利用主曲率对钢纤维混凝土裂缝区进行纤维分割

IF 0.8 4区计算机科学 Q4 IMAGING SCIENCE & PHOTOGRAPHIC TECHNOLOGY Image Analysis & Stereology Pub Date : 2018-07-09 DOI:10.5566/IAS.1914

Markus Kronenberger, K. Schladitz, B. Hamann, H. Hagen

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引用次数: 8

摘要

本文解决了三维图像中钩端纤维的分割问题。为此，提出了一种新的分割方法，该方法依赖于以下观察:对于单个纤维，其表面上可能出现的主曲率配置是有限的。偏离这些结构表明可能存在纤维重叠。基于这一观察开发的方法被用于分离几个模拟的触摸纤维簇，作为概念验证。并将其应用于四点弯曲试验产生的两幅钢纤维混凝土试件开裂图像。并与人工分离方法进行了性能比较。总的来说，我们可以说，当数据满足以下条件时，所提出的方法获得了令人满意的结果:低纤维体积密度，圆形纤维截面和足够的光纤接触空间分辨率。

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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FIBER SEGMENTATION IN CRACK REGIONS OF STEEL FIBER REINFORCED CONCRETE USING PRINCIPAL CURVATURE

This paper tackles the non-trivial image-processing task to segment hook-ended fibers in three-dimensional images. For this purpose, a novel segmentation method is presented that relies on the following observation: For a single fiber the configurations of principal curvatures that can occur on its surface are limited. Deviations from these configurations indicate potential overlaps of fibers. The method that was developed based on this observation is used to separate several simulated clusters of touching fibers as a proof-of-concept. Further, it is applied to two images of cracked steel fiber reinforced concrete specimens arising from a 4-point bending test. The method's performance is compared to manual separation. Overall, we can state that the proposed method yields satisfying results when data meets the following criteria: Low fiber volume density, circular fiber cross section and sufficient spatial resolution of fiber-fiber contacts.

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来源期刊

Image Analysis & Stereology MATERIALS SCIENCE, MULTIDISCIPLINARY-MATHEMATICS, APPLIED

CiteScore

2.00

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Image Analysis and Stereology is the official journal of the International Society for Stereology & Image Analysis. It promotes the exchange of scientific, technical, organizational and other information on the quantitative analysis of data having a geometrical structure, including stereology, differential geometry, image analysis, image processing, mathematical morphology, stochastic geometry, statistics, pattern recognition, and related topics. The fields of application are not restricted and range from biomedicine, materials sciences and physics to geology and geography.