Lange, K.,
Fessler, J.A.,
Globally convergent algorithms for maximum a posteriori transmission
tomography,
IP(4), No. 10, October 1995, pp. 1430-1438.
IEEE DOI
0402
BibRef
Ahn, S.,
Fessler, J.A.,
Globally convergent image reconstruction for emission tomography using
relaxed ordered subsets algorithms,
MedImg(22), No. 5, May 2003, pp. 613-626.
IEEE Abstract.
0307
BibRef
Noh, J.,
Fessler, J.A.,
Kinahan, P.E.,
Statistical Sinogram Restoration in Dual-Energy CT for PET Attenuation
Correction,
MedImg(28), No. 11, November 2009, pp. 1688-1702.
IEEE DOI
0911
BibRef
Ollinger, J.M., and
Fessler, J.A.,
Positron emission tomography,
SPMag(14), No. 1, January 1997, pp. 43-55.
BibRef
9701
Earlier: A1 Only:
Positron emission tomography: physical models and reconstruction issues,
ICIP94(III: 543-547).
IEEE DOI
9411
BibRef
Kinahan, P.E.,
Fessler, J.A.,
Karp, J.S.,
Statistical Image-Reconstruction in PET with Compensation for
Missing Data,
NucSci(44), No. 4, Part 1, August 1997, pp. 1552-1557.
9708
BibRef
Abella, M.,
Martínez, C.,
Desco, M.,
Vaquero, J.J.,
Fessler, J.A.,
Simplified Statistical Image Reconstruction for X-ray CT With
Beam-Hardening Artifact Compensation,
MedImg(39), No. 1, January 2020, pp. 111-118.
IEEE DOI
2001
Bones, Attenuation, Computed tomography, Biological tissues,
Image reconstruction, X-ray imaging, Image segmentation,
penalized likelihood
BibRef
Fessler, J.A.,
Booth, S.D.,
Conjugate-Gradient Preconditioning Methods for Shift-Variant PET Image
Reconstruction,
IP(8), No. 5, May 1999, pp. 688-699.
IEEE DOI
BibRef
9905
Fessler, J.A.,
Preconditioning Methods for Shift-Variant Image Reconstruction,
ICIP97(I: 185-188).
IEEE DOI
BibRef
9700
Fessler, J.A.,
A mixture-site model for edge-preserving image restoration,
ICIP94(III: 162-166).
IEEE DOI
9411
BibRef
Stayman, J.W.,
Fessler, J.A.,
Regularization for Uniform Spatial Resolution Properties in
Penalized-Likelihood Image Reconstruction,
MedImg(19), No. 6, June 2000, pp. 601-615.
IEEE Top Reference.
0110
BibRef
Earlier:
Spatially-variant roughness penalty design for uniform resolution in
penalized-likelihood image reconstruction,
ICIP98(II: 685-689).
IEEE DOI
9810
See also Spatial-Resolution Properties of Penalized Likelihood Image Reconstruction: Space Invariant Tomographs.
BibRef
Stayman, J.W.,
Fessler, J.A.,
Compensation for Nonuniform Resolution Using Penalized-Likelihood
Reconstruction in Space-Variant Imaging Systems,
MedImg(23), No. 3, March 2004, pp. 269-284.
IEEE Abstract.
0403
BibRef
Chun, S.Y.[Se Young],
Fessler, J.A.,
Spatial Resolution Properties of Motion-Compensated Tomographic Image
Reconstruction Methods,
MedImg(31), No. 7, July 2012, pp. 1413-1425.
IEEE DOI
1208
BibRef
Chun, S.Y.,
Fessler, J.A.,
Noise Properties of Motion-Compensated Tomographic Image Reconstruction
Methods,
MedImg(32), No. 2, February 2013, pp. 141-152.
IEEE DOI
1301
BibRef
Yavuz, M.,
Fessler, J.A.,
Penalized-likelihood estimators and noise analysis for
randoms-precorrected PET transmission scans,
MedImg(18), No. 8, August 1999, pp. 665-674.
IEEE Top Reference.
0110
BibRef
Nuyts, J.,
Fessler, J.A.,
A Penalized-Likelihood Image Reconstruction Method for Emission
Tomography, Compared to Postsmoothed Maximum-Likelihood with Matched Spatial
Resolution,
MedImg(22), No. 9, September 2003, pp. 1042-1052.
IEEE Abstract.
0309
BibRef
Fessler, J.A.,
Ficaro, E.P.,
Clinthorne, N.H.,
Lange, K.,
Grouped-coordinate ascent algorithms for penalized-likelihood
transmission image reconstruction,
MedImg(16), No. 2, April 1997, pp. 166-175.
IEEE Top Reference.
0205
BibRef
Yu, D.F.,
Fessler, J.A.,
Ficaro, E.P.,
Maximum-likelihood transmission image reconstruction for overlapping
transmission beams,
MedImg(19), No. 11, November 2000, pp. 1094-1105.
IEEE Top Reference.
0110
BibRef
Ahn, S.[Sangtae],
Fessler, J.A.,
Emission image reconstruction for randoms-precorrected PET allowing
negative sinogram values,
MedImg(23), No. 5, May 2004, pp. 591-601.
IEEE Abstract.
0406
BibRef
Chun, S.Y.,
Fessler, J.A.,
Dewaraja, Y.K.,
Correction for Collimator-Detector Response in SPECT Using Point Spread
Function Template,
MedImg(32), No. 2, February 2013, pp. 295-305.
IEEE DOI
1301
BibRef
Chun, S.Y.[Se Young],
Dewaraja, Y.K.,
Fessler, J.A.,
Alternating Direction Method of Multiplier for Tomography With
Nonlocal Regularizers,
MedImg(33), No. 10, October 2014, pp. 1960-1968.
IEEE DOI
1411
image reconstruction
BibRef
Mehranian, A.,
Zaidi, H.,
Joint Estimation of Activity and Attenuation in Whole-Body TOF
PET/MRI Using Constrained Gaussian Mixture Models,
MedImg(34), No. 9, September 2015, pp. 1808-1821.
IEEE DOI
1509
Attenuation
BibRef
Lim, H.,
Chun, I.Y.,
Dewaraja, Y.K.,
Fessler, J.A.,
Improved Low-Count Quantitative PET Reconstruction With an Iterative
Neural Network,
MedImg(39), No. 11, November 2020, pp. 3512-3522.
IEEE DOI
2011
Image reconstruction, Imaging, Artificial neural networks,
Training, Noise reduction, Convolution, Iterative neural network,
Y-90
BibRef
Booth, S.D.,
Fessler, J.A.,
Combined diagonal/Fourier preconditioning methods for image
reconstruction in emission tomography,
ICIP95(II: 441-444).
IEEE DOI
9510
BibRef
Chapter on Medical Applications, CAT, MRI, Ultrasound, Heart Models, Brain Models continues in
Single Photon emission computed tomography -- SPECT .