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0203
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Beekman, F.J.,
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0203
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Pan, X.,
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Noniterative Methods and Their Noise Characteristics in 2D
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9707
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Lee, S.J.,
Hsiao, I.T.,
Gindi, G.R.,
The Thin-Plate as a Regularizer in Bayesian SPECT Reconstruction,
NucSci(44), No. 3, Part 2, June 1997, pp. 1381-1387.
9707
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Kadrmas, D.J.,
Frey, E.C.,
Tsui, B.M.W.,
Application of Reconstruction-Based Scatter Compensation to Tl-201 SPECT:
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9809
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Wang, Y.,
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Pinhole SPECT With Different Data Acquisition Geometries: Usefulness of
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MedImg(26), No. 3, March 2007, pp. 298-308.
IEEE DOI
0703
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Lalush, D.S.,
Fourier rebinning applied to multiplanar circular-orbit cone-beam SPECT,
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0110
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Lalush, D.S.,
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Tsui, B.M.W.,
Fast maximum entropy approximation in SPECT using the
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0110
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Binary Encoding of Multiplexed Images in Mixed Noise,
MedImg(27), No. 9, September 2008, pp. 1323-1332.
IEEE DOI
0809
BibRef
Hsieh, Y.L.,
Zeng, G.S.L.,
Gullberg, G.T.,
Projection Space Image Reconstruction Using Strip Functions to
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9806
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Reutter, B.W.,
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0110
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0205
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Krol, A.,
Bowsher, J.E.,
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0110
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Narayanan, M.V.,
Byrne, C.L.,
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An interior point iterative maximum-likelihood reconstruction algorithm
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0110
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0110
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Bauschke, H.H.,
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Borwein, J.M.,
An EM algorithm for dynamic SPECT,
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0110
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Battle, X.L.,
Cheze Le Rest, C.,
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Three-dimensional attenuation map reconstruction using geometrical
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0110
SPECT application
BibRef
Bindi, D.,
Brianzi, P.,
di Benedetto, F.,
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IJIST(12), No. 1, 2002, pp. 1-8.
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0202
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Beekman, F.J.,
de Jong, H.W.A.M.,
van Geloven, S.,
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0301
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Frey, E.C.,
Gilland, K.L.,
Tsui, B.M.W.,
Application of task-based measures of image quality to optimization and
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0301
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Willett, R.M.,
Nowak, R.D.,
Platelets: a multiscale approach for recovering edges and surfaces in
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IEEE Abstract.
0306
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Earlier:
Platelets for multiscale analysis in photon-limited imaging,
ICIP02(I: 365-368).
IEEE DOI
0210
See also Minimax Optimal Level-Set Estimation.
BibRef
Krishnamurthy, K.[Kalyani],
Raginsky, M.[Maxim],
Willett, R.M.[Rebecca M.],
Multiscale Photon-Limited Spectral Image Reconstruction,
SIIMS(3), No. 3, 2010, pp. 619-645.
DOI Link
1011
spectral imaging; Poisson intensity estimation; complexity
regularization; wavelets; photon-limited imaging
BibRef
Beque, D.,
Nuyts, J.,
Bormans, G.,
Suetens, P.,
Dupont, P.,
Characterization of pinhole SPECT acquisition geometry,
MedImg(22), No. 5, May 2003, pp. 599-612.
IEEE Abstract.
0307
BibRef
Beque, D.,
Nuyts, J.,
Suetens, P.,
Bormans, G.,
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IEEE Abstract.
0501
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Kyme, A.Z.,
Hutton, B.F.,
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Skerrett, D.W.,
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Practical aspects of a data-driven motion correction approach for brain
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IEEE Abstract.
0308
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Calvini, P.,
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Application of Krylov subspaces to SPECT imaging,
IJIST(12), No. 5, 2002, pp. 217-228.
WWW Link.
0308
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Vanzi, E.,
Formiconi, A.R.,
Bindi, D.,
LaCava, G.,
Pupi, A.,
Kinetic Parameter Estimation From Renal Measurements With a
Three-Headed SPECT System: A Simulation Study,
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0403
BibRef
Meng, L.J.,
Clinthorne, N.H.,
A Modified Uniform Cramer-Rao Bound for Multiple Pinhole Aperture
Design,
MedImg(23), No. 7, July 2004, pp. 896-902.
IEEE Abstract.
0407
Study of multiple pinhole apertures for small animal
SPECT imaging applications.
BibRef
Stayman, J.W.,
Fessler, J.A.,
Efficient calculation of resolution and covariance for
penalized-likelihood reconstruction in fully 3-D SPECT,
MedImg(23), No. 12, December 2004, pp. 1543-1556.
IEEE Abstract.
0412
BibRef
Feng, B.,
Fessler, J.A.,
King, M.A.,
Incorporation of System Resolution Compensation (RC) in the
Ordered-Subset Transmission (OSTR) Algorithm for Transmission Imaging
in SPECT,
MedImg(25), No. 7, July 2006, pp. 941-949.
IEEE DOI
0606
BibRef
Li, T.,
Wen, J.,
Han, G.,
Lu, H.,
Liang, Z.,
Evaluation of an Efficient Compensation Method for Quantitative
Fan-Beam Brain SPECT Reconstruction,
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IEEE Abstract.
0501
BibRef
Metzler, S.D.,
Greer, K.L.,
Jaszczak, R.J.,
Determination of Mechanical and Electronic Shifts for Pinhole SPECT
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IEEE Abstract.
0501
BibRef
Metzler, S.D.,
Jaszczak, R.J.,
Patil, N.H.,
Vemulapalli, S.,
Akabani, G.,
Chin, B.B.,
Molecular imaging of small animals with a triple-head SPECT system
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MedImg(24), No. 7, July 2005, pp. 853-862.
