Model-Based Calibration of a Robotic C-Arm System Using X-Ray Imaging

J. Medical Robotics Res. Pub Date : 2018-09-01 DOI:10.1142/S2424905X18410027

Sabine Thürauf, Oliver Hornung, M. Körner, F. Vogt, A. Knoll, M. Nasseri

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引用次数: 4

Abstract

In interventional radiology or surgery, C-arm systems are typical imaging modalities. Apart from 2D X-ray images, C-arm systems are able to perform 2D/3D overlays. For this application, a previously recorded 3D volume is projected on a 2D X-ray image for providing additional information to the clinician. The required accuracy for this application is 1.5[Formula: see text]mm. Such a spatial accuracy is only achievable with C-arms, if a calibration is performed. State-of-the-art approaches interpolate between values of lookup tables of a sampled Cartesian volume. However, due to the non-linear system behavior in Cartesian space, a trade-off between the calibration effort and the calibrated volume is necessary. This leads to the calibration of the most relevant subvolume and high calibration times. We discuss a new model-based calibration approach for C-arm systems which potentially leads to a smaller calibration effort and simultaneously to an increased calibrated volume. In this work, we demonstrate that it is possible to calibrate a robotic C-arm system using X-ray images and that a static model of the system is required to achieve the desired accuracy for 2D/3D overlays, if re-orientations of the system are performed.

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基于x射线成像模型的机器人c臂系统标定

在介入放射学或外科中，c臂系统是典型的成像方式。除了2D x射线图像外，c臂系统还可以进行2D/3D叠加。在这种应用中，将先前记录的3D体积投影到2D x射线图像上，为临床医生提供额外的信息。此应用程序所需的精度为1.5 mm。这样的空间精度只有在c型臂上才能实现，如果进行校准的话。最先进的方法在采样笛卡尔体积的查找表的值之间进行插值。然而，由于系统在笛卡尔空间中的非线性行为，校准努力和校准体积之间的权衡是必要的。这导致校准最相关的子体积和高校准时间。我们讨论了一种新的基于模型的c臂系统校准方法，这种方法可以减少校准工作量，同时增加校准体积。在这项工作中，我们证明了使用x射线图像校准机器人c臂系统是可能的，并且如果执行系统的重新定向，则需要系统的静态模型来达到所需的2D/3D覆盖精度。

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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J. Medical Robotics Res.

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