[1] J Ju, D P Roy. The availability of cloud-free Landsat ETM+ data over the conterminous United States and globally. Remote Sensing of Environment, 112, 1196-1211(2008).

[2] Z M Wang. Thin Cloud Removal of Remote Sensing Images Based on Generation Adversarial Network(2019).

[3] C Y Liu. Research for Remote Sensing Image Atmospheric Correction Method Based on Ground Surface Spectrum Vector Space(2010).

[4] Y Du, B Guindon, J Cihlar. Haze detection and removal in high resolution satellite image with wavelet analysis. IEEE Transactions on Geoscience and Remote Sensing, 40, 210-217(2002).

[5] Z K Liu, B R Hunt. A new approach to removing cloud cover from satellite imagery. Computer Vision, Graphics, And Image Processing, 25, 252-256(1984).

[6] Y Zhang, B Guindon, J Cihlar. An image transform to characterize and compensate for spatial variations in thin cloud contamination of Landsat images. Remote Sensing of Environment, 82, 173-187(2002).

[7] H Lv, Y Wang, Y Shen. An empirical and radiative transfer model based algorithm to remove thin clouds in visible bands. Remote Sensing of Environment, 179, 183-195(2016).

[8] Y Shen, Y Wang, H Lv et al. Removal of thin clouds in Landsat-8 OLI data with independent component analysis. Remote Sensing, 7, 11481-11500(2015).

[9] R J Kauth, G S Thomas. The tasselled cap—A graphic description of the spectral-temporal development of agricultural crops as seen by Landsat, 159, 41-45(1976).

[10] A Makarau, R Richter, R Müller et al. Haze detection and removal in remotely sensed multispectral imagery. IEEE Transactions on Geoscience and Remote Sensing, 52, 5895-5905(2014).

[11] L Ma, Z G Bai, J Dong et al. Imaging model design and effectiveness evaluation of HJ-2A/B satellites. Spacecraft Engineering, 31, 34-41(2022).

[12] Q F Lyu, H P Ren, L F Jin et al. Design and certification of HJ-2A/B satellite 16m camera. Spacecraft Engineering, 31, 49-54(2022).

[13] C W Li, X P Deng, H C Zhao. Thin cloud removal algorithm based on wavelet analysis for remote sensing images. Digital Technology & Application, 137-139(2017).

[14] P S Chavez Jr. An improved dark-object subtraction technique for atmospheric scattering correction of multispectral data. Remote sensing of environment, 24, 459-479(1988).

[15] R Richter, D Schläpfer. Atmospheric and topographic correction (ATCOR theoretical background document). https://www.rese-apps.com/pdf/atcor_atbd.pdf

[16] G S Hu, H M Zha, D Liang et al. Ground object information recovery for thin cloud contaminated remote sesing images by combining classification with transfer learning. Acta Electronica Sinica, 45, 2855-2862(2017).