Professor
Supervisor of Doctorate Candidates
Title of Paper:Data-driven Geometry-recovering Mesh Denoising
Hits:
Affiliation of Author(s):机电学院
Journal:CAD Comput Aided Des
Abstract:Depth cameras and 3D scanners significantly simplify the procedure of geometric modeling. 3D surfaces have become more widespread, leading to a great demand for noise removal with the expectation of the minimal disturbance of mesh geometry. We propose a novel two-step data-driven mesh denoising approach. The first step removes noise by learning normal variations from noisy models to their ground-truth counterparts. Unlike existing denoising methods, we present the second step to recover the mesh geometry lost in the first step. The second step understands the commonly used filters by learning the mapping from filtered models to their ground-truth counterparts. In addition, (1) to handle noise with large variations, we model normal estimation as a low-rank matrix recovery problem in similar-patch collaboration before the first-step learning; (2) to recover the real geometry of a denoised mesh, we reversely filter the denoised mesh to obtain more geometry cues before the second-step learning. The detailed quantitative and qualitative results on various data demonstrate that, our two-step learning algorithm competes favorably with the state-of-the-art methods in terms of mesh geometry preservation and noise-robustness. © 2019 Elsevier Ltd
ISSN No.:0010-4485
Translation or Not:no
Date of Publication:2019-09-01
Co-author:Huang, Jin,Huang Jinquan,Wang, Fu Lee,Mingqiang Wei,Xie, Haoran,Qin, Jing
Correspondence Author:汪俊,Wang, Fu Lee,Jun Wang
Open time:..
The Last Update Time: ..