Zhiyuan Li, Aiping Zhai, Yingze Ji, Guohui Li, Dong Wang, Wenyan Wang, Linlin Shi, Ting Ji, Fei Liu, Yanxia Cui. Research, application and progress of optical polarization imaging technology[J]. Infrared and Laser Engineering, 2023, 52(9): 20220808
- Infrared and Laser Engineering
- Vol. 52, Issue 9, 20220808 (2023)
![Schematic of the vertical and parallel components of reflected and refracted light[18]](/richHtml/irla/2023/52/9/20220808/img_1.jpg)
Fig. 1. Schematic of the vertical and parallel components of reflected and refracted light[18]
![(a) Framework of NSST-based polarization image fusion[45]; (b) The architecture of the proposed network[48]](/richHtml/irla/2023/52/9/20220808/img_2.jpg)
Fig. 2. (a) Framework of NSST-based polarization image fusion[45]; (b) The architecture of the proposed network[48]
Fig. 3. (a), (b) The relationship between the polarization degree and the incident angle of specular light and diffuse light; (c) The curve of light intensity with the rotation angle of polarizer
Fig. 4. (a)(b) Brewster segmentation[52]; (c) The relationship between incident angle and polarization in infrared and visible light[53]; (d) Two degree of polarization curves simulated for two wavelengths[54]; (e) DoLP and DoCP as a function of the zenith angle[55]
Fig. 5. Imaging result. (a) 3D reconstruction based on fusion of polarization imaging and binocular stereo vision[64]; (b) Near-infrared monocular polarization 3D imaging[66]; (c) Linear depth estimation based on a sparse system of linear equations[69-70]; (d) Polarization 3D reconstruction based on deep learning[72]
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