Visibility-Consistent Thin Surface Reconstruction Using Multi-Scale Kernels ś Supplemental Material SAMIR AROUDJ, PATRICK SEEMANN, FABIAN LANGGUTH, STEFAN GUTHE, and MICHAEL GOESELE, TU Darmstadt, Germany ACM Reference Format: Samir Aroudj, Patrick Seemann, Fabian Langguth, Stefan Guthe, and Michael Goesele. 2017. Visibility-Consistent Thin Surface Reconstruction Using Multi- Scale Kernels ś Supplemental Material. ACM Trans. Graph. 36, 6, Article 187 ś Supplemental Material (November 2017), 3 pages. https://doi.org/10.1145/nnnnnnn.nnnnnnn This supplemental material demonstrates results not shown in the main paper. We compare our TSR approach against Poisson Surface Reconstruction (PSR) [Kazhdan and Hoppe 2013], Floating Scale Surface Reconstruction (FSSR) [Fuhrmann and Goesele 2014], Point Fusion (PFS) [Ummenhofer and Brox 2015], Smooth Signed Distance Surface Reconstruction (SSD) [Calakli and Taubin 2011], Surface Re- construction from Multi-resolution Points (SURFMRS) [Mücke et al. 2011] and CMPMVS [Jancosek and Pajdla 2011]. Note that we never cull back faces. Additionally, back faces of colorless reconstructions are rendered in yellow. All datasets are described in the main paper. REFERENCES Fatih Calakli and Gabriel Taubin. 2011. SSD: Smooth Signed Distance Surface Recon- struction. CGF 30, 7 (2011). Simon Fuhrmann and Michael Goesele. 2014. Floating Scale Surface Reconstruction. ACM TOG 33, 4 (2014). Michal Jancosek and Tomás Pajdla. 2011. Multi-View Reconstruction Preserving Weakly- Supported Surfaces. In CVPR. Michael Kazhdan and Hugues Hoppe. 2013. Screened Poisson Surface Reconstruction. ACM TOG 32, 3 (2013). Patrick Mücke, Ronny Klowsky, and Michael Goesele. 2011. Surface Reconstruction from Multi-resolution Sample Points. In VMV. Benjamin Ummenhofer and Thomas Brox. 2015. Global, Dense Multiscale Reconstruc- tion for a Billion Points. In ICCV. Received May 2017; revised August 2017; fnal version September 2017; accepted September 2017 © 2017 Association for Computing Machinery. This is the author’s version of the work. It is posted here for your personal use. Not for redistribution. The defnitive Version of Record was published in ACM Transactions on Graphics, https://doi.org/10.1145/nnnnnnn.nnnnnnn. (a) Ground Truth (b) FSSR (c) PFS (d) SSD (e) CMPMVS (f) SURFMRS (g) PSR (h) TSR -10 10 Fig. 1. For the City scene, our approach is the only one that accurately reconstructs it. ACM Transactions on Graphics, Vol. 36, No. 6, Article 187 ś Supplemental Material. Publication date: November 2017.