What is it about?
Analysis of structural imperfections of materials, spare parts, or components of a system is important in preventing the malfunction of devices. This can be achieved by active thermography, where the specimen is heated by flashlamps, lasers, etc., and the corresponding temperature evolution is then measured on the surface. Here, for the first time, we combine the recently developed virtual wave concept with deep learning techniques in order to detect defects inside the material by using thermal images.
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Why is it important?
We found that the virtual wave concept serves as an efficient feature extraction technique by which prior knowledge, such as non-negativity and sparsity, can be incorporated into the training process. Our experiments showed that, the proposed deep learning based reconstruction procedures significantly outperformed the conventional numerical methods in terms of reconstruction accuracy. Additionally, our approach permits real-time imaging, even with embedded hardware.
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This page is a summary of: Deep learning approaches for thermographic imaging, Journal of Applied Physics, October 2020, American Institute of Physics,
DOI: 10.1063/5.0020404.
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