Hologram compression presents a significant challenge, as holograms differ fundamentally from ordinary images. To address this, this study proposed a lossy hologram compression method utilizing tensor decomposition.
Shimobaba, T, Wang, F, Blinder, D, Starobrat, J, Huang, C-H, Tahara, T, Cheng, C-J, Schelkens, P & Ito, T 2025, Preliminary investigation of hologram compression using tensor decomposition. in Optica Imaging Congress 2025 (3D, DH, COSI, IS, pcAOP,RadIT)., JTu4A.5, Optica, Optica Publishing Group, Optica Imaging Congress 2025, Seattle, United States, 18/08/25. https://doi.org/10.1364/3D.2025.JTu4A.5
Shimobaba, T., Wang, F., Blinder, D., Starobrat, J., Huang, C.-H., Tahara, T., Cheng, C.-J., Schelkens, P., & Ito, T. (2025). Preliminary investigation of hologram compression using tensor decomposition. In Optica Imaging Congress 2025 (3D, DH, COSI, IS, pcAOP,RadIT) Article JTu4A.5 (Optica). Optica Publishing Group. https://doi.org/10.1364/3D.2025.JTu4A.5
@inproceedings{434746c624d14f25b8ffe8e1efc2b0c1,
title = "Preliminary investigation of hologram compression using tensor decomposition",
abstract = "Hologram compression presents a significant challenge, as holograms differ fundamentally from ordinary images. To address this, this study proposed a lossy hologram compression method utilizing tensor decomposition.",
keywords = "Deep learning, Digital holography, Holographic displays, Phase imaging, Three dimensional displays, Viewing angles",
author = "Tomoyoshi Shimobaba and Fan Wang and David Blinder and Joanna Starobrat and Chung-Hsuan Huang and Tatsuki Tahara and Chau-Jern Cheng and Peter Schelkens and Tomoyoshi Ito",
year = "2025",
doi = "10.1364/3D.2025.JTu4A.5",
language = "English",
isbn = "9781957171555",
series = "Optica",
publisher = "Optica Publishing Group",
booktitle = "Optica Imaging Congress 2025 (3D, DH, COSI, IS, pcAOP,RadIT)",
note = "Optica Imaging Congress 2025 : (3D, DH, COSI, IS, pcAOP,RadIT) ; Conference date: 18-08-2025 Through 21-08-2025",
}