An energy minimization method for the correction of cupping artifacts in cone‐beam CT
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[1] Huazhong Shu,et al. Artifact Suppressed Dictionary Learning for Low-Dose CT Image Processing , 2014, IEEE Transactions on Medical Imaging.
[2] Ruola Ning,et al. Simplified method of scatter correction using a beam-stop-array algorithm for cone-beam computed tomography breast imaging , 2008 .
[3] Uwe Oelfke,et al. Enhancement of image quality with a fast iterative scatter and beam hardening correction method for kV CBCT. , 2009, Zeitschrift fur medizinische Physik.
[4] L. Feldkamp,et al. Practical cone-beam algorithm , 1984 .
[5] Haibo Li,et al. A level set method for cupping artifact correction in cone-beam CT. , 2015, Medical physics.
[6] Iwan Kawrakow,et al. Fast Monte Carlo calculation of scatter corrections for CBCT images , 2008 .
[7] Christine Toumoulin,et al. Thoracic low-dose CT image processing using an artifact suppressed large-scale nonlocal means , 2012, Physics in medicine and biology.
[8] D. Jaffray,et al. The influence of bowtie filtration on cone-beam CT image quality. , 2007, Medical physics.
[9] J. Pouliot,et al. Correction of megavoltage cone‐beam CT images of the pelvic region based on phantom measurements for dose calculation purposes , 2009, Journal of applied clinical medical physics.
[10] Luo Li-min,et al. Scatter correction for cone-beam computed tomography using self-adaptive scatter kernel superposition , 2012 .
[11] K. Klingenbeck,et al. A general framework and review of scatter correction methods in cone beam CT. Part 2: scatter estimation approaches. , 2011, Medical physics.
[12] Hilde Bosmans,et al. A model-based volume restoration approach for Monte Carlo scatter correction in image reconstruction of cone beam CT with limited field of view , 2013, Medical Imaging.
[13] N Jon Shah,et al. GPU-accelerated Monte Carlo based scatter correction in brain PET/MR , 2013, 2013 IEEE Nuclear Science Symposium and Medical Imaging Conference (2013 NSS/MIC).
[14] Luo Ouyang,et al. A moving blocker system for cone-beam computed tomography scatter correction. , 2013, Medical physics.
[15] J Yorkston,et al. TH-A-18C-09: Ultra-Fast Monte Carlo Simulation for Cone Beam CT Imaging of Brain Trauma. , 2014, Medical physics.
[16] R. S. Vishwakarma,et al. Monte Carlo calculation of beam quality correction for solid‐state detectors and phantom scatter correction at 137Cs energy , 2014, Journal of applied clinical medical physics.
[17] Matthias Bertram,et al. Performance of standard fluoroscopy antiscatter grids in flat-detector-based cone-beam CT , 2004, SPIE Medical Imaging.
[18] Lei Zhu,et al. Scatter Correction Method for X-Ray CT Using Primary Modulation: Theory and Preliminary Results , 2006, IEEE Transactions on Medical Imaging.
[19] Hee-Joung Kim,et al. Scatter correction method with primary modulator for dual energy digital radiography: a preliminary study , 2014, Medical Imaging.
[20] Jeffrey H. Siewerdsen,et al. SU-FF-I-16: OSCaR: An Open-Source Cone-Beam CT Reconstruction Tool for Imaging Research , 2007 .
[21] N. R. Bennett,et al. Scatter correction method for x-ray CT using primary modulation: phantom studies. , 2010, Medical physics.
[22] J. Gore,et al. Multiplicative intrinsic component optimization (MICO) for MRI bias field estimation and tissue segmentation. , 2014, Magnetic resonance imaging.
[23] I. Sechopoulos,et al. Cupping artifact correction and automated classification for high-resolution dedicated breast CT images. , 2012, Medical physics.
[24] Ehsan Samei,et al. Computed tomography dose index and dose length product for cone‐beam CT: Monte Carlo simulations of a commercial system , 2011, Journal of applied clinical medical physics.