2D Microstructure Reconstruction for SEM via Non-local Patch-Based Image Inpainting
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Publisher
Springer International Publishing
Link
http://link.springer.com/content/pdf/10.1007/978-3-030-65261-6_45
Reference54 articles.
1. Arias P, Facciolo G, Caselles V, Sapiro G (2011) A variational framework for exemplar-based image inpainting. Int J Comput Vis 93(3):319–347
2. Arróyave R, McDowell DL (2019) Systems approaches to materials design: past, present, and future. Ann Rev Mater Res 49(1):103–126
3. Barnes C, Shechtman E, Finkelstein A, Goldman DB (2009) PatchMatch: a randomized correspondence algorithm for structural image editing. In: ACM transactions on graphics (ToG), vol 28. ACM, p 24
4. Bedi A, Gupta S, Gupta S (2017) Content aware fill based on similar images. US Patent 9,697,595
5. Bostanabad R (2020) Reconstruction of 3D microstructures from 2D images via transfer learning. Comput Aid Des 128:102906
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2. Artefact removal from micrographs with deep learning based inpainting;Digital Discovery;2023
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