VIPDA: A Visually Driven Point Cloud Denoising Algorithm Based on Anisotropic Point Cloud Filtering

IF 1.3 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Tiziana Cattai, Alessandro Delfino, G. Scarano, S. Colonnese
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引用次数: 2

Abstract

Point clouds (PCs) provide fundamental tools for digital representation of 3D surfaces, which have a growing interest in recent applications, such as e-health or autonomous means of transport. However, the estimation of 3D coordinates on the surface as well as the signal defined on the surface points (vertices) is affected by noise. The presence of perturbations can jeopardize the application of PCs in real scenarios. Here, we propose a novel visually driven point cloud denoising algorithm (VIPDA) inspired by visually driven filtering approaches. VIPDA leverages recent results on local harmonic angular filters extending image processing tools to the PC domain. In more detail, the VIPDA method applies a harmonic angular analysis of the PC shape so as to associate each vertex of the PC to suit a set of neighbors and to drive the denoising in accordance with the local PC variability. The performance of VIPDA is assessed by numerical simulations on synthetic and real data corrupted by Gaussian noise. We also compare our results with state-of-the-art methods, and we verify that VIPDA outperforms the others in terms of the signal-to-noise ratio (SNR). We demonstrate that our method has strong potential in denoising the point clouds by leveraging a visually driven approach to the analysis of 3D surfaces.
基于各向异性点云滤波的视觉驱动点云去噪算法
点云(pc)为3D表面的数字表示提供了基本工具,在最近的应用中越来越受到关注,例如电子医疗或自动运输工具。然而,表面上三维坐标的估计以及定义在表面点(顶点)上的信号会受到噪声的影响。扰动的存在会危及pc在实际场景中的应用。在这里,我们提出了一种新的视觉驱动点云去噪算法(VIPDA),该算法受到视觉驱动滤波方法的启发。VIPDA利用局部谐波角滤波器的最新成果,将图像处理工具扩展到PC域。更详细地说,VIPDA方法应用PC形状的调和角分析,以便将PC的每个顶点相关联以适应一组邻居,并根据局部PC的可变性驱动去噪。通过对高斯噪声干扰下的合成数据和真实数据进行数值模拟,评价了该方法的性能。我们还将我们的结果与最先进的方法进行了比较,并验证了vidpa在信噪比(SNR)方面优于其他方法。我们证明,通过利用视觉驱动的方法来分析3D表面,我们的方法在去噪点云方面具有很强的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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