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Deep-learning-assisted hologram calculation via low-sampling holograms Host Publication: 8th International Congress on Advanced Applied Informatics Authors: T. Shimobaba, D. Blinder, P. Schelkens, Y. Yamamoto, I. Hoshi, T. Kakue and T. Ito Publisher: IEEE Computer Society Publication Date: Jul. 2019 Number of Pages: 6
Abstract: Digital holograms can be calculated by simulating light wave propagation on a computer. Hologram calculations are used for three-dimensional displays. However, the calculations take a long time, and the data size of the calculated holograms becomes large. This study presents a deep-learning-assisted holo- gram calculation using low-sampling holograms. We calculate holograms with low-sampling rates, resulting in the acceleration of the hologram calculation and the decrease of the hologram size. However, the low-sampling holograms decrease the quality of the reconstructed images and will occur the aliasing errors when not satisfying the Nyquist rate. The proposed method uses a deep neural network to retrieve the full-sampling holograms from the low-sampling holograms. We show elementary results of the proposed method in numerical simulation.
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