https://scholars.lib.ntu.edu.tw/handle/123456789/635159
Title: | Single-shot quantitative phase contrast imaging based on deep learning | Authors: | YU-CHUN LIN YUAN LUO Chen, Ying-Ju HUEI-WEN CHEN Young, Tai-Horng HSUAN-MING HUANG |
Issue Date: | 1-Jul-2023 | Publisher: | Optica Publishing Group (formerly OSA) | Journal Volume: | 14 | Journal Issue: | 7 | Start page/Pages: | 3458-3468 | Source: | Biomedical Optics Express | Abstract: | Quantitative differential phase-contrast (DPC) imaging is one of the commonly used methods for phase retrieval. However, quantitative DPC imaging requires several pairwise intensity measurements, which makes it difficult to monitor living cells in real-time. In this study, we present a single-shot quantitative DPC imaging method based on the combination of deep learning (DL) and color-encoded illumination. Our goal is to train a model that can generate an isotropic quantitative phase image (i.e., target) directly from a single-shot intensity measurement (i.e., input). The target phase image was reconstructed using a linear-gradient pupil with two-axis measurements, and the model input was the measured color intensities obtained from a radially asymmetric color-encoded illumination pattern. The DL-based model was trained, validated, and tested using thirteen different cell lines. The total number of training, validation, and testing images was 264 (10 cells), 10 (1 cell), and 40 (2 cells), respectively. Our results show that the DL-based phase images are visually similar to the ground-truth phase images and have a high structural similarity index (>0.98). Moreover, the phase difference between the ground-truth and DL-based phase images was smaller than 13%. Our study shows the feasibility of using DL to generate quantitative phase imaging from a single-shot intensity measurement. |
URI: | https://scholars.lib.ntu.edu.tw/handle/123456789/635159 | ISSN: | 2156-7085 | DOI: | 10.1364/BOE.493828 |
Appears in Collections: | 醫療器材與醫學影像研究所 |
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