[1] Shang H Z, Husi L, Li M et al. Remote sensing of cloud properties based on visible-to-infrared channel observation from passive remote sensing satellites[J]. Acta Optica Sinica, 42, 0600003(2022).
[2] Urquhart B, Kurtz B, Dahlin E et al. Development of a sky imaging system for short-term solar power forecasting[J]. Atmospheric Measurement Techniques, 8, 875-890(2015).
[3] Koyasu T, Yukita K, Ichiyanagi K et al. Forecasting variation of solar radiation and movement of cloud by sky image data[C], 401-406(2016).
[4] Jiang J X, Gao X Q, Lü Q Q et al. Study on cloud tracking and solar irradiance ultra-short-term forecasting based on TSI images[J]. Acta Energiae Solaris Sinica, 41, 351-358(2020).
[5] Yin B S, Min Q L. Climatology of aerosol and cloud optical properties at the Atmospheric Radiation Measurements Climate Research Facility Barrow and Atqasuk sites[J]. Journal of Geophysical Research: Atmospheres, 119, 1820-1834(2014).
[6] Mace G G, Benson S, Sonntag K L et al. Cloud radiative forcing at the Atmospheric Radiation Measurement Program Climate Research Facility: 1. Technique, validation, and comparison to satellite-derived diagnostic quantities[J]. Journal of Geophysical Research, 111, D11S90(2006).
[7] Yang C W, Liu W Q, Zhang Y J. Automatic inversion algorithm of cloud cover of laser ceilometer[J]. Laser & Optoelectronics Progress, 49, 030102(2012).
[8] Shields J E, Johnson R W, Karr M E et al. Delivery and development of a day/night whole sky imager with enhanced angular alignment for full 24 hour cloud distribution assessment[R](1997).
[9] Long C N, Slater D W, Tooman T P[M]. Total sky imager model 880 status and testing results(2001).
[10] Cazorla A, Olmo F J, Alados-Arboledas L. Development of a sky imager for cloud cover assessment[J]. Journal of the Optical Society of America A, 25, 29-39(2008).
[11] Yang J, Lu W T, Ma Y et al. An automated cirrus cloud detection method for a ground-based cloud image[J]. Journal of Atmospheric and Oceanic Technology, 29, 527-537(2012).
[12] Fa T, Xie W Y, Wang Y R et al. Development of an all-sky imaging system for cloud cover assessment[J]. Applied Optics, 58, 5516-5524(2019).
[14] Shaw J A, Nugent P W, Pust N J et al. Radiometric cloud imaging with an uncooled microbolometer thermal infrared camera[J]. Optics Express, 13, 5807-5817(2005).
[15] Sun X J, Gao T C, Zhai D L et al. Whole sky infrared cloud measuring system based on the uncooled infrared focal plane array[J]. Infrared and Laser Engineering, 37, 761-764(2008).
[16] Debevec P E, Malik J. Recovering high dynamic range radiance maps from photographs[C], 1-10(2008).
[17] Berk A, Anderson G P, Bernstein L S et al. MODTRAN4 radiative transfer modeling for atmospheric correction[J]. Proceedings of SPIE, 3756, 348-353(1999).
[18] Shaw J A, Nugent P W. Physics principles in radiometric infrared imaging of clouds in the atmosphere[J]. European Journal of Physics, 34, S111-S121(2013).
[19] Wei H L, Chen X H, Dai C M et al. Ground-based measurements of infrared atmospheric background spectral radiances[J]. Infrared and Laser Engineering, 41, 284-290(2012).
[20] Gao T C, Liu L, Zhao S J et al. The actuality and progress of whole sky cloud sounding techniques[J]. Journal of Applied Meteorological Science, 21, 101-109(2010).
[21] Xie W Y, Liu D, Yang M et al. SegCloud: a novel cloud image segmentation model using a deep convolutional neural network for ground-based all-sky-view camera observation[J]. Atmospheric Measurement Techniques, 13, 1953-1961(2020).
[22] Nugent P W, Shaw J A, Piazzolla S. Wide angle infrared cloud imaging for measuring cloud statistics in support of earth space optical communication[J]. Proceedings of SPIE, 6709, 67090F(2007).
[23] Wang Y R, Liu D, Xie W Y et al. Day and night clouds detection using a thermal-infrared all-sky-view camera[J]. Remote Sensing, 13, 1852(2021).