Adversarial Deep-Unfolding Network for MA-XRF Super-Resolution on Old Master Paintings Using Minimal Training Data

arXiv - EE - Image and Video Processing Pub Date : 2024-09-14 DOI:arxiv-2409.09483

Herman Verinaz-Jadan, Su Yan, Catherine Higgitt, Pier Luigi Dragotti

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Abstract

High-quality element distribution maps enable precise analysis of the material composition and condition of Old Master paintings. These maps are typically produced from data acquired through Macro X-ray fluorescence (MA-XRF) scanning, a non-invasive technique that collects spectral information. However, MA-XRF is often limited by a trade-off between acquisition time and resolution. Achieving higher resolution requires longer scanning times, which can be impractical for detailed analysis of large artworks. Super-resolution MA-XRF provides an alternative solution by enhancing the quality of MA-XRF scans while reducing the need for extended scanning sessions. This paper introduces a tailored super-resolution approach to improve MA-XRF analysis of Old Master paintings. Our method proposes a novel adversarial neural network architecture for MA-XRF, inspired by the Learned Iterative Shrinkage-Thresholding Algorithm. It is specifically designed to work in an unsupervised manner, making efficient use of the limited available data. This design avoids the need for extensive datasets or pre-trained networks, allowing it to be trained using just a single high-resolution RGB image alongside low-resolution MA-XRF data. Numerical results demonstrate that our method outperforms existing state-of-the-art super-resolution techniques for MA-XRF scans of Old Master paintings.

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利用最少的训练数据对古画进行 MA-XRF 超分辨的对抗性深度展开网络

通过绘制高质量的元素分布图，可以精确分析古代大师画作的物质成分和状况。这些分布图通常是通过宏观 X 射线荧光（MA-XRF）扫描获得的数据绘制的，这是一种收集光谱信息的非侵入式技术。要获得更高的分辨率，需要更长的扫描时间，这对于大型艺术品的详细分析来说是不切实际的。超分辨 MA-XRF 提供了另一种解决方案，既能提高 MA-XRF 扫描的质量，又能减少对延长扫描时间的需求。本文介绍了一种有针对性的超分辨率方法，以改进对古代大师画作的 MA-XRF 分析。我们的方法为 MA-XRF 提出了一种新颖的对抗性神经网络架构，其灵感来自于学习迭代收缩阈值算法（Learned Iterative Shrinkage-Thresholding Algorithm）。这种设计避免了对扩展数据集或预训练网络的需求，只需使用单张高分辨率 RGB 图像和低分辨率 MA-XRF 数据即可对其进行训练。数值结果表明，我们的方法在对古代大师绘画进行 MA-XRF 扫描时优于现有的超分辨率技术。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - EE - Image and Video Processing

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