Segmentation of beach plastic fragments' contours based on self-organizing map and multi-shape descriptors: A rapid indication of fragmentation and wearing types.

Journal of hazardous materials Pub Date : 2024-10-05 Epub Date: 2024-08-17 DOI:10.1016/j.jhazmat.2024.135564
Lei Su, Xinyue Dong, Junjie Peng, Hong Cheng, Nicholas J Craig, Bo Hu, Juan-Ying Li
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Abstract

Environmental plastic fragments have been verified as byproducts of large plastic and its secondary pollutants including micro and nanoplastics. There are few quantitative studies available, but their contours have values for the weathering mechanisms. We used geometric descriptors, fractal dimensions, and Fourier descriptors to characterize field and artificial polyethylene and polypropylene samples as a means of investigating the contour characteristics. It provides a methodological framework for contour classification. Unsupervised classification was performed using self-organizing neural networks with size-invariance parameters. We revealed the isometric phenomenon of plastic fragments during fragmentation, i.e., that the degree of contour rounding and complexity increase and decrease, respectively, with decreasing fragment size. With an average error rate of 8.9 %, we can distinguish artificial samples from field samples. It was also validated by the difference in Carbonyl Index between groups. We propose a two-stage process for plastic fragmentation and give three types of contour features which were key in the description of fragmented contours, i.e., size, complexity, and rounding. Our work will improve the accuracy of characterizations regarding the weathering and fragmentation processes of certain kinds of plastic fragments. The contour parameters also have the potential to be applied in more realistic scenarios and varied polymers.

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基于自组织图谱和多形状描述符的海滩塑料碎片轮廓分割:快速显示碎片和磨损类型。
环境塑料碎片已被证实是大型塑料及其二次污染物(包括微塑料和纳米塑料)的副产品。现有的定量研究很少,但其轮廓对风化机制具有价值。我们使用几何描述符、分形维数和傅立叶描述符来描述现场和人工聚乙烯和聚丙烯样品的特征,以此来研究轮廓特征。它为轮廓分类提供了一个方法框架。使用具有尺寸不变量参数的自组织神经网络进行了无监督分类。我们揭示了塑性碎片在破碎过程中的等距现象,即随着碎片尺寸的减小,轮廓圆滑度和复杂度分别增加和减少。平均误差率为 8.9%,我们可以区分人工样本和野外样本。我们还通过组间羰基指数的差异验证了这一点。我们提出了塑料破碎的两阶段过程,并给出了描述破碎轮廓的三类关键轮廓特征,即尺寸、复杂度和圆角。我们的工作将提高对某些类型塑料碎片的风化和破碎过程进行描述的准确性。轮廓参数还有可能应用于更真实的场景和各种聚合物。
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