Deterioration identification of stone cultural heritage based on hyperspectral image texture features

IF 3.5 2区 综合性期刊 0 ARCHAEOLOGY
Xingyue Li , Haiqing Yang , Chiwei Chen , Gang Zhao , Jianghua Ni
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引用次数: 0

Abstract

Deterioration investigation is an essential foundation for understanding the preservation status of stone cultural heritage, as well as for carrying out emergency and preventive conservation. Traditional photogrammetry method for deterioration investigation in stone cultural heritage heavily relies on personnel experience and has low automation. To accurately evaluate the degree of deterioration and quantify its scale, different algorithms are used to establish the rebound value prediction model and deterioration identification model based on the hyperspectral image. The effects of different wavelength selection methods and different classification models are compared. The results show that the rebound value inversion model constructed by CARS and PLS delivers the most accurate forecasts, with R2 being no less than 0.85. The maximum error of the model when applied in the field does not exceed 20%. Different types of deterioration can be initially identified by the normalized spectral index constructed from the 530 nm and 675 nm wavelengths. In addition, all four classification models based on hyperspectral imaging texture features can identify different types of deterioration. The LGBM model has the highest identification accuracy of 0.98. It also has good performance in field identification. This study provides a new method for deterioration investigation in stone cultural heritage.

基于高光谱图像纹理特征的石质文化遗产劣化识别
劣化调查是了解石质文化遗产保存状况、开展应急和预防性保护的重要基础。传统的石质文化遗产劣化调查摄影测量方法严重依赖人员经验,自动化程度低。为了准确评估石质文物的劣化程度并量化劣化规模,基于高光谱图像采用不同算法建立了回弹值预测模型和劣化识别模型。比较了不同波长选择方法和不同分类模型的效果。结果表明,由 CARS 和 PLS 建立的回弹值反演模型预测最准确,R2 不小于 0.85。该模型在现场应用时的最大误差不超过 20%。通过 530 nm 和 675 nm 波长构建的归一化光谱指数,可以初步识别不同类型的劣化。此外,基于高光谱成像纹理特征的四种分类模型都能识别不同类型的劣化。LGBM 模型的识别准确率最高,达到 0.98。它在现场识别中也有良好的表现。这项研究为石质文化遗产的劣化调查提供了一种新方法。
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来源期刊
Journal of Cultural Heritage
Journal of Cultural Heritage 综合性期刊-材料科学:综合
CiteScore
6.80
自引率
9.70%
发文量
166
审稿时长
52 days
期刊介绍: The Journal of Cultural Heritage publishes original papers which comprise previously unpublished data and present innovative methods concerning all aspects of science and technology of cultural heritage as well as interpretation and theoretical issues related to preservation.
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