基于机器学习的古代硅酸盐玻璃文物分类研究

IF 1.5 3区地球科学 0 ARCHAEOLOGY

Archaeometry Pub Date : 2024-06-26 DOI:10.1111/arcm.13001

Wei Chen, Dan Chen

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引用次数: 0

摘要

文物分类一直是考古学家面临的一大挑战。以玻璃文物为研究对象，根据玻璃文物的图案、颜色、表面风化状况、类型和成分比例，采用决策树、支持向量机和逻辑回归方法构建了玻璃文物分类模型。我们使用了三种模型来识别未知玻璃文物的类型。利用 K-means 聚类法建立了高钾玻璃和铅钡玻璃的子分类模型。利用肘部法和平均等值线法确定了最佳聚类数，并根据聚类中心成分的特征命名了决策树模型。研究结果表明，三种模型对未知类型玻璃文物的识别结果一致，分类效果良好。铅钡玻璃和高钾玻璃可分别划分为三个子类和六个子类，子类决策树的命名合理。本文提出的古代玻璃文物鉴定方法具有很强的实用性，可为其他成分数据的分类鉴定提供参考。

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Research on the classification of ancient silicate glass artifacts based on machine learning

Classifying cultural relics has always been a major challenge for archaeologists. Using glass artifacts as the research object, a classification model for glass artifacts was constructed using decision trees, support vector machines, and logistic regression methods based on their patterns, colors, surface weathering conditions, types, and composition ratios. Three models were used to identify the types of unknown glass artifacts. A subclassification model for high‐potassium glass and lead barium glass was established using the K‐means clustering method. The elbow method and average contour method were used to determine the optimal number of clusters, and the decision tree model was named based on the characteristics of the cluster center components. The research results indicate that the three models yield consistent identification results for unknown types of glass relics, and the classification results are good. Lead barium glass and high‐potassium glass can be divided into three and six subclasses, respectively, and the naming of the subclass decision tree is reasonable. The identification method for ancient glass relics in this article is highly practical and can provide a reference for the classification and identification of other component data.

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来源期刊

Archaeometry 地学-地球科学综合

CiteScore

3.60

自引率

12.50%

发文量

105

审稿时长

6 months

期刊介绍： Archaeometry is an international research journal covering the application of the physical and biological sciences to archaeology, anthropology and art history. Topics covered include dating methods, artifact studies, mathematical methods, remote sensing techniques, conservation science, environmental reconstruction, biological anthropology and archaeological theory. Papers are expected to have a clear archaeological, anthropological or art historical context, be of the highest scientific standards, and to present data of international relevance. The journal is published on behalf of the Research Laboratory for Archaeology and the History of Art, Oxford University, in association with Gesellschaft für Naturwissenschaftliche Archäologie, ARCHAEOMETRIE, the Society for Archaeological Sciences (SAS), and Associazione Italian di Archeometria.