Multi-Temporal Image Analysis for Preventive Conservation of Historical Musical Instruments

IF 2.1 3区计算机科学 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

ACM Journal on Computing and Cultural Heritage Pub Date : 2023-05-06 DOI:10.1145/3575866

Alireza Rezaei, Emanuel Aldea, Piercarlo Dondi, S. Le Hégarat-Mascle, M. Malagodi

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引用次数: 0

Abstract

Artworks need to be constantly monitored to check their state of conservation and to quickly spot the eventual presence of alterations or damages. Preventive conservation is the set of practices employed to reach this goal. Unfortunately, this results generally in a cumbersome process involving multiple analytical techniques. Consequently, methods able to provide a quick preliminary examination of the artworks (e.g., optical monitoring) seem very promising to streamline preventive conservation procedures. We are especially interested in the study of historical wood musical instruments, a kind of artwork particularly subject to mechanical wear since they are both held in museums and also occasionally played in concerts. Our primary goal is to detect possible altered regions on the surface of the instruments early and thus provide the experts some precise indications on where to apply more in-depth examinations to check for potential damages. In this work, we propose an optical monitoring method based on the a-contrario probabilistic framework. Tests were conducted on the “Violins UVIFL imagery” dataset, a collection of UV-induced fluorescence image sequences of artificially altered wood samples and violins. Obtained results showed the robustness of the proposed method and its capability to properly detect altered regions while rejecting noise.

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历史乐器预防性保护的多时相图像分析

艺术品需要经常监测，以检查它们的保存状态，并迅速发现最终出现的变化或损坏。预防性保护是为达到这一目标而采取的一套措施。不幸的是，这通常会导致涉及多种分析技术的繁琐过程。因此，能够对艺术品进行快速初步检查的方法(例如光学监测)似乎非常有希望简化预防性保护程序。我们对历史木制乐器的研究特别感兴趣，这是一种特别容易受到机械磨损的艺术品，因为它们既被博物馆收藏，也偶尔在音乐会中演奏。我们的主要目标是尽早发现仪器表面可能发生变化的区域，从而为专家提供一些精确的指示，告诉他们在哪里进行更深入的检查，以检查潜在的损害。在这项工作中，我们提出了一种基于反向概率框架的光学监测方法。在“小提琴UVIFL图像”数据集上进行了测试，该数据集收集了人工改变的木材样品和小提琴的紫外线诱导荧光图像序列。结果表明，该方法具有较好的鲁棒性，能够在抑制噪声的同时正确检测到变化区域。

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来源期刊

ACM Journal on Computing and Cultural Heritage Arts and Humanities-Conservation

CiteScore

4.60

自引率

8.30%

发文量

期刊介绍： ACM Journal on Computing and Cultural Heritage (JOCCH) publishes papers of significant and lasting value in all areas relating to the use of information and communication technologies (ICT) in support of Cultural Heritage. The journal encourages the submission of manuscripts that demonstrate innovative use of technology for the discovery, analysis, interpretation and presentation of cultural material, as well as manuscripts that illustrate applications in the Cultural Heritage sector that challenge the computational technologies and suggest new research opportunities in computer science.