Design of a digital beam attenuation system for computed tomography: part I. System design and simulation framework.
暂无分享,去创建一个
[1] Freek J. Beekman,et al. Accelerated simulation of cone beam X-ray scatter projections , 2004, IEEE Transactions on Medical Imaging.
[2] W A Kalender,et al. Dose reduction in CT by anatomically adapted tube current modulation. I. Simulation studies. , 1999, Medical physics.
[3] D. Jaffray,et al. The influence of bowtie filtration on cone-beam CT image quality , 2008 .
[4] Alastair J. Walker,et al. An Efficient Method for Generating Discrete Random Variables with General Distributions , 1977, TOMS.
[5] W A Kalender,et al. Dose reduction in CT by anatomically adapted tube current modulation. II. Phantom measurements. , 1999, Medical physics.
[6] J. H. Hubbell,et al. Tables of X-Ray Mass Attenuation Coefficients and Mass Energy-Absorption Coefficients 1 keV to 20 MeV for Elements Z = 1 to 92 and 48 Additional Substances of Dosimetric Interest , 1995 .
[7] J. Boone,et al. An accurate method for computer-generating tungsten anode x-ray spectra from 30 to 140 kV. , 1997, Medical physics.
[8] Jonathan S. Maltz,et al. Algorithm for X-ray Scatter, Beam-Hardening, and Beam Profile Correction in Diagnostic (Kilovoltage) and Treatment (Megavoltage) Cone Beam CT , 2008, IEEE Transactions on Medical Imaging.
[9] J H Siewerdsen,et al. Compensators for dose and scatter management in cone-beam computed tomography. , 2007, Medical physics.
[10] Freek J. Beekman,et al. Efficient Monte Carlo based scatter artifact reduction in cone-beam micro-CT , 2006, IEEE Transactions on Medical Imaging.
[11] Jonathan Sperl,et al. Computer-Assisted Scan Protocol and Reconstruction (CASPAR)—Reduction of Image Noise and Patient Dose , 2010, IEEE Transactions on Medical Imaging.
[12] James V. Byrne,et al. C-arm flat detector computed tomography: the technique and its applications in interventional neuro-radiology , 2010, Neuroradiology.
[13] Aldo Badano,et al. Accelerating Monte Carlo simulations of photon transport in a voxelized geometry using a massively parallel graphics processing unit. , 2009, Medical physics.
[14] Timothy P. Szczykutowicz,et al. Practical considerations for intensity modulated CT , 2012, Medical Imaging.
[15] Thomas B. Shope,et al. A method for describing the doses delivered by transmission x-ray computed tomography. , 1981 .
[16] J H Siewerdsen,et al. Spektr: a computational tool for x-ray spectral analysis and imaging system optimization. , 2004, Medical physics.
[17] Gilles Soulez,et al. Three-dimensional C-arm cone-beam CT: applications in the interventional suite. , 2008, Journal of vascular and interventional radiology : JVIR.
[18] C. McCollough,et al. CT dose reduction and dose management tools: overview of available options. , 2006, Radiographics : a review publication of the Radiological Society of North America, Inc.
[19] R. Gagne,et al. A METHOD FOR DESCRIBING THE DOSES DELIVERED BY TRANSMISSION X‐RAY COMPUTED TOMOGRAPHY , 1981, Medical physics.
[20] Steven Bartolac,et al. Fluence field optimization for noise and dose objectives in CT. , 2011, Medical physics.
[21] Dominic J. Heuscher,et al. CT dose reduction using dynamic collimation , 2011, 2011 IEEE Nuclear Science Symposium Conference Record.
[22] Thomas Toth,et al. The influence of patient centering on CT dose and image noise. , 2007, Medical physics.