电动显微镜上的快速、高精度自动对焦：在OpenFlexure显微镜上实现血液样本成像自动化。

Fast, high-precision autofocus on a motorised microscope: Automating blood sample imaging on the OpenFlexure Microscope.

作者信息

Knapper Joe, Collins Joel T, Stirling Julian, McDermott Samuel, Wadsworth William, Bowman Richard W

机构信息

Centre for Photonics and Photonic Materials, Department of Physics, University of Bath, Bath, UK.

Cavendish Laboratory, University of Cambridge, Cambridge, UK.

出版信息

J Microsc. 2022 Jan;285(1):29-39. doi: 10.1111/jmi.13064. Epub 2021 Nov 14.

DOI:10.1111/jmi.13064

PMID:34625963

Abstract

The OpenFlexure Microscope is a 3D-printed, low-cost microscope capable of automated image acquisition through the use of a motorised translation stage and a Raspberry Pi imaging system. This automation has applications in research and healthcare, including in supporting the diagnosis of malaria in low-resource settings. The plasmodium parasites that cause malaria require high magnification imaging, which has a shallow depth of field, necessitating the development of an accurate and precise autofocus procedure. We present methods of identifying the focal plane of the microscope, and procedures for reliably acquiring a stack of focused images on a system affected by backlash and drift. We also present and assess a method to verify the success of autofocus during the scan. The speed, reliability and precision of each method are evaluated, and the limitations discussed in terms of the end users' requirements.

摘要

OpenFlexure显微镜是一种3D打印的低成本显微镜，能够通过使用电动平移台和树莓派成像系统进行自动图像采集。这种自动化技术在研究和医疗保健领域有应用，包括在资源匮乏地区支持疟疾诊断。导致疟疾的疟原虫需要高倍放大成像，其景深较浅，因此需要开发一种准确精确的自动对焦程序。我们介绍了识别显微镜焦平面的方法，以及在受间隙和漂移影响的系统上可靠获取聚焦图像堆栈的程序。我们还提出并评估了一种在扫描过程中验证自动对焦成功与否的方法。评估了每种方法的速度、可靠性和精度，并根据最终用户的需求讨论了其局限性。

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电动显微镜上的快速、高精度自动对焦：在OpenFlexure显微镜上实现血液样本成像自动化。

Fast, high-precision autofocus on a motorised microscope: Automating blood sample imaging on the OpenFlexure Microscope.

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