New method of enhancement using wavelet transforms applied to SODISM telescope

PICARD is a space-based observatory hosting the Solar Diameter Imager and Surface Mapper (SODISM) telescope, which has continuously observed the Sun from July 2010 and up to March 2014. In order to study the fine structure of the solar surface, it is helpful to apply techniques that enhance the imag...

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Veröffentlicht in:	Advances in space research 2019-01, Vol.63 (1), p.606-616
Hauptverfasser:	Alasta, Amro F., Algamudi, Abdulrazag, Qahwaji, Rami, Ipson, Stanley, Hauchecorne, Alain, Meftah, Mustapha
Format:	Artikel
Sprache:	eng
Schlagworte:	Astrophysics DWT Engineering Sciences Enhanced image Filling factor IDWT Instrumentation and Methods for Astrophysic Interpolation Sciences of the Universe Signal and Image processing SODISM low-resolution images Solar and Stellar Astrophysics
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creator	Alasta, Amro F. Algamudi, Abdulrazag Qahwaji, Rami Ipson, Stanley Hauchecorne, Alain Meftah, Mustapha
description	PICARD is a space-based observatory hosting the Solar Diameter Imager and Surface Mapper (SODISM) telescope, which has continuously observed the Sun from July 2010 and up to March 2014. In order to study the fine structure of the solar surface, it is helpful to apply techniques that enhance the images so as to improve the visibility of solar features such as sunspots or faculae. The objective of this work is to develop an innovative technique to enhance the quality of the SODISM images in the five wavelengths monitored by the telescope at 215.0 nm, 393.37 nm, 535.7 nm, 607.1 nm and 782.2 nm. An enhancement technique using interpolation of the high-frequency sub-bands obtained by Discrete Wavelet Transforms (DWT) and the input image is applied to the SODISM images. The input images are decomposed by the DWT as well as Stationary Wavelet Transform (SWT) into four separate sub-bands in horizontal and vertical directions namely, low-low (LL), low–high (LH), high-low (HL) and high–high (HH) frequencies. The DWT high frequency sub-bands are interpolated by a factor 2. The estimated high frequency sub-bands (edges) are enhanced by introducing an intermediate stage using a Stationary Wavelet Transform (SWT), and then all these sub-bands and input image are combined and interpolated with half of the interpolation factor α/2, used to interpolate the high-frequency sub-bands, in order to reach the required size for IDWT processing. Quantitative and visual results show the superiority of the proposed technique over a bicubic image resolution enhancement technique. In addition, filling factors for sunspots are calculated from SODISM images and results are presented in this work.
doi_str_mv	10.1016/j.asr.2018.08.002
format	Article
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The estimated high frequency sub-bands (edges) are enhanced by introducing an intermediate stage using a Stationary Wavelet Transform (SWT), and then all these sub-bands and input image are combined and interpolated with half of the interpolation factor α/2, used to interpolate the high-frequency sub-bands, in order to reach the required size for IDWT processing. Quantitative and visual results show the superiority of the proposed technique over a bicubic image resolution enhancement technique. 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The estimated high frequency sub-bands (edges) are enhanced by introducing an intermediate stage using a Stationary Wavelet Transform (SWT), and then all these sub-bands and input image are combined and interpolated with half of the interpolation factor α/2, used to interpolate the high-frequency sub-bands, in order to reach the required size for IDWT processing. Quantitative and visual results show the superiority of the proposed technique over a bicubic image resolution enhancement technique. 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subjects	Astrophysics DWT Engineering Sciences Enhanced image Filling factor IDWT Instrumentation and Methods for Astrophysic Interpolation Sciences of the Universe Signal and Image processing SODISM low-resolution images Solar and Stellar Astrophysics
title	New method of enhancement using wavelet transforms applied to SODISM telescope
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