Confocal Microscopy 3D Measurement Method Based on Double Fuzzy

Journal of the Optical Society of America Pub Date : 2023-10-12 DOI:10.1364/josaa.499900
Tao Yuan, Wei Jiang, Yiqing Ye, Yongj Hai, Dingrong Yi
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Abstract

In this paper, we propose a confocal microscopy based on dual blur depth measurement (DBCM). The first blur is defocus blur, and the second blur is artificial convolutional blur. First, the DBCM blurs the defocus image using a known Gaussian kernel and calculates the edge gradient ratio between it and the re-blurred image. Then, the axial measurement of edge positions is based on a calibration measurement curve. Finally, depth information is inferred from the edges using the original image. Experiments show that the DBCM can achieve depth measurement in a single image. In a 10×/0.25 objective, the error measured for a step sample of 4.7397 µm is 0.23 µm. The relative error rate is 4.8%.
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基于双模糊的共聚焦显微镜三维测量方法
本文提出了一种基于双模糊深度测量(DBCM)的共聚焦显微镜。第一次模糊是散焦模糊,第二次模糊是人工卷积模糊。首先,DBCM使用已知的高斯核模糊散焦图像,并计算它与重新模糊的图像之间的边缘梯度比。然后,基于校准测量曲线对边缘位置进行轴向测量。最后,使用原始图像从边缘推断深度信息。实验表明,DBCM可以实现单幅图像的深度测量。在一个10×/0.25的物镜中,当阶跃样品为4.7397µm时,测量到的误差为0.23µm。相对错误率为4.8%。
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Journal of the Optical Society of America
Journal of the Optical Society of America
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期刊介绍: OSA was published by The Optical Society from January 1917 to December 1983 before dividing into JOSA A: Optics and Image Science and JOSA B: Optical Physics in 1984.
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