapesta, Joan ; Serra-Sagristà, Joan et al.
Proceedings - DCC 2022: 2022 Data Compression Conference. ed. / Ali Bilgin; Michael W. Marcellin; Joan Serra-Sagrista; James A. Storer. Institute of Electrical and Electronics Engineers Inc., 2022. pàg. 389-398 (Data Compression Conference Proceedings; Vol. 2022-March).

Producció científica: Capítol de llibre › Capítol › Recerca › Avaluat per experts

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T1 - Analysis of Lossless Compressors Applied to Integer and Floating-Point Astronomical Data

AU - Hernández-Cabronero, Miguel

AU - Bartrina-Rapesta, Joan

AU - Serra-Sagristà, Joan

AU - Maireles-González, Ôscar

PY - 2022

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N2 - In this work, lossless compression algorithms are evaluated on a variety of real, current as-tronomical images. The test dataset comprises raw (integer) and processed (floating-point) images of discrete and extensive astronomical objects, captured by spatial or terrestrial tele-scopes. Compression techniques herein analyzed are chosen to be representative of the most recent algorithms devised for astronomical data, as well as the most commonly employed compressors employed in real observatories. Experimental results suggest that coding techniques such as RICE and HCOMPRESS, typically employed in world-class observatories such as Roque de los Muchachos, do not produce the best possible lossless compression results. Instead, JPEG-LS, LZMA and NDZIP yield the best compression ratio results for 16-bit data (2.72), floating-point data (2.38) and radio data (1.81), respectively. Therefore, the efficiency with which data are stored and transmitted by these observatories could be significantly improved by selectively employing the aforementioned algorithms.

AB - In this work, lossless compression algorithms are evaluated on a variety of real, current as-tronomical images. The test dataset comprises raw (integer) and processed (floating-point) images of discrete and extensive astronomical objects, captured by spatial or terrestrial tele-scopes. Compression techniques herein analyzed are chosen to be representative of the most recent algorithms devised for astronomical data, as well as the most commonly employed compressors employed in real observatories. Experimental results suggest that coding techniques such as RICE and HCOMPRESS, typically employed in world-class observatories such as Roque de los Muchachos, do not produce the best possible lossless compression results. Instead, JPEG-LS, LZMA and NDZIP yield the best compression ratio results for 16-bit data (2.72), floating-point data (2.38) and radio data (1.81), respectively. Therefore, the efficiency with which data are stored and transmitted by these observatories could be significantly improved by selectively employing the aforementioned algorithms.

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Hernández-Cabronero M , Bartrina-Rapesta J , Serra-Sagristà J, Maireles-González Ô. Analysis of Lossless Compressors Applied to Integer and Floating-Point Astronomical Data. In Bilgin A, Marcellin MW, Serra-Sagrista J, Storer JA, editors, Proceedings - DCC 2022: 2022 Data Compression Conference. Institute of Electrical and Electronics Engineers Inc. 2022. pàg. 389-398. (Data Compression Conference Proceedings). doi: 10.1109/DCC52660.2022.00047

Analysis of Lossless Compressors Applied to Integer and Floating-Point Astronomical Data

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