Digital Restoration Method of Sculpture Face Based on Deep Learning

Fuhong Zhu; Cailin Li; Baoyun Guo; Zhiyong Wang; Xiangcan Liao

doi:10.3788/LOP202259.0415006

[1] Zhu C H, Li X, Xu W. The development and design innovation research of commemorative sculpture[J]. Sculpture, 68-69(2021).

[2] Shui W Y, Zhou M Q, Gao F et al. A digital restoration method for broken bronze artifacts having a symmetrical structure[J]. Sciences of Conservation and Archaeology, 27, 113-117(2015).

[3] Hou M L, Yang S, Hu Y G et al. Novel method for virtual restoration of cultural relics with complex geometric structure based on multiscale spatial geometry[J]. ISPRS International Journal of Geo-Information, 7, 353(2018).

[4] Zhu Y X, Li J L, Ning X G et al. Creating 3D digital Buddha models by using GeoStar[J]. Wtusm Bulletin of Science and Technology, 29, 7-9(2004).

[5] Gao Q Y, Gao Q X, Liang F. Reverse design practice of tang dynasty mausoleum statues based on “HTML5+VR” micro-link[J/OL]. Packaging Engineering, 1-10. http:∥kns.cnki.net/kcms/detail/50.1094.TB.20210301.1015.002.html

[6] Zhu Y Z, Zhang Y P, Feng Q S. Colorful 3D reconstruction from single image based on deep learning[J]. Laser & Optoelectronics Progress, 58, 1410010(2021).

[7] Jackson A S, Bulat A, Argyriou V et al. Large pose 3D face reconstruction from a single image via direct volumetric CNN regression[C], 1031-1039(2017).

[8] Guo J Z, Zhu X Y, Yang Y et al. Towards fast, accurate and stable 3D dense face alignment[M]. Vedaldi A, Bischof H, Brox T, et al. Computer vision-ECCV 2020, 12364, 152-168(2020).

[9] Zhu X Y, Lei Z, Liu X M et al. Face alignment across large poses: a 3D solution[C], 146-155(2016).

[10] Newell A, Yang K Y, Deng J. Stacked hourglass networks for human pose estimation[M]. Leibe B, Matas J, Sebe N, et al. Computer vision-ECCV 2016, 9912, 483-499(2016).

[11] Li R B, Yuan X P, Gan S et al. Point cloud simplification optimization strategy and experimental research based on multiple algorithms[J]. Laser & Optoelectronics Progress, 57, 231402(2020).

[12] Jin Y T, Zhang Y H, Cui H H et al. An aircraft skin registration method based on contour feature constraint[J]. Acta Optica Sinica, 41, 0312001(2021).

[13] Wang Y B, Zheng N S, Bian Z F. Planar feature-constrained, quaternion-based registration algorithm for LiDAR point clouds[J]. Acta Optica Sinica, 40, 2310001(2020).

[14] Mellado N, Aiger D, Mitra N J. Super 4PCS fast global pointcloud registration via smart indexing[J]. Computer Graphics Forum, 33, 205-215(2014).

[15] Wei S B, Wang S Q, Zhou C H et al. An iterative closest point algorithm based on biunique correspondence of point clouds for 3D reconstruction[J]. Acta Optica Sinica, 35, 0515003(2015).

[16] Yang Z S. Research on key technology of 3D point cloud data processing[D](2019).

[17] Edelsbrunner H. Surface reconstruction by wrapping finite sets in space[M]. Aronov B, Basu S, Pach J, et al. Discrete and computational geometry, 25, 379-404(2003).

[18] Chen S J, Zhang S L, Liu M Q et al. Underwater terrain three-dimensional reconstruction algorithm based on improved Delaunay triangulation[J]. Computer Science, 47, 137-141(2020).