可操纵针的分辨率最优运动规划。

Mengyu Fu, Kiril Solovey, Oren Salzman, Ron Alterovitz
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引用次数: 5

摘要

医用可操纵针可以沿着人体组织内部的三维曲线轨迹移动,使其能够在关键解剖结构周围移动,并以微创的方式精确到达临床有意义的目标。以运动规划为关键组成部分的自动针导向,有可能最大限度地提高可导向针程序的准确性、精度、速度和安全性。在本文中,我们介绍了第一个分辨率最优的导向针运动规划器,它在运行时间方面提供了出色的实际性能,同时为运动规划在有限时间内的完整性和全局最优性提供了强有力的理论保证。与最先进的可操纵针运动计划器相比,肺活检现实场景的模拟实验表明,我们提出的计划器在纳入临床相关成本函数的同时,能够更快地生成更高质量的计划。这表明所提出的规划器的理论保证对运动计划质量有实际影响,这对于计算使患者创伤最小化的运动计划是有价值的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Resolution-Optimal Motion Planning for Steerable Needles.

Medical steerable needles can follow 3D curvilinear trajectories inside body tissue, enabling them to move around critical anatomical structures and precisely reach clinically significant targets in a minimally invasive way. Automating needle steering, with motion planning as a key component, has the potential to maximize the accuracy, precision, speed, and safety of steerable needle procedures. In this paper, we introduce the first resolution-optimal motion planner for steerable needles that offers excellent practical performance in terms of runtime while simultaneously providing strong theoretical guarantees on completeness and the global optimality of the motion plan in finite time. Compared to state-of-the-art steerable needle motion planners, simulation experiments on realistic scenarios of lung biopsy demonstrate that our proposed planner is faster in generating higher-quality plans while incorporating clinically relevant cost functions. This indicates that the theoretical guarantees of the proposed planner have a practical impact on the motion plan quality, which is valuable for computing motion plans that minimize patient trauma.

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CiteScore
6.80
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