A Method of Recognizing Flake Surfaces from Noisy Point Cloud for Measuring Stone Tools

2020 Nicograph International (NicoInt) Pub Date : 2020-06-01 DOI:10.1109/NicoInt50878.2020.00008

Shurentsetseg Erdenebayar, Keita Murakami, Fumito Chiba, K. Konno

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引用次数: 1

Abstract

Point-cloud-based techniques play a very significant role in the archaeological application for stone tools. Measured point data involve small noises, which are overlaps obtained through measurement by laser devices. Such noisy data make it difficult to extract highly accurate segmented flakes, which will be used for the refitted flake matching process, because potential feature points lying on the boundary edges are hardly extracted. To overcome this issue, this paper describes a method of recognizing flake surfaces with noisy point clouds. First, the resampling method is applied to remove the noise in the input data. Then, the surface variation is calculated with a various number of neighbors and the potential feature points are detected by analyzing its surface variation. After that, feature lines are extracted from the potential feature points. The feature lines represent boundary edges of the flake surfaces. Finally, flake surfaces are extracted by the feature-line-based segmentation method. The implementation of this work can recognize flake surfaces from noisy data.

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一种基于噪声点云的石制工具薄片表面识别方法

基于点云的技术在石器的考古应用中起着非常重要的作用。测点数据包含小噪声，这些噪声是激光测量得到的重叠噪声。这样的噪声数据使得难以提取高精度的分段薄片，而这些薄片将用于改进薄片匹配过程，因为位于边界边缘的潜在特征点很难被提取出来。为了克服这一问题，本文提出了一种带有噪声点云的片状表面识别方法。首先，采用重采样方法去除输入数据中的噪声。然后，以不同数量的邻域计算其表面变化，通过分析其表面变化来检测潜在的特征点;然后，从潜在特征点中提取特征线。特征线表示薄片表面的边界边缘。最后，采用基于特征线的分割方法提取薄片表面。该方法的实现可以从噪声数据中识别片状表面。

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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2020 Nicograph International (NicoInt)

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