We present a surface completeness algorithm that is capable of denoising, removing outliers, and filling in missing patches on point clouds or surfaces. The main advantages of the proposed algorithm include its ability to remove outliers while preserving the details and ability to recover large missing patches. Additionally, our algorithm is a global method, whereby linear programming results are applied to a global optimization problem. This is advantageous because it yields a sparse solution and avoids local minima. Experiments further demonstrate the effectiveness of our algorithm through applications to point clouds where noise, outliers, and large missing patches exist
A physically motivated method for surface reconstruction is proposed that can recover smooth surface...
International audienceThere are reasons to reconstruct a surface from a sparse cloud of 3D points es...
Laser range-scanners are used in fields as diverse as product design, reverse engineering, and rapid...
We present a surface completeness algorithm that is capable of denoising, removing outliers, and fil...
We describe a new method for surface reconstruction and smoothing based on unorganized noisy point c...
We introduce a noise-resistant algorithm for reconstructing a watertight surface from point cloud da...
This thesis presents algorithms for visual surface reconstruction from scattered data, explicitly de...
Abstract. Surface completion is a classical and significant research topic in the area of digital ge...
We present a new framework for denoising of point clouds by patch-collaborative spectral analysis. A...
In this paper we present a new surface reconstruc-tion technique for piecewise smooth surfaces from ...
A physically motivated method for surface reconstruction is proposed that can recover smooth surface...
This paper presents a new surface content completion framework that can restore both shape and appea...
We introduce a continuous global optimization method to the field of surface reconstruction from dis...
We introduce a robust moving least-squares technique for reconstructing a piecewise smooth surface f...
Abstract. We propose a method to reconstruct surfaces from oriented point clouds with non-uniform sa...
A physically motivated method for surface reconstruction is proposed that can recover smooth surface...
International audienceThere are reasons to reconstruct a surface from a sparse cloud of 3D points es...
Laser range-scanners are used in fields as diverse as product design, reverse engineering, and rapid...
We present a surface completeness algorithm that is capable of denoising, removing outliers, and fil...
We describe a new method for surface reconstruction and smoothing based on unorganized noisy point c...
We introduce a noise-resistant algorithm for reconstructing a watertight surface from point cloud da...
This thesis presents algorithms for visual surface reconstruction from scattered data, explicitly de...
Abstract. Surface completion is a classical and significant research topic in the area of digital ge...
We present a new framework for denoising of point clouds by patch-collaborative spectral analysis. A...
In this paper we present a new surface reconstruc-tion technique for piecewise smooth surfaces from ...
A physically motivated method for surface reconstruction is proposed that can recover smooth surface...
This paper presents a new surface content completion framework that can restore both shape and appea...
We introduce a continuous global optimization method to the field of surface reconstruction from dis...
We introduce a robust moving least-squares technique for reconstructing a piecewise smooth surface f...
Abstract. We propose a method to reconstruct surfaces from oriented point clouds with non-uniform sa...
A physically motivated method for surface reconstruction is proposed that can recover smooth surface...
International audienceThere are reasons to reconstruct a surface from a sparse cloud of 3D points es...
Laser range-scanners are used in fields as diverse as product design, reverse engineering, and rapid...