An Improved RRT* Algorithm Combining Motion Constraint and Artificial Potential Field for Robot-Assisted Flexible Needle Insertion in 3D Environment

2021 3rd International Conference on Industrial Artificial Intelligence (IAI) Pub Date : 2021-11-08 DOI:10.1109/IAI53119.2021.9619224

Yongkang Zhang, Zhi Qi, Hui Zhang

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引用次数: 2

Abstract

In the field of minimally invasive medical care, compared With rigid needles, the use of flexible needles allows doctors to avoid blood vessels and organs more flexibly during surgery. Due to the non-holonomic constraint of the flexible needle and the tissue deformation caused by the needle tip during the insertion, the accessibility and safety of the path need to be considered when planning. In this paper, we propose an adaptable algorithm based on RRT* algorithm to compute a path for flexible needle to reach the lesion in 3D environment. The improved RRT* (Rapidly-Exploring Random Trees*) algorithm based on the motion constraint of flexible needle makes the path smoother and shorter. The path cost used in the algorithm take the potential field of the obstacle into account to avoid the influence of the local movement of the tissue during the needle puncture process. Finally, the algorithm is conducted by simulations, and the results show that the improved RRT* algorithm can generate a smooth and safe path that conforms to the motion constraint of the flexible needle.

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一种结合运动约束和人工势场的改进RRT*算法用于三维环境下机器人辅助柔性插针

在微创医疗领域，与刚性针头相比，柔性针头的使用可以让医生在手术过程中更灵活地避开血管和器官。由于柔性针的非完整约束和针尖在插入过程中引起的组织变形，在规划路径时需要考虑路径的可达性和安全性。本文提出了一种基于RRT*算法的自适应算法，用于计算三维环境下柔性针到达病灶的路径。基于柔性针运动约束的改进RRT*(快速探索随机树*)算法使路径更平滑、更短。算法中使用的路径代价考虑了障碍物的势场，避免了穿刺过程中组织局部运动的影响。最后对算法进行仿真，结果表明改进的RRT*算法能够生成符合柔性针运动约束的光滑安全路径。

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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2021 3rd International Conference on Industrial Artificial Intelligence (IAI)

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