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    Journals >Opto-Electronic Engineering >Volume 51 >Issue 4 >Page 240002-1 > Article
    • Opto-Electronic Engineering
    • Vol. 51, Issue 4, 240002-1 (2024)
    Design and implement of a space-borne sun glint polarization parameter computing system
    Yuhao Li1,2, Feng Ji1, Zhenwei Qiu2, Feinan Chen2,*..., Zhuoran Li2, Gaojun Chi2, Jingjing Chen1, Yadong Hu2 and Mengfan Li2|Show fewer author(s)
    Author Affiliations
  • 1School of Instrument Science and Opto-Electronics Engineering, Hefei University of Technology, Hefei, Anhui 230009, China
  • 2Anhui Institute of Optics and Fine Mechanics, Hefei Institutes of Physical Science, Chinese Academy of Sciences, Hefei, Anhui 230031, China
    • show less
    DOI: 10.12086/oee.2024.240002 Cite this Article
    Yuhao Li, Feng Ji, Zhenwei Qiu, Feinan Chen, Zhuoran Li, Gaojun Chi, Jingjing Chen, Yadong Hu, Mengfan Li. Design and implement of a space-borne sun glint polarization parameter computing system[J]. Opto-Electronic Engineering, 2024, 51(4): 240002-1 Copy Citation Text show less
    References

    [1] S Kay, J D Hedley, S Lavender. Sun glint correction of high and low spatial resolution images of aquatic scenes: a review of methods for visible and near-infrared wavelengths. Remote Sens, 1, 697-730(2009).

    [2] M H Wang, S W Bailey. Correction of sun glint contamination on the SeaWiFS ocean and atmosphere products. Appl Opt, 40, 4790-4798(2001).

    [3] C D Mobley. Polarized reflectance and transmittance properties of windblown sea surfaces. Appl Opt, 54, 4828-4849(2015).

    [4] M Hieronymi. Polarized reflectance and transmittance distribution functions of the ocean surface. Opt Express, 24, A1045-A1068(2016).

    [5] B Fougnie, R Frouin, P Lecomte et al. Reduction of skylight reflection effects in the above-water measurement of diffuse marine reflectance. Appl Opt, 38, 3844-3856(1999).

    [6] Z G Liu, G H Zhou. Polarization of sun glint. J Infrared Millimeter Waves, 26, 362-365(2007).

    [7] H J Zhao, Z Ji, Y Zhang et al. Mid-infrared imaging system based on polarizers for detecting marine targets covered in sun glint. Opt Express, 24, 16396-16409(2016).

    [8] R Avrahamy, B Milgrom, M Zohar et al. Improving object imaging with sea glinted background using polarization method: analysis and operator survey. IEEE Trans Geosci Remote Sens, 57, 8764-8774(2019).

    [9] W G Zhang. Application of polarization detection technology under the background of sun flare on sea surface. Chin Opt, 11, 231-236(2018).

    [10] H Q Zhu, H S Qu. Adaptive suppression system of sea background flare. Acta Opt Sin, 42, 1201006(2022).

    [11] M S Wang, S Qiu, W Q Jin et al. Automatic suppression method for water surface glints using a division of focal plane visible polarimeter. Sensors, 23, 7446(2023).

    [12] X Y Yu. Design of sCMOS imaging system for space-borne polarization spectral camera, 1-67(2023).

    [13] M Born, E Wolf. Principles of Optics(1975).

    [14] I Reda, A Andreas. Corrigendum to “Solar position algorithm for solar radiation applications” [Solar Energy 76 (2004) 577–589]. Sol Energy, 81, 838(2007).

    [15] C Cox, W Munk. Measurement of the roughness of the sea surface from photographs of the Sun’s glitter. J Opt Soc Am, 44, 838-850(1954).

    [16] S Y Kotchenova, E F Vermote. Validation of a vector version of the 6S radiative transfer code for atmospheric correction of satellite data. Part II. Homogeneous Lambertian and anisotropic surfaces. Appl Opt, 46, 4455-4464(2007).

    [17] Z T Chen, X B Sun, J F Wang et al. Dynamic detection of ocean glint from near-infrared polarized radiation satellite data. J Remote Sens, 23, 215-229(2019).

    [18] L A Remer, Y J Kaufman, D Tanré et al. The MODIS aerosol algorithm, products, and validation. J Atmos Sci, 62, 947-973(2005).

    [19] B Toubbe, T Bailleul, J L Deuze et al. In-flight calibration of the POLDER polarized channels using the Sun's glitter. IEEE Trans Geosci Remote Sens, 37, 513-524(1999).

    [20] P Bicheron, M Leroy, O Hautecoeur et al. Enhanced discrimination of boreal forest covers with directional reflectances from the airborne polarization and directionality of Earth reflectances (POLDER) instrument. J Geophys Res Atmos, 102, 29517-29528(1997).

    [21] H H Qian. Laboratory full field of view polarization calibration of directional polarimetric camera, 1-100(2017).

    [22] M Y Hou, Z Q Li, Y S Xie et al. Research on spectral feature cloud detection method of directional polarimetric camera on Chinese satellite. J Atmos Environ Opt, 17, 598-612(2022).

    [23] Q Cheng, X J Gao, J Gao et al. A generative method for atmospheric polarization modelling based on neighborhood constraint. Opto-Electron Eng, 49, 210423(2022).

    [24] R Kastner, J Matai, S Neuendorffer. Parallel programming for FPGAs(2018). https://doi.org/10.48550/arXiv.1805.03648

    [25] J E Volder. The CORDIC trigonometric computing technique. IRE Trans Electron Comput, EC-8, 330-334(1959).

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    Yuhao Li, Feng Ji, Zhenwei Qiu, Feinan Chen, Zhuoran Li, Gaojun Chi, Jingjing Chen, Yadong Hu, Mengfan Li. Design and implement of a space-borne sun glint polarization parameter computing system[J]. Opto-Electronic Engineering, 2024, 51(4): 240002-1
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