Impact of Speckle Deformability on Digital Imaging Correlation

Journal article

Wang, J., Wu, H., Zhu, Z., Xie, H., Yu, H., Huang, Q., Xiang, Y., Paritala, P. K., Mendieta, J. B., Anbananthan, H., Catano, J., Fang, R., Wang, L. and Li, Z. (2024). Impact of Speckle Deformability on Digital Imaging Correlation. IEEE Access. 12, pp. 66466 - 66477. https://doi.org/10.1109/access.2024.3398786

Publication dates
Authors	Wang, J., Wu, H., Zhu, Z., Xie, H., Yu, H., Huang, Q., Xiang, Y., Paritala, P. K., Mendieta, J. B., Anbananthan, H., Catano, J., Fang, R., Wang, L. and Li, Z.
Abstract	Digital Image Correlation (DIC) has been widely used as a non-contact deformation measurement technique. Nevertheless, its accuracy is greatly affected by the speckle pattern on the specimen. To systematically evaluate how speckle deformability affects the precision of DIC algorithms. In this study, a test dataset of 2D speckle patterns with various prescribed deformation fields was numerically generated, containing two categories of speckles, i.e., the deformable and the non-deformable (rigid) ones. This dataset was used to evaluate the performance of inverse compositional Gauss-Newton (ICGN)-based DIC algorithms with two types of shape function (first-order and second-order), in the different scenarios of the deformation field. The results showed that imaging noise had a significant influence on the DIC algorithm. The first-order shape function (ICGN-1) performed better when tracking the simple linear deformation field. While the second-order shape function (ICGN-2) was proved to perform better on non-linear deformations. Moreover, the deformability of the speckle was found to have an obvious impact on the performance of the DIC algorithm. ICGN-2 could effectively reduce so-called speckle rigidity induced (SRI) error. Conclusively, ICGN-2 should be chosen as priority, because of its feasibility on non-linear deformation fields and speckle rigidity. While in the linear deformation scenarios, ICGN-1 was still a robust and efficient method.
Keywords	Digital image correlation, speckle pattern, displacement measurement, motion tracking, imaging processing algorithms
Year	2024
Journal	IEEE Access
Journal citation	12, pp. 66466 - 66477
Publisher	Institute of Electrical and Electronics Engineers (IEEE)
ISSN	2169-3536
Digital Object Identifier (DOI)	https://doi.org/10.1109/access.2024.3398786
Web address (URL)	https://ieeexplore.ieee.org/document/10525690
Online	09 May 2024
Publication process dates
Accepted	02 May 2024
Deposited	31 May 2024
Publisher's version	Impact_of_Speckle_Deformability_on_Digital_Imaging_Correlation.pdf License CC BY 4.0 File Access Level Open

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