Smartphone-based diagnostics with coherent and infrared imaging for cultural heritage

IF 4.6 Q1 OPTICS Journal of Physics-Photonics Pub Date : 2024-08-14 DOI:10.1088/2515-7647/ad6abc
Claudia Daffara, Dario Ambrosini
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Abstract

Nondestructive optical techniques are crucial in heritage science for monitoring the condition of artworks in full field. Various imaging methods based on infrared and interferometry techniques have been proposed, but they often require specialized training and expensive equipment. This paper explores the emerging field of smartphone science and its potential to revolutionize artwork diagnostics, especially for cultural institutions with limited budgets. The smartphone science approach is divided into using the device ‘as is’ or enhancing it with add-on sensors. After a concise overview of smartphone sensing in different fields, the paper demonstrates smartphone-based optical diagnostics on traditional wooden painting models, employing coherent techniques like laser speckle imaging and moiré fringe technique, and infrared techniques like reflectography and thermography. The comparison of obtained results with established instrumentation in the field clearly shows that smartphone-based diagnostics have the potential to greatly contribute to cultural heritage preservation and conservation, transforming the field’s accessibility and cost-effectiveness.
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基于智能手机的文化遗产相干和红外成像诊断技术
非破坏性光学技术在文物科学中对于全面监测艺术品的状况至关重要。目前已经提出了各种基于红外线和干涉测量技术的成像方法,但这些方法往往需要专业的培训和昂贵的设备。本文探讨了智能手机科学这一新兴领域,以及它为艺术品诊断带来革命性变化的潜力,尤其是对预算有限的文化机构而言。智能手机科学方法分为 "原样 "使用设备和使用附加传感器增强设备两种。在简明扼要地概述了智能手机在不同领域的传感功能之后,论文展示了基于智能手机的传统木质绘画模型光学诊断技术,其中采用了激光斑点成像和摩尔条纹技术等相干技术,以及反射成像和热成像等红外技术。将获得的结果与该领域的现有仪器进行比较,可以清楚地看出,基于智能手机的诊断技术有可能极大地促进文化遗产的保护和保存,改变该领域的可获取性和成本效益。
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来源期刊
CiteScore
10.70
自引率
0.00%
发文量
27
审稿时长
12 weeks
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