Improving 3D image quality of x-ray C-arm imaging systems by using properly designed pose determination systems for calibrating the projection geometry - Concepedia

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Improving 3D image quality of x-ray C-arm imaging systems by using properly designed pose determination systems for calibrating the projection geometry

55

Citations

10

References

2003

Year

Norbert Strobel, Benno Heigl, Thomas M. Brunner, Oliver Schuetz, Matthias Mitschke, K. Wiesent, Thomas Mertelmeier

Proceedings of SPIE, the International Society for Optical Engineering/Proceedings of SPIE

Image ReconstructionEngineeringC-arm Volume ReconstructionBiomedical EngineeringProjection GeometryVolume ReconstructionOrthopaedic SurgeryX-ray ImagingCalibrationCamera CalibrationCt ScanComputational ImagingKinematicsInstrumentationComputational GeometryPose Determination SystemsRadiologyHealth SciencesGeometric ModelingReconstruction TechniqueMedical ImagingUltrasoundMedical Image ComputingRadiographic ImagingCalibration PhantomBiomedical Imaging3D ScanningImage QualityX-ray Optic3D Imaging

Abstract

C-arm volume reconstruction has become increasingly popular over the last years. These imaging systems generate 3D data sets for various interventional procedures such as endovascular treatment of aneurysms or orthopedic applications. Due to their open design and mechanical instability, C-arm imaging systems acquire projections along non-ideal scan trajectories. Volume reconstruction from filtered 2D X-ray projections requires a very precise knowledge of the imaging geometry. We show that the 3D image quality of C-arm cone beam imaging devices can be improved by proper design of the calibration phantom.

References

	Year	Citations

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