Study of micromanipulation systemfor observing and positioning pathological slides

Junhui Zhu, Yong Wang, Fujun Sun, Changhai Ru, Ruihua Chen
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Abstract

Pathological observation is necessary for pathological diagnosis. In hospitals, the observation is done under the microscope to find the lesions on a pathological slide. Manual operating suffers from time consuming, unable to preserve and poor repeatability. In order to raise efficiency of pathological observation and be able to locate to the selected areas of slides for more specific investigations, an image expert system is study in this paper. The system is capable of image scanning, image mosaicking, and repeated positioning. A custom-adapted hardware platform is used for pathological slide scanning and image capturing. The scanning error caused by platform and camera is dealt with coordinate compensation. The images are mosaicked as a panorama by image registration and fusion. To realize the repeated positioning, the screen coordinate system and physical coordinate system are proposed. As the experimental results show, the system is able to acquire and store all the pathological images of a slide (20mm × 20mm) within 3 minutes and mosaic them as a panorama for observing and positioning. After repeated positioning, the positioning of those selected areas shown in the middle zone of the camera screen, covered the range of (420pix × 420pix). The success rate of repeated positioning is about 96%. The error is acceptable in pathological slide observation.
病理切片观察定位显微操作系统的研究
病理观察是病理诊断的必要条件。在医院,观察是在显微镜下进行的,以在病理切片上找到病变。人工操作耗时长,无法保存,重复性差。为了提高病理观察的效率,能够定位到切片的选定区域进行更具体的检查,本文研究了一种图像专家系统。该系统具有图像扫描、图像拼接、重复定位等功能。采用自定义的硬件平台进行病理切片扫描和图像采集。采用坐标补偿的方法处理由平台和摄像机引起的扫描误差。通过图像配准和融合,将图像拼接成全景图像。为了实现重复定位,提出了屏幕坐标系和物理坐标系。实验结果表明,该系统能够在3分钟内获取并存储一张20mm × 20mm的切片的所有病理图像,并将其拼接成全景图,用于观察和定位。经过反复定位,所选区域的定位显示在摄像头屏幕的中间区域,覆盖范围为(420pix × 420pix)。重复定位成功率约96%。病理切片观察误差是可以接受的。
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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