Super-resolution Solar Spectral Irradiance Reconstruction Method Based on Convolutional Neural Network

Peng ZHANG; Jianwen WENG; Qing KANG; Jianjun LI

doi:10.3788/gzxb20255403.0330001

Acta Photonica Sinica, Volume. 54, Issue 3, 0330001(2025)

Super-resolution Solar Spectral Irradiance Reconstruction Method Based on Convolutional Neural Network

Peng ZHANG^1,2, Jianwen WENG^2、*, Qing KANG², and Jianjun LI²

Author Affiliations

¹School of Physical Sciences，University of Science and Technology of China，Hefei 230026，China

²Key Laboratory of Optical Calibration and Characterization，Anhui Institute of Optics and Fine Mechanics，Chinese Academy of Sciences，Hefei 230031，China

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References(27)

[1] HAIGHT J D. The Sun and the Earth's climate[J]. Living Reviews in Solar Physics, 4, 2(2007).

[2] THUILLIER G, ZHU Ping, SNOW M et al. Characteristics of solar-irradiance spectra from measurements, modeling, and theoretical approach[J]. Light: Science & Applications, 11, 565-579(2022).

[3] WIELICKI B A, YOUNG D F, MLYNCZAK M G et al. Achieving climate change absolute accuracy in orbit[J]. Bulletin of the American Meteorological Society, 94, 1519-1539(2013).

[4] YAO Baoli, LEI Ming, XUE Bin et al. Progress and applications of high-resolution and super-resolution optical imaging in space and biology[J]. Acta Photonica Sinica, 40, 1607(2011).

[5] THUILLIER G, HARDER J W, SHAPIRO A et al. The infrared solar spectrum measured by the SOLSPEC spectrometer onboard the international space station[J]. Solar Physics, 290, 1581-1600(2015).

[6] RICHARD E, HARBER D, DRAKE G et al. Compact spectral irradiance monitor flight demonstration mission[C], 11131, 15-34(2019).

[7] HILBIG T, WEBER M, BRAMSTEDT K et al. The new SCIAMACHY reference solar spectral irradiance and its validation[J]. Solar Physics, 293, 1-26(2018).

[8] MEFTAH M, DAMÉ L, BOLSÉE D et al. SOLAR-ISS: A new reference spectrum based on SOLAR/SOLSPEC observations[J]. Astronomy & Astrophysics, 611, A1(2018).

[9] ELSEY J, COLEMAN M D, GARDINER T et al. Can measurements of the near-infrared solar spectral irradiance be reconciled? A new ground-based assessment between 4,000 and 10,000 cm-1 10,000 cm-1[J]. Geophysical Research Letters, 44, 10071-10080(2017).

[10] GREEN P D, FOX N P, LOBB D et al. The traceable radiometry underpinning terrestrial and helio studies (TRUTHS) mission[C], 9639, 367-376(2015).

[11] TOBIN D, HOLZ R, NAGLE F et al. Characterization of the climate absolute radiance and refractivity observatory (CLARREO) ability to serve as an infrared satellite intercalibration reference[J]. Journal of Geophysical Research Atmospheres, 121, 4258-4271(2016).

[12] ZHANG Peng, LU Naimeng, LI Chuanrong et al. Development of the Chinese space-based radiometric benchmark mission LIBRA[J]. Remote Sensing, 12, 2179(2020).

[13] THUILLIER G, FLOYD L, WOODS T N et al. Solar irradiance reference spectra[J]. Geophysical Monograph Series, 141, 171-194(2013).

[14] DOBBER M, VOORS R, DIRKSEN R et al. The high-resolution solar reference spectrum between 250 and 550 nm and its application to measurements with the ozone monitoring instrument[J]. Solar Physics, 249, 281-291(2008).

[15] CODDINGTON O M, RICHARD E C, HARBER D et al. The TSIS-1 hybrid solar reference spectrum[J]. Geophysical Research Letters, 48, e2020GL091709(2021).

[16] RICHARD E, HARBER D, CODDINGTON O et al. SI-traceable spectral irradiance radiometric characterization and absolute calibration of the TSIS-1 Spectral Irradiance Monitor (SIM)[J]. Remote Sensing, 12, 1818(2020).

[18] JANSSON P A, JANSSON T L J H, II R J M[M]. Deconvolution of images and spectra(1996).

[19] KAUPPINEN J K, MOFFATT D J, MANTSCH H H et al. Fourier transforms in the computation of self-deconvoluted and first-order derivative spectra of overlapped band contours[J]. Analytical Chemistry, 53, 1454-1457(1981).

[20] YANG Huaidong, XU Li, CHEN Kexin et al. Blind deconvolution algorithm for spectrogram super-resolution restoration[J]. Spectroscopy and Spectral Analysis, 1249-1253(2007).

[21] YAN L, LIU H, ZHONG S et al. Semi-blind spectral deconvolution with adaptive Tikhonov regularization[J]. Applied Spectroscopy, 66, 1334-1346(2012).

[22] LIU Hai, ZHANG Zhaoli, SUN Jianwen et al. Blind spectral deconvolution algorithm for Raman spectrum with Poisson noise[J]. Photonics Research, 2, 168-171(2014).

[23] LIU Hai, LI Youfu, ZHANG Zhaoli et al. Blind Poissonian reconstruction algorithm via curvelet regularization for an FTIR spectrometer[J]. Optics Express, 26, 22837-22856(2018).

[24] TSAI F, PHILPOT W. Derivative analysis of hyperspectral data[J]. Remote Sensing of Environment, 66, 41-51(1998).

[25] KRUSE F A, LEFKOFF A B, BOARDMAN J W et al. The spectral image processing system (SIPS)—Interactive visualization and analysis of imaging spectrometer data[J]. Remote Sensing of Environment, 44, 145-163(1993).

[26] CODDINGTON O M, RICHARD E C, HARBER D et al. Version 2 of the TSIS-1 hybrid solar reference spectrum and extension to the full spectrum[J]. Earth and Space Science, 10, e2022EA002637(2023).

[27] KINGMA D P, BA J. Adam: a method for stochastic optimization[C](2014).

[28] GARDNER J L. Spectral deconvolution applications for colorimetry[J]. Color Research & Application, 39, 430-435(2014).

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Peng ZHANG, Jianwen WENG, Qing KANG, Jianjun LI. Super-resolution Solar Spectral Irradiance Reconstruction Method Based on Convolutional Neural Network[J]. Acta Photonica Sinica, 2025, 54(3): 0330001

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Paper Information

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Received: Sep. 3, 2024

Accepted: Nov. 27, 2024

Published Online: Apr. 22, 2025

The Author Email: Jianwen WENG (wengjw@aiofm.ac.cn)

DOI:10.3788/gzxb20255403.0330001

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