论文信息 - Camera-Augmented Mobile C-arm (CAMC) Application: 3D Reconstruction Using a Low-Cost Mobile C-arm

Camera-Augmented Mobile C-arm (CAMC) Application: 3D Reconstruction Using a Low-Cost Mobile C-arm

High-end X-ray C-arm gantries have recently been used for 3D reconstruction. Low-cost mobile C-arms enjoy the advantage of being readily available and are often used as interventional imaging device, but do not guarantee the reproducibility of their motion. The calibration and reconstruction process used for high-end C-arms cannot be applied to them. Camera-Augmented Mobile C-arm (CAMC) is the solution we propose. A CCD camera is attached to the (motorized) mobile C-arm in order to calibrate the C-arm’s projection geometry on-line. The relationship between X-ray and camera projection geometry is characterized in an off-line calibration process. We propose the notion of Virtual Detector (VD), which enables us to describe both optical and X-ray geometry as pinhole cameras with fixed intrinsic parameters. We have conducted experiments in order to compare the results of CAMC calibration with the calibration method used for high-end C-arms and using an optical tracking system (Polaris from Northern Digital, Inc.).

Nassir Navab | Matthias Mitschke | Oliver Schütz

[1] Nassir Navab,et al. 3D Reconstruction from Projection Matrices in a C-Arm Based 3D-Angiography System , 1998, MICCAI.

[2] Y. Trousset,et al. Geometrical calibration of X-ray imaging chains for three-dimensional reconstruction. , 1993, Computerized medical imaging and graphics : the official journal of the Computerized Medical Imaging Society.

[3] D L Parker,et al. Optimal short scan convolution reconstruction for fanbeam CT. , 1982, Medical physics.

[4] Rebecca Fahrig,et al. Characterization of a C-arm-mounted XRII for 3D image reconstruction during interventional neuroradiology , 1996, Medical Imaging.

[5] E. Gronenschild,et al. The accuracy and reproducibility of a global method to correct for geometric image distortion in the x-ray imaging chain. , 1997, Medical physics.

[6] W. Eric L. Grimson,et al. Clinical Experience with a Hich Precision Image-Guided Neurosurgery System , 1998, MICCAI.

[7] D. Parker. Optimal short scan convolution reconstruction for fan beam CT , 1982 .

[8] R Fahrig,et al. Three-dimensional computed tomographic reconstruction using a C-arm mounted XRII: correction of image intensifier distortion. , 1997, Medical physics.

[9] Takeo Kanade,et al. An Image Overlay System for Medical Data Visualization , 1998, MICCAI.

[10] William M. Wells,et al. Medical Image Computing and Computer-Assisted Intervention — MICCAI’98 , 1998, Lecture Notes in Computer Science.