[1] [1] PINTO A M，COSTA P G，MOREIRA A P，et al. Evaluation of depth sensors for robotic applications[C]//IEEE International Conference on Autonomous Robot Systems&Competitions，Vila Real，Portugal. New York: IEEE，2015: 139-143.

[2] [2] KRAFT M， NOWICKI M， PENNE R， et al. Efficient RGB-D data processing for feature-based self-localization of mobile robots[J]. International Journal of Applied Mathematics and Computer Science，2016，26（1）：63-79.

[3] [3] LAHAMY H， LICHTI D. Towards real-time and rotation-invariant American sign language Alphabet recognition using a range camera[J]. Sensors，2012，12（11）：14416-14441.

[4] [4] HOCHDORFER S，SCHLEGEL C. 6 DoF SLAM using a ToF camera: the challenge of a continuously growing number of landmarks[C]//IEEE/RSJ International Coference on Intelligent Robots&Systems，Taipei，China. New York: IEEE，2010: 3981-3986.

[6] [6] HECHT E. Optics[M]. India：Pearson Education， 2012.

[8] [8] SOE-MIE F， NEE. Polarization of specular reflection and near-specular scattering by a rough surface[J]. Applied Optics， 1996， 35（19）：3570-3582.

[9] [9] LU X T， YANG J， JIN W Q， et al. Polarization properties of reflected light with natural light incidence and elimination of angle of incidence ambiguity[J]. Applied Optics， 2018， 57（29）：8549-8556.

[11] [11] SCHECHNER Y Y，NARASIHAN 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 (CVPR)，Kauai，HI，USA. New York: IEEE，2001:325-332.

[15] [15] LI Y Y，WANG X，PAN Y H，et al. Ultraviolet-visible light compass method based on local atmospheric polarization characteristics in adverse weather conditions[J]. Applied Optics，2022，61(23): 6853-6860.

[16] [16] LAZAROS N，SIRAKOULIS G C，ANTONIOS G. Review of stereo vision algoriths: from software to hardware[J]. International Journal of Optomechatronics，2008，2: 435-462.

[17] [17] HORAUD R， HANSARD M， EVANGELIDIS G， et al. An overview of depth cameras and range scanners based on time-of-flight technologies[J]. Machine Vision&Applications， 2016， 27（7）：1005-1020.

[18] [18] DANIEL S，RICHAD S. High-accuracy stereo depth maps using structured light[C]//IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR)，Madison，WI，USA. New York: IEEE，2003.

[20] [20] JARABO A， MASIS B， MARCO J， et al. Recent advances in transient imaging：a computer graphics and vision perspective[J]. Visual Informatics， 2016， 1（1）：15.

[21] [21] SARBOLANDI H，LEFLOCH D，KOLB A. Kinect range sensing: structured-light versus time-of-flight kinect[J]. Computer Vision and Image Understanding，2015，139: 1-20.

[22] [22] BATLLE J， MOUADDIB E M， SALVI J. Recent progress in coded structured light as a technique to solve the correspondence problem：a survey[J]. Pattern Recognition， 1998， 31（7）：963-982.

[25] [25] XIN T A，RUI L A，ZW B，et al. High quality 3D reconstruction base on fusion of polarization imaging and binocular stereo vision[J]. Information Fusion，2022，77: 19-28.

[26] [26] KAI B，VOORHIES R，ATTHIES L H.Depth from stereo polarization in specular scenes for urban robotics[C]//IEEE International Conference on Robotics&Automation (ICRA)，Singapore. New York: IEEE，2017，1966-1973.

[27] [27] NGUYEN C V，MILFORD M，MAHONY R. 3D tracking of water hazards with polarized stereo cameras[C]//IEEE International Conference on Robotics and Automation (ICRA)，Singapore. New York: IEEE，2017，5251-5257.

[28] [28] SARAFRAZ A，NEGAHDARIPOU S，SCHECHNER Y Y. Enhancing images in scattering media utlizing stereovision and polarization[C]//2009 Workshop on Applications of Computer Vision (WACV)，Snowbird，UT，USA. New York: IEEE，2009: 1-8.

[29] [29] KADAMBI A，TAAMAZYAN V，SHI B，et al. Plarized 3d: high-quality depth sensing with polarization cues[C]//Proceedings of the IEEE International Conference on Computer Vision，Santiago，Chile. New York: IEEE，2015: 3370-3378.

[30] [30] KADAMBI A，TAAAZYAN V，SHI B，et al. Depth sensing using geometrically constrained polarization normals[J]. International Journal of Computer Vision，2017，125: 34-51.

[31] [31] YOSHIDA T，GOLYANIK V，WASENMULLER O，et al. Improving time-of-flight sensor for specular surfaces with shape from polarization[C]//2018 25th IEEE International Conference on Image Processing (ICIP)，Athens，Greece. New York: IEEE，2018: 1558-1562.

[32] [32] LEVIN A， LISCHINSKI D， WEISS Y. Colorization using optimization[J]. ACM Transactions on Graphics （TOG）， 2004， 23（3）：689-694.

[33] [33] DASHPUTE A， ANAND C， SARKAR M. Depth resolution enhancement in time-of-flight cameras using polarization state of the reflected light[J]. IEEE Transactions on Instrumentation and Measurement， 2018， 68（1）：160-168.

[34] [34] ZHANG Y X，WANG X，ZHAO Y W，et al. Time-of-flight imaging in fog using polarization phasor imaging[J]. Sensors， 2022， 22（9）：3159.

[35] [35] SCHECHNER Y Y，NAYAR S K，NARSIMHAN S G. Instant dehazing of image using polarization[C]//In Proceedings of the Proceedings of the 2001 IEEE Computer Society Conferece on Computer Vision and Pattern Recognition，Los Alamitos，CA，USA. New York，IEEE，2001，2: 325.

[36] [36] GUPTA M， NAYAR S K， HULLIN M B， et al. Phasor imaging：a generalization of correlation-based time-of-Flight imaging[J]. ACM Transactions on Graphics （TOG）， 2015， 34（5）：1-18.

[37] [37] ZHAO Y W， WANG X， ZHANG Y X， et al. Polarization-based approach for multipath interference mitigation in time-of-flight imaging[J]. Applied Optics， 2022， 61（24）：7206-7217.

[39] [39] XIAO H， JIAN B， WANG K， et al. Target enhanced 3D reconstruction based on polarization-coded structured light[J]. Optics Express， 2017， 25（2）：1173-1184.

[40] [40] HUANG X， LUO Y J， BAI J， et al. Polarimetric target depth sensing in ambient illumination based on polarization-coded structured light[J]. Applied Optics， 2017， 56（27）：7741-7748.

[41] [41] ZHU Z M， XIE Y L， CEN Y G. Polarized-state-based coding strategy and phase image estimation method for robust 3D measurement[J]. Optics Express， 2020， 28（3）：4307-4319.

[44] [44] SALAHIEH B， CHEN Z Y， RODRIGUEZ J J， et al. Multi-polarization fringe projection imaging for high dynamic range objects[J]. Optics Express， 2014， 28（3）：4307-4319.