在手术模拟过程中模拟组织行为的混合方法。

Venkata S Arikatla, Ricardo Ortiz, David Thompson, Deanna Sasaki-Adams, Andinet Enquobahrie, Suvranu De
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引用次数: 0

摘要

有效、准确地对可变形物体和刚性物体之间的相互作用进行建模是交互式手术仿真的重要任务之一。有限元法(FEM)由于其在表示具有不规则几何特征和各种材料特性的弹性体方面的通用性而在这方面变得非常流行。在这项工作中,我们提出了一种混合FEM方法来模拟真实的组织行为,该方法在相互作用附近使用非线性公式,而在其他地方使用不太准确和便宜的线性公式。半隐式时间步进用于该域的非线性部分。这避免了维护接口一致性所需的昂贵的域分解策略,并允许使用非重叠接口和两个域的单个求解器进行常规系统组装。这项研究证明了我们的新方法的优势,特别是在实时手术模拟的情况下。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A HYBRID APPROACH TO SIMULATE TISSUE BEHAVIOR DURING SURGICAL SIMULATION.

Modeling interaction between deformable and rigid objects efficiently and accurately is one of the most important tasks for interactive surgical simulation. The Finite Element Method (FEM) has become very popular in this context due to its versatility in representing elastic bodies with irregular geometric features and diverse material properties. In this work we propose a hybrid FEM approach to simulating realistic tissue behavior that uses a non-linear formulation in the vicinity of the interaction while employing a less accurate and inexpensive linear formulation elsewhere. A semi-implicit time stepping is used for the non-linear portion of the domain. This avoids expensive domain decomposition strategies required to maintain consistency at the interface and allows for regular system assembly using a non-overlapping interface and single solver for both domains. This study demonstrates the advantages of our novel approach, especially for the case of real-time surgical simulation.

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