Towards a Real-Time Minimally-Invasive Vascular Intervention Simulation System

Alderliesten T.; Bosman P. A. N.; Niessen W. J.

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Towards a Real-Time Minimally-Invasive Vascular Intervention Simulation System

机译：迈向实时微创血管介入模拟系统

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Recently, foundations rooted in physics have been laid down for the goal of simulating the propagation of a guide wire inside the vasculature. At the heart of the simulation lies the fundamental task of energy minimization. The energy comes from interaction with the vessel wall and the bending of the guide wire. For the simulation to be useful in actual training, obtaining the smallest possible optimization time is key. In this paper, we, therefore, study the influence of using different optimization techniques: a semianalytical approximation algorithm, the conjugate-gradients algorithm, and an evolutionary algorithm (EA), specifically the GLIDE algorithm. Simulation performance has been measured on phantom data. The results show that a substantial reduction in time can be obtained while the error is increased only slightly if conjugate gradients or GLIDE is used

机译：最近，已经奠定了以物理学为基础的基础，以模拟导线在脉管系统内的传播。仿真的核心是能量最小化的基本任务。能量来自与血管壁的相互作用和导线的弯曲。为了使模拟在实际训练中有用，获得尽可能短的优化时间是关键。因此，在本文中，我们研究使用不同优化技术的影响：半解析近似算法，共轭梯度算法和演化算法（EA），特别是GLIDE算法。已经对幻象数据测量了仿真性能。结果表明，如果使用共轭梯度或GLIDE，则可以显着减少时间，而误差只会稍微增加

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《IEEE Transactions on Medical Imaging》 |2007年第2007期|p.128-132|共5页
作者
Alderliesten T.; Bosman P. A. N.; Niessen W. J.;
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正文语种 eng
中图分类无线电电子学、电信技术;
关键词
approximation theory; blood vessels; computerised tomography; conjugate gradient methods; evolutionary computation; medical image processing; minimisation; phantoms; GLIDE algorithm; conjugate-gradients algorithm; evolutionary algorithm; guide wire; phantom; real-tim;

机译：逼近理论;血管;计算机断层扫描;共轭梯度法;进化计算;医学图像处理;最小化;体模;GLIDE算法;共轭梯度算法;进化算法;导线;体模;真实时间;

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Towards a Real-Time Minimally-Invasive Vascular Intervention Simulation System

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