Texture Generation Method of Three‑Dimensional Model of Crime Scene Based On Multi Panoramic Images

Meng Liu; Si Shen; Dongbin Duan; Wenying Yao

doi:10.3788/LOP202259.1611008

[1] Newcombe R A, Izadi S, Hilliges O et al. KinectFusion: Real-time dense surface mapping and tracking[C], 127-136(2011).

[2] Whelan T, Johannsson H, Kaess M et al. Robust real-time visual odometry for dense RGB-D mapping[C], 5724-5731(2013).

[3] Liu H M, Zhang G F, Bao H J. A survey of monocular simultaneous localization and mapping[J]. Journal of Computer-Aided Design & Computer Graphics, 28, 855-868(2016).

[4] Zhou Q Y, Koltun V. Dense scene reconstruction with points of interest[J]. ACM Transactions on Graphics, 32, 1-8(2013).

[5] Rusu R B. Semantic 3D object maps for everyday manipulation in human living environments[J]. KI-Künstliche Intelligenz, 24, 345-348(2010).

[6] Berge M, Tagliasacchi A, Seversky L et al. State of the art in surface reconstruction from point clouds[C], 24, 161-185(2014).

[7] Lai J Y, Wu T C, Phothong W et al. A high-resolution texture mapping technique for 3D textured model[J]. Applied Sciences, 8, 2228(2018).

[8] Hoppe H, DeRose T, Duchamp T et al. Surface reconstruction from unorganized points[J]. ACM SIGGRAPH Computer Graphics, 26, 71-78(1992).

[9] Li R S, Liu L, Phan L et al. Polygonizing extremal surfaces with manifold guarantees[C], 189-194(2010).

[10] Dickerson M T, Scot Drysdale R L, McElfresh S A et al. Fast greedy triangulation algorithms[J]. Computational Geometry, 8, 67-86(1997).

[11] Bernardini F, Mittleman J, Rushmeier H et al. The ball-pivoting algorithm for surface reconstruction[J]. IEEE Transactions on Visualization and Computer Graphics, 5, 349-359(1999).

[12] Kazhdan M, Bolitho M, Hoppe H. Poisson surface reconstruction[C], 61-70(2006).

[13] Moenning C, Dodgson N A. Fast marching farthest point sampling for point clouds and implicit surfaces[D](2003).

[14] Lévy B, Petitjean S, Ray N et al. Least squares conformal maps for automatic texture atlas generation[J]. ACM Transactions on Graphics, 21, 362-371(2002).

[15] Sorkine O, Marc A. As-rigid-as-possible surface modeling[C], 109-116(2007).

[16] Xiao X, Yang G G, Bai J. Panoramic-annular-lens distortion correction based on spherical perspective projection constraint[J]. Acta Optica Sinica, 28, 675-680(2008).

[17] Yan L, Cao L, Chen C J et al. A patch rectification-based feature matching method for spherical panoramic images[J]. Science of Surveying and Mapping, 40, 23-28(2015).

[18] Liu S R, Ferguson Z, Jacobson A et al. Seamless: seam erasure and seam-aware decoupling of shape from mesh resolution[J]. ACM Transactions on Graphics, 36, 1-15(2017).

[19] Du R J, Ge B Z, Chen L. Texture mapping of multi-view high-resolution images and binocular 3D point clouds[J]. Chinese Optics, 13, 1055-1064(2020).

[20] Jeon J, Jung Y, Kim H et al. Texture map generation for 3D reconstructed scenes[J]. The Visual Computer, 32, 955-965(2016).

[21] Li J F, Chen Y B, Wang M S et al. Half-edge collapse simplification algorithm based on angle feature[C], 367-371(2015).

[22] Cignoni P, Corsini M, Ranzuglia G. MeshLab: an open-source 3D mesh processing system[EB/OL]. https://ercim-news.ercim.eu/

[23] Garland M, Heckbert P S. Surface simplification using quadric error metrics[C], 209-216(1997).