Surgical Instrument Positioning System Based on Binocular Vision

2023 3rd International Symposium on Computer Technology and Information Science (ISCTIS) Pub Date : 2023-07-07 DOI:10.1109/ISCTIS58954.2023.10213107

Xiaodong Lin, Xinzui Wang, Fucheng Cao, Yanli Yang

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Abstract

Surgical instrument positioning is the core component of the surgical navigation system, which determines the accuracy of the entire system. Based on the principle of binocular vision, a surgical instrument positioning system is proposed. The system uses colored balls as markers. First, the colored ball area is extracted through color segmentation, then the center coordinates of the markers in the left and right images are obtained through the proposed algorithm based on connected domain extraction and centroid calculation. The algorithm first extracts the connected domain in the image, excludes the non-marker areas by the area of the connected domain, and then calculates the center of the connected domain using the centroid formula. Next, the left and right centers are matched based on spatial position, and the centers' three-dimensional coordinates are obtained through three-dimensional reconstruction. Finally, the three-dimensional coordinates of the surgical instrument tip are indirectly obtained through the center 3D coordinates. The stability and accuracy tests were carried out for the system, the results show that the system has good stability and accuracy.

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基于双目视觉的手术器械定位系统

手术器械定位是手术导航系统的核心组成部分，它决定了整个系统的精度。基于双目视觉原理，提出了一种手术器械定位系统。该系统使用彩色球作为标记。首先通过颜色分割提取彩色球区域，然后通过基于连通域提取和质心计算的算法获得左右图像中标记点的中心坐标。该算法首先提取图像中的连通域，通过连通域的面积排除非标记区域，然后利用质心公式计算连通域的中心。然后根据空间位置匹配左右中心，通过三维重建得到中心的三维坐标。最后，通过中心三维坐标间接得到手术器械尖端的三维坐标。对系统进行了稳定性和精度测试，结果表明系统具有良好的稳定性和精度。

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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2023 3rd International Symposium on Computer Technology and Information Science (ISCTIS)

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