Improving Deep Learning-Based Digital Image Correlation with Domain Decomposition Method

IF 2 3区工程技术 Q2 MATERIALS SCIENCE, CHARACTERIZATION & TESTING Experimental Mechanics Pub Date : 2024-03-12 DOI:10.1007/s11340-024-01040-6

Y. Chi, Y. Liu, B. Pan

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Abstract

Background

Deep learning-based digital image correlation (DL-based DIC) has gained increasing attention in the last two years. However, existing DL-based DIC algorithms are impractical because their application scenarios are mostly limited to small deformations.

Objective

To enable the use of DL-based DIC in real-world general experimental mechanics scenarios that would involve large deformations and rotations, we propose to improve DL-based DIC with the domain decomposition method (DDM).

Methods

In the improved method, the region of interest is divided into subimages, and subimages are pre-aligned using the preregistered control points to effectively eliminate the large deformation components. The residual deformations in each subimage are small and limited, which can be well extracted using existing DL-based DIC methods.

Results

Through synthesized and real-world experiments, the improved DL-based DIC method can achieve high-accuracy pixelwise matching in practical applications with strong robustness and high computational efficiency.

Conclusions

The improved DL-based DIC combines the advantages of traditional and DL-based DIC methods but overcomes the limitations, greatly improving the robustness and applicability of existing DL-based methods.

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用领域分解法改进基于深度学习的数字图像相关性

背景基于深度学习的数字图像相关性（DL-based DIC）在过去两年中受到越来越多的关注。为了将基于深度学习的数字图像关联技术应用于涉及大变形和大旋转的真实世界一般力学实验场景，我们建议使用域分解方法（DDM）对基于深度学习的数字图像关联技术进行改进。结果通过综合和实际实验，改进的基于 DL 的 DIC 方法可以在实际应用中实现高精度的像素匹配，具有较强的鲁棒性和较高的计算效率。结论改进的基于 DL 的 DIC 方法结合了传统 DIC 方法和基于 DL 的 DIC 方法的优点，克服了其局限性，大大提高了现有基于 DL 方法的鲁棒性和适用性。

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来源期刊

Experimental Mechanics 物理-材料科学：表征与测试

CiteScore

4.40

自引率

16.70%

发文量

111

审稿时长

3 months

期刊介绍： Experimental Mechanics is the official journal of the Society for Experimental Mechanics that publishes papers in all areas of experimentation including its theoretical and computational analysis. The journal covers research in design and implementation of novel or improved experiments to characterize materials, structures and systems. Articles extending the frontiers of experimental mechanics at large and small scales are particularly welcome. Coverage extends from research in solid and fluids mechanics to fields at the intersection of disciplines including physics, chemistry and biology. Development of new devices and technologies for metrology applications in a wide range of industrial sectors (e.g., manufacturing, high-performance materials, aerospace, information technology, medicine, energy and environmental technologies) is also covered.