Short-exposure annular LED array-based digital refocusing microscopy via multiplexed illumination

光学 数字全息显微术 显微镜 多路复用 显微镜 数字成像 数字图像处理 图像分辨率 材料科学 图像处理 数字图像 计算机科学 暗场显微术 数字微镜装置 数码相机 计算机视觉 图像质量 空间频率 景深 分辨率(逻辑) 光学显微镜 薄层荧光显微镜 图像形成 数字全息术 亮场显微术 过程(计算) 视野 图像传感器 人工智能 点扩散函数 生物标本 二极管 发光二极管 激光二极管 对比度(视觉)
作者
Junzheng Peng,Yifu Ma,Shiheng Li,Kaihui Zhang,Manhong Yao,Shiping Li,Jingang Zhong
出处
期刊:Applied Optics [Optica Publishing Group]
卷期号:65 (3): 978-978
标识
DOI:10.1364/ao.584285
摘要

Digital refocusing microscopy based on light-emitting diode (LED) arrays extends the depth of field of conventional microscopes without mechanical scanning. However, its sequential image acquisition process inherently limits temporal resolution. To overcome this limitation, we propose a short-exposure digital refocusing microscopy using multiplexed illumination. This approach not only shortens the imaging time of LED-array-based digital refocusing microscopy but also addresses the common issues of low contrast in dark regions and loss of fine image details under short-exposure conditions. Consequently, it enables achieving higher imaging speed while preserving high-quality digital refocusing images. To further reduce the number of required measurements, we propose a digital refocusing microscopy based on an annular LED array. Compared with conventional full circular arrays, the annular configuration reduces the measurements from 37 to 16 while enhancing image contrast and spatial resolution. Experimentally, the proposed method improves the structure similarity index measure (SSIM) of the refocused images in the dark regions by at least 3.16 times relative to sequential single-LED illumination. Collectively, these two strategies establish a practical and efficient framework that improves the temporal resolution of LED-array-based digital refocusing microscopy, thereby enabling its application to the dynamic observation of biological samples.

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