Electro-Optic Technology Application, Volume. 37, Issue 5, 70(2022)
Progress and Prospect of Polarization Imaging for Complex Scenes in Scattering Media (Invited)
[1] [1] SCHECHNER Y Y, NARASIMHAN S G, NAYAR S K. Instant dehazing of images using Polarization[C]//Proceedings of the 2001 IEEE Computer Society Conference on Computer Vision and Pattern Recognition, 2001:I-I.
[2] [2] YOAV Y, SCHECHNER, SRINIVASA G, et al. Polarization-based vision through haze[J]. Appl Opt,2003(42):511-525.
[3] [3] KOSCHMIEDER H. Theorie der horizontalen Sichtweite[J]. Beitrage zur Physik der Freien Atmosphare,1924:33-53.
[4] [4] NEGI A, CHAUHAN P, KUMAR K, et al. Face mask detection classifier and model pruning with Keras-surgen[C]//2020 5th IEEE International Conference on Recent Advances and Innovations in Engineering(ICRAIE), 2020:1-6.
[5] [5] NARASIMHAN SG, NAYAR SK. Vision and the atmosphere[J]. Int J Comp Vis, 2002(48):233-54.
[6] [6] SCHECHNER YY, KARPEL N. Recovery of underwater visibility and structure by polarization analysis[J].IEEE J Oceanic Eng, 2005(30):570-87.
[7] [7] TREIBITZ T, SCHECHNER YY. Active polarization descattering[J]. IEEE Trans Pattern Anal Mach Intell , 2008(31):385-99.
[8] [8] LIANG J, ZHANG W, REN L, et al. Polarimetric dehazing method for visibility improvement based on visible and infrared image fusion[J]. Appl Opt, 2016(55):8221-6.
[10] [10] JOHN D, van der Laan, JEREMY B, et al. Evolution of circular and linear polarization in scattering environments[J]. Opt Express, 2015(23):31874-31888.
[12] [12] TYO JS, ROWE MP, PUGH EN,et al. Target detection in optically scattering media by polarization-difference imaging[J]. Appl Opt,1996(35):1855-70.
[13] [13] ROWE MP, TYO JS, ENGHETA N, et al. Polarization-difference imaging:a biologically inspired technique for observation through scattering media[J]. Opt Lett, 1995(20):608-10.
[14] [14] GUAN J, ZHU J. Target detection in turbid medium using polarization-based range-gated technology[J]. Opt Express, 2013(21):14152-8.
[15] [15] SCHECHNER YY, NARASIMHA SG, NAYAR SK. Polarization-based vision through haze[J]. Appl Opt , 2003(42):511-25.
[16] [16] HORVATH H. On the applicability of the koschmieder visibility formula[J]. Atmos Environ, 1967,5(1971):177-84.
[17] [17] WEYRAUCH B , HEISELE B , HUANG J, et al. Component-based face recognition with 3D morphable models[C]//2004 Conference on Computer Vision and Pattern Recognition Workshop, 2004:85-85.
[18] [18] HUANG Bingjing , LIU Tiegen, HAN Jiahui, et al. Underwater image recovery considering polarization effects of objects[J]. Opt Express, 2016(24):9826-9838.
[19] [19] HU H, ZHAO L, LI X, et al. Underwater image recovery under the nonuniform optical field based on polarimetric imaging[C]//IEEE Photon J, 2018:10:1-9.
[20] [20] LI X, HU H, ZHAO L, et al. Polarimetric image recovery method combining histogram stretching for underwater imaging[J]. Sci Rep, 2018(8):12430-10.
[21] [21] LI X, WANG H, HU H, et al. AOPC 2019 in optical sensing and imaging technology[C]//International Society for Optics and Photonics, 2019:1133820.
[22] [22] AMER KO, ELBOUZ M, ALFALOU A, et al. Enhancing underwater optical imaging by using a low-pass polarization filter[J]. Opt Express, 2019(27):621-43.
[23] [23] SMITH RC, BAKER KS. Optical Properties of the Clearest Natural Waters (200- 800 Nm)[J]. Appl Opt, 1981(20):177-84.
[24] [24] LIU F, HAN P, WEI Y, et al. Deeply seeing through highly turbid water by active polarization imaging[J]. Opt Lett, 2018(43):4903-6.
[25] [25] LI Xiaobo, LIU Tiegen, HUANG Bingjing, et al. Optimal distribution of integration time for intensity measurements in Stokes polarimetry[J]. Opt Express, 2015(23):27690-27699.
[26] [26] LI X, HU H, WU L, et al. Optimization of instrument matrix for mueller matrix ellipsometry based on partial elements analysis of the mueller matrix[J]. Opt Express, 2017(25):18872-84.
[27] [27] TIAN H, ZHU J, TAN S, et al. Rapid underwater target enhancement method based on polarimetric imaging[J]. Opt Laser Tech, 2011(108):515-20.
[28] [28] GUAN J, REN W, CHENG Y. Stokes vector based interpolation method to improve the efficiency of bio-inspired polarization-difference imaging in turbid media[J]. J Phys D:Appl Phys, 2018(51):145402.
[29] [29] LIANG Jian, REN Liyong, QU Enshi, et al. Method for enhancingvisibility of hazy images based on polarimetric imaging[J]. Photon Res, 2014(2):38-44.
[30] [30] LIANG J, REN L, JU H, et al. Polarimetric dehazing method for dense haze removal based on distribution analysis of angle of polarization[J]. Opt Express, 2015(23):26146-57.
[31] [31] WEI Y, HAN P, LIU F, et al. Enhancement of underwater vision by fully exploiting the polarization information from the Stokes vector[J]. Opt Express, 2021(29):22275-87.
[32] [32] MACKINTOSH FC, ZHU JX, PINE DJ, et al. Polarization memory of multiply scattered light[J]. Phys Rev B, 1989(40):9342-5.
[33] [33] NI X, ALFANO RR. Time-resolved backscattering of circularly and linearly polarized light in a turbid medium[J]. Opt Lett, 2004(29):2773-5.
[34] [34] HU H, ZHAO L, LI X, et al. Polarimetric image recovery in turbid media employing circularly polarized light[J]. Opt Express, 2018(26):25047-59.
[35] [35] JIN H, QIAN L, GAO J, et al. Polarimetric calculation method of global pixel for underwater image restoration[J]. IEEE Photon J, 2020(13):1-15.
[36] [36] GUAN J, MA M, SUN P. Optimization of rotating orthogonal polarization imaging in turbid media via the mueller matrix[J]. Opt Lasers Eng, 2019(121):104-11.
[37] [37] WANG H, LI J, HU H, et al. Underwater imaging by suppressing the backscattered light based on mueller matrix[J]. IEEE Photon J, 2021(13):1-6.
[38] [38] WANG H, HU H, JIANG J, et al. Polarization differential imaging in turbid water via mueller matrix and illumination modulation[J].Opt Commun,2021(499):127274.
[39] [39] LIU Fei, ZHANG Shichao, HAN Pingli, et al. Depolarization index from Mueller matrix descatters imaging in turbid water[J]. Chin Opt Lett, 2022(20):022601.
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LEI Teng, WANG Shiyong, MA Yizhe, LI Zheng. Progress and Prospect of Polarization Imaging for Complex Scenes in Scattering Media (Invited)[J]. Electro-Optic Technology Application, 2022, 37(5): 70
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Received: Aug. 24, 2022
Accepted: --
Published Online: Dec. 7, 2022
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