由深度学习和经典图像处理驱动的病理切片的机器人操作

Micro Pub Date : 2022-11-21 DOI:10.1109/CINTI-MACRo57952.2022.10029564

A. I. Károly, Sebestyen Tirczka, Tamas Piricz, P. Galambos

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摘要

数字病理学有许多优点，因此对现有档案进行数字化的需求自然产生。然而，由于没有标准的病理档案存储方法，因此很难提供自动化的解决方案。在本文中，我们使用一个机器人系统来解决这个问题，该系统使用深度卷积神经网络和传统的图像处理方法来自动检测和定位病理样本，并执行拾取和放置，将样本组织在可以直接插入整个滑动成像(WSI)扫描仪的机架中。我们能够在挑选和放置过程中达到90%的成功率。本文介绍了系统的硬件组成和软件组成，并简要说明了系统的检测过程。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Robotic Manipulation of Pathological Slides Powered by Deep Learning and Classical Image Processing

Digital pathology has many advantages, so the need for digitizing already existing archives naturally arises. However, the fact that there is no standard way of storing pathology archives makes it difficult to provide an automated solution. In this paper, we tackle this problem with a robotic system, which uses a deep convolutional neural network and traditional image processing methods to automatically detect and localize the pathology samples and perform pick and place to organize the samples in a rack that can be directly inserted into the whole slide imaging (WSI) scanner. We were able to achieve a 90% success rate for the pick and place process. This paper introduces the hardware setup and software components that we used for our system and briefly explains the detection procedure.

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Micro

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