Y-Net: a one-to-two deep learning framework for digital holographic reconstruction

Kaiqiang Wang; Jiazhen Dou; Qian Kemao; Qian Kemao; Jianglei Di; Jianglei Di; Jianlin Zhao

doi:10.1364/OL.44.004765

Optics Letters
Vol. 44,
Issue 19,
pp. 4765-4768
(2019)
•https://doi.org/10.1364/OL.44.004765

Y-Net: a one-to-two deep learning framework for digital holographic reconstruction

Kaiqiang Wang, Jiazhen Dou, Qian Kemao, Jianglei Di, and Jianlin Zhao

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Kaiqiang Wang, Jiazhen Dou, Qian Kemao, Jianglei Di, and Jianlin Zhao, "Y-Net: a one-to-two deep learning framework for digital holographic reconstruction," Opt. Lett. 44, 4765-4768 (2019)

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Abstract

In this Letter, for the first time, to the best of our knowledge, we propose a digital holographic reconstruction method with a one-to-two deep learning framework (Y-Net). Perfectly fitting the holographic reconstruction process, the Y-Net can simultaneously reconstruct intensity and phase information from a single digital hologram. As a result, this compact network with reduced parameters brings higher performance than typical network variants. The experimental results of the mouse phagocytes demonstrate the advantages of the proposed Y-Net.

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		U-Net 1	U-Net 2.1, 2.2	Y-Net 1	Y-Net
Cell A	Intensity	0.2345	0.9264	0.9191	0.9643
Cell A	Phase	0.3034	0.8670	0.8720	0.9290
Cell B	Intensity	0.2143	0.9241	0.9274	0.9693
Cell B	Phase	0.3598	0.8166	0.8301	0.9158
Cell C	Intensity	0.2642	0.9377	0.9298	0.9644
Cell C	Phase	0.2758	0.8674	0.8661	0.9221
Cell D	Intensity	0.2458	0.9316	0.9288	0.9654
Cell D	Phase	0.3836	0.8476	0.8176	0.9343
Mean	Intensity	0.2458	0.9243	0.9310	0.9672
Mean	Phase	0.3275	0.8507	0.8504	0.9249

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