郭文康, 梅剑东, 孙荣川, 郁树梅, 孙立宁. 基于三角剖分的内窥镜肠道手术机器人体素地图构建方法[J]. 机器人, 2021, 43(4): 395-405. DOI: 10.13973/j.cnki.robot.200453
引用本文: 郭文康, 梅剑东, 孙荣川, 郁树梅, 孙立宁. 基于三角剖分的内窥镜肠道手术机器人体素地图构建方法[J]. 机器人, 2021, 43(4): 395-405. DOI: 10.13973/j.cnki.robot.200453
GUO Wenkang, MEI Jiandong, SUN Rongchuan, YU Shumei, SUN Lining. A Voxel Map Construction Method of Endoscopic Intestinal Surgery RobotBased on Triangulation[J]. ROBOT, 2021, 43(4): 395-405. DOI: 10.13973/j.cnki.robot.200453
Citation: GUO Wenkang, MEI Jiandong, SUN Rongchuan, YU Shumei, SUN Lining. A Voxel Map Construction Method of Endoscopic Intestinal Surgery RobotBased on Triangulation[J]. ROBOT, 2021, 43(4): 395-405. DOI: 10.13973/j.cnki.robot.200453

基于三角剖分的内窥镜肠道手术机器人体素地图构建方法

A Voxel Map Construction Method of Endoscopic Intestinal Surgery RobotBased on Triangulation

  • 摘要: 面向全自主内窥镜机器人诊疗系统,提出一种人体肠道内部结构体素地图构建方法,来实现内窥镜位姿的准确估计,同时构建可以用于手术机器人导航的体素地图.该方法使用单目内窥镜采集肠道内部图像序列,首先基于单目SLAM(同步定位与地图创建)方法估计内窥镜轨迹,同时针对肠道内部结构构建稀疏地图.然后基于稀疏特征点地图,提出一种基于三角剖分的稀疏地图稠密化方案,构建具有稠密几何信息、利于手术器械路径规划的体素地图.分别在模拟肠道和离体猪肠道内进行体素地图构建的实验研究和误差评估,在模拟肠道中直径和病灶尺寸的均方误差分别为1.16 mm和0.81 mm,内窥镜定位均方误差为2.163 mm.

     

    Abstract: Aiming at a fully autonomous robotic system for endoscopic diagnosis and treatment, a method for constructing a voxel map of the internal structure of the human intestine is proposed to realize accurate estimation of the endoscope pose and construct a voxel map for the navigation of the surgical robot. A monocular endoscope is used to capture image sequences of the intestinal interior in this method. Firstly, the endoscopic trajectory is estimated based on a monocular SLAM (simultaneous localization and mapping) method and a sparse map of the internal structure of the intestinal tract is constructed. Based on the sparse feature point map, a densification solution of sparse map based on triangulation is proposed to construct a voxel map with dense geometric information for path planning of surgical instruments. In experimental study, voxel maps are constructed in the simulated intestine and the in vitro pig intestine respectively, and the error evaluation is carried out. The mean square errors of the diameter and lesion size in the simulated intestine are 1.16 mm and 0.81 mm, respectively. The mean square error of endoscopic positioning is 2.163 mm.

     

/

返回文章
返回