Patch-collaborative spectral point-cloud denoising

G. Rosman; A. Dubrovina; R. Kimmel

doi:10.1111/cgf.12139

Patch-collaborative spectral point-cloud denoising

G. Rosman, A. Dubrovina, R. Kimmel

Computer Science

Technion - Israel Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

We present a new framework for point cloud denoising by patch-collaborative spectral analysis. A collaborative generalization of each surface patch is defined, combining similar patches from the denoised surface. The Laplace-Beltrami operator of the collaborative patch is then used to selectively smooth the surface in a robust manner that can gracefully handle high levels of noise, yet preserves sharp surface features. The resulting denoising algorithm competes favourably with state-of-the-art approaches, and extends patch-based algorithms from the image processing domain to point clouds of arbitrary sampling. We demonstrate the accuracy and noise-robustness of the proposed algorithm on standard benchmark models as well as range scans, and compare it to existing methods for point cloud denoising. We present a new framework for point cloud denoising by patch-collaborative spectral analysis. A collaborative generalization of each surface patch is defined, combining similar patches from the denoised surface. The Laplace-Beltrami operator of the collaborative patch is then used to selectively smooth the surface in a robust manner that can gracefully handle high levels of noise, yet preserves sharp surface features.

Original language	English
Pages (from-to)	1-12
Number of pages	12
Journal	Computer Graphics Forum
Volume	32
Issue number	8
DOIs	https://doi.org/10.1111/cgf.12139
State	Published - Dec 2013

Keywords

G.1.2 [Mathematics of Computing]: Approximation - Approximation of surfaces and contours
I.3.5 [Computer Graphics]: Computational Geometry and Object Modelling - Geometric algorithms languages and systems
I.4.8 [Image Processing and Computer Vision]: Scene Analysis - Surface fitting
Laplace-Beltrami
denoising
point cloud

All Science Journal Classification (ASJC) codes

Computer Graphics and Computer-Aided Design

Access to Document

10.1111/cgf.12139

Cite this

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title = "Patch-collaborative spectral point-cloud denoising",

abstract = "We present a new framework for point cloud denoising by patch-collaborative spectral analysis. A collaborative generalization of each surface patch is defined, combining similar patches from the denoised surface. The Laplace-Beltrami operator of the collaborative patch is then used to selectively smooth the surface in a robust manner that can gracefully handle high levels of noise, yet preserves sharp surface features. The resulting denoising algorithm competes favourably with state-of-the-art approaches, and extends patch-based algorithms from the image processing domain to point clouds of arbitrary sampling. We demonstrate the accuracy and noise-robustness of the proposed algorithm on standard benchmark models as well as range scans, and compare it to existing methods for point cloud denoising. We present a new framework for point cloud denoising by patch-collaborative spectral analysis. A collaborative generalization of each surface patch is defined, combining similar patches from the denoised surface. The Laplace-Beltrami operator of the collaborative patch is then used to selectively smooth the surface in a robust manner that can gracefully handle high levels of noise, yet preserves sharp surface features.",

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author = "G. Rosman and A. Dubrovina and R. Kimmel",

year = "2013",

month = dec,

doi = "10.1111/cgf.12139",

language = "الإنجليزيّة",

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AU - Dubrovina, A.

AU - Kimmel, R.

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N2 - We present a new framework for point cloud denoising by patch-collaborative spectral analysis. A collaborative generalization of each surface patch is defined, combining similar patches from the denoised surface. The Laplace-Beltrami operator of the collaborative patch is then used to selectively smooth the surface in a robust manner that can gracefully handle high levels of noise, yet preserves sharp surface features. The resulting denoising algorithm competes favourably with state-of-the-art approaches, and extends patch-based algorithms from the image processing domain to point clouds of arbitrary sampling. We demonstrate the accuracy and noise-robustness of the proposed algorithm on standard benchmark models as well as range scans, and compare it to existing methods for point cloud denoising. We present a new framework for point cloud denoising by patch-collaborative spectral analysis. A collaborative generalization of each surface patch is defined, combining similar patches from the denoised surface. The Laplace-Beltrami operator of the collaborative patch is then used to selectively smooth the surface in a robust manner that can gracefully handle high levels of noise, yet preserves sharp surface features.

AB - We present a new framework for point cloud denoising by patch-collaborative spectral analysis. A collaborative generalization of each surface patch is defined, combining similar patches from the denoised surface. The Laplace-Beltrami operator of the collaborative patch is then used to selectively smooth the surface in a robust manner that can gracefully handle high levels of noise, yet preserves sharp surface features. The resulting denoising algorithm competes favourably with state-of-the-art approaches, and extends patch-based algorithms from the image processing domain to point clouds of arbitrary sampling. We demonstrate the accuracy and noise-robustness of the proposed algorithm on standard benchmark models as well as range scans, and compare it to existing methods for point cloud denoising. We present a new framework for point cloud denoising by patch-collaborative spectral analysis. A collaborative generalization of each surface patch is defined, combining similar patches from the denoised surface. The Laplace-Beltrami operator of the collaborative patch is then used to selectively smooth the surface in a robust manner that can gracefully handle high levels of noise, yet preserves sharp surface features.

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KW - denoising

KW - point cloud

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M3 - مقالة

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JO - Computer Graphics Forum

JF - Computer Graphics Forum

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ER -

Patch-collaborative spectral point-cloud denoising

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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