Polarimetric multi-view 3D reconstruction based on parallax angle and zenith angle optimization

Rui-Hua ZHANG; Bo-Xin SHI; Jin-Fa YANG; Hong-Ying ZHAO; Zheng-Kang ZUO

doi:10.11972/j.issn.1001-9014.2021.01.018

[1] Y Sun, H Sun, L Yan et al. RBA: Reduced Bundle Adjustment for oblique aerial photogrammetry. ISPRS Journal of Photogrammetry and Remote Sensing, 121, 128-142(2016).

[2] G Atkinson, F. Logothetis,, R. Mecca,, E Hancock, F. Sgallari,, R. Cipolla,. A differential approach to shape from polarisation: A level-set characterisation. International Journal of Computer Vision, 127, 1680-1693(2019).

Polarization-based surface reconstruction via patch matching, 1, 495-502(2006).

[3] G A Atkinson. Polarisation Photometric Stereo. Computer Vision & Image Understanding, 160, 158-167(2017).

[4] A. Kadambi, V. Taamazyan, B. Shi, R Raskar. : Depth sensing using geometrically constrained polarization normals. International Journal of Computer Vision, 125, 34-51(2017).

[5] Z Cui, J Gu, B Shi et al. Polarimetric multi-view stereo, 1558-1567(2017).

[6] B Shi, Z Mo, Z Wu et al. A Benchmark Dataset and Evaluation for Non-Lambertian and Uncalibrated Photometric Stereo. IEEE Transactions on Pattern Analysis and Machine Intelligence, 41, 271-284(2019).

[7] D Nehab, S Rusinkiewicz, J Davis et al. Efficiently combining positions and normals for precise 3D geometry. ACM transactions on graphics (TOG), 24, 536-543(2005).

[8] G A Atkinson, E R Hancock. Shape estimation using polarization and shading from two views. IEEE transactions on pattern analysis machine intelligence, 29, 2001-2017(2007).

[9] K Koshikawa. A polarimetric approach to shape understanding of glossy objects, 493-495(1979).

[10] A Ghosh, T Chen, P Peers et al. Circularly polarized spherical illumination reflectometry. ACM Transactions on Graphics (TOG), 29, 162(2010).

[11] G A Atkinson, E R Hancock. Multi-view surface reconstruction using polarization, 1, 309-316(2005).

[12] J Yang, L Yan, H Zhao et al. Shape from Polarization of low-texture objects with rough depth information. J. Infrared Millim. Waves, 38, 819(2019).

[13] C Yue, J Yang, Z Li et al. 3-D surface reconstruction based on polarization analysis. Journal of Applied Optics, 844-848(2008).

[14] X Ping, Y Liu, X Dong et al. 3-D reconstruction of textureless and high-reflective target by polarization and binocular stereo vision. J. Infrared Millim. Waves, 36, 432-438(2017).

[15] L B Wolff. Polarization vision: a new sensory approach to image understanding. Image Vision computing, 15, 81-93(1997).

[16] G A Atkinson, E R Hancock. Surface reconstruction using polarization and photometric stereo, 466-473(2007).

[17] R T Frankot, R Chellappa. A method for enforcing integrability in shape from shading algorithms. IEEE Transactions on pattern analysis machine intelligence, 10, 439-451(1988).

[18] P Kovesi. Shapelets correlated with surface normals produce surfaces, 2, 994-1001(2005).

[19] C Wu. Towards linear-time incremental structure from motion, 127-134(2013).

[20] Z Zhang. A flexible new technique for camera calibration. IEEE Transactions on pattern analysis and machine intelligence, 22, 1330-1334(2000).

[21] P Pérez, M Gangnet, A Blake. Poisson image editing, 313-318(2003).

[22] H.A. Mahmoud, El-Melegy et al. Direct method for shape recovery from polarization and shading. Image Processing (ICIP)(2012).

[23] D. Miyazaki, Tan et al. Polarization-based inverse rendering from a single view. IEEE International Conference on Computer Vision(2003).

[24] A Agrawal, R Raskar, R Chellappa. What is the range of surface reconstructions from a gradient field？, 578-591(2006).