论文信息 - A new imaging method for real-time 3D x-ray reconstruction

A new imaging method for real-time 3D x-ray reconstruction

Existing Computed Tomography (CT) systems are vulnerable to internal organ movements. This drawback is compensated by extra exposures and digital processing. CT being a radiation dose intensive modality, it is imperative to limit the patient’s exposure to X-ray radiation, if only by removing the necessity to take extra exposures. A multiple pinhole camera, akin to optical lightfield imaging, to acquire simultaneously multiple X-ray projections is presented. This new method allows a single snapshot acquisition of all necessary projections for 3D reconstruction. It will also allow the real-time dynamic 3D X-ray reconstruction of moving organs, as it requires no scanning and no moving parts in its final implementation. A proof-of-concept apparatus that simulates the intended process was built and parallaxed images were obtained with minor processing. Synthetic 3D reconstruction tests are also presented.

Mark R. Pickering | Sajib Saha | Andrew Lambert | Murat Tahtali

[1] Paul N. Smith,et al. New registration algorithm for determining 3D knee kinematics using CT and single‐plane fluoroscopy with improved out‐of‐plane translation accuracy , 2010, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[2] Mark R. Pickering,et al. Multi-axial CT reconstruction from few view projections , 2012, Other Conferences.

[3] Richard B. Hoover,et al. X-ray imaging with multiple-pinhole cameras using a posteriori holographic image synthesis. , 1969 .

[4] J. Needham. Science and civilisation in China , 1963 .

[5] Marc Levoy,et al. Light Fields and Computational Imaging , 2006, Computer.

[6] Herbert E. Ives,et al. Parallax Panoramagrams Made with a Large Diameter Lens , 1930 .

[7] P. Hanrahan,et al. Light Field Photography with a Hand-held Plenoptic Camera , 2005 .