IEEE DOI
0508
BibRef
Goertzen, A.L.,
Jones, D.W.,
Seidel, J.,
Li, K.[King],
Green, M.V.,
First results from the high-resolution mouseSPECT annular scintillation
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MedImg(24), No. 7, July 2005, pp. 863-867.
IEEE DOI
0508
BibRef
Jan, M.L.[Meei-Ling],
Chuang, K.S.[Keh-Shih],
Chen, G.W.[Guo-Wei],
Ni, Y.C.[Yu-Ching],
Chen, S.,
Chang, C.H.[Chih-Hsien],
Wu, J.[Jay],
Lee, T.W.[Te-Wei],
Fu, Y.K.[Ying-Kai],
A three-dimensional registration method for automated fusion of micro
PET-CT-SPECT whole-body images,
MedImg(24), No. 7, July 2005, pp. 886-893.
IEEE DOI
0508
BibRef
Du, Y.,
Tsui, B.M.W.,
Frey, E.C.,
Partial Volume Effect Compensation for Quantitative Brain SPECT Imaging,
MedImg(24), No. 8, August 2005, pp. 969-976.
IEEE DOI
0508
BibRef
Israel-Jost, V.,
Choquet, P.,
Salmon, S.,
Blondet, C.,
Sonnendrucker, E.,
Constantinesco, A.,
Pinhole SPECT Imaging: Compact Projection/Backprojection Operator for
Efficient Algebraic Reconstruction,
MedImg(25), No. 2, February 2006, pp. 158-167.
IEEE DOI
0602
BibRef
Mu, Z.,
Liu, Y.H.,
Aperture Collimation Correction and Maximum-Likelihood Image
Reconstruction for Near-Field Coded Aperture Imaging of Single Photon
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MedImg(25), No. 6, June 2006, pp. 701-711.
IEEE DOI
0606
BibRef
Kervinen, M.,
Vauhkonen, M.,
Kaipio, J.P.,
Karjalainen, P.A.,
Time-varying reconstruction in single photon emission computed
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IJIST(14), No. 5, 2004, pp. 186-197.
DOI Link
0412
BibRef
López, A.[Antonio],
Molina, R.[Rafael],
Katsaggelos, A.K.[Aggelos K.],
Rodriguez, A.[Antonio],
López, J.M.[José M.],
Llamas, J.M.[José M.],
Parameter estimation in Bayesian reconstruction of SPECT images:
An aid in nuclear medicine diagnosis,
IJIST(14), No. 1, 2004, pp. 21-27.
DOI Link
0406
BibRef
Feng, B.,
Gifford, H.C.,
Beach, R.D.,
Boening, G.,
Gennert, M.A.,
King, M.A.,
Use of Three-Dimensional Gaussian Interpolation in the
Projector/Backprojector Pair of Iterative Reconstruction for
Compensation of Known Rigid-Body Motion in SPECT,
MedImg(25), No. 7, July 2006, pp. 838-844.
IEEE DOI
0606
BibRef
Wen, L.,
Eberl, S.,
Feng, D.D.,
Cai, W.D.[Wei-Dong],
Bai, J.,
Fast and Reliable Estimation of Multiple Parametric Images Using an
Integrated Method for Dynamic SPECT,
MedImg(26), No. 2, February 2007, pp. 179-189.
IEEE DOI
0702
BibRef
Shi, X.[Xian],
Wen, L.F.[Ling-Feng],
Cai, W.D.[Wei-Dong],
Feng, D.D.,
A Study on Static Image Derived Input Function for Non-invasively
Constructing Parametric Image in Functional Imaging,
DICTA11(314-318).
IEEE DOI
1205
BibRef
Xu, J.,
Liu, C.,
Wang, Y.,
Frey, E.C.,
Tsui, B.M.W.,
Quantitative Rotating Multisegment Slant-Hole SPECT Mammography With
Attenuation and Collimator-Detector Response Compensation,
MedImg(26), No. 7, July 2007, pp. 906-916.
IEEE DOI
0707
BibRef
Xu, J.,
Tsui, B.M.W.,
Electronic Noise Modeling in Statistical Iterative Reconstruction,
IP(18), No. 6, June 2009, pp. 1228-1238.
IEEE DOI
0905
See also Quantifying the Importance of the Statistical Assumption in Statistical X-ray CT Image Reconstruction.
BibRef
Wang, A.[Alex],
Yan, H.[Hong],
A new automated delineation method for SPECT lung scans using adaptive
dual-exponential thresholding,
IJIST(17), No. 1, 2007, pp. 22-27.
DOI Link
0707
BibRef
Wang, A.[Alex],
Yan, H.[Hong],
Delineating low-count defective-contour SPECT lung scans for PE
diagnosis using adaptive dual exponential thresholding and active
contours,
IJIST(20), No. 2, June 2010, pp. 149-154.
DOI Link
1006
BibRef
Vunckx, K.,
Beque, D.,
Defrise, M.,
Nuyts, J.,
Single and Multipinhole Collimator Design Evaluation Method for Small
Animal SPECT,
MedImg(27), No. 1, January 2008, pp. 36-46.
IEEE DOI
0712
BibRef
Zhou, L.[Lin],
Defrise, M.,
Vunckx, K.,
Nuyts, J.,
Comparison Between Parallel Hole and Rotating Slat Collimation:
Analytical Noise Propagation Models,
MedImg(29), No. 12, December 2010, pp. 2038-2052.
IEEE DOI
1101
BibRef
Defrise, M.,
Vanhove, C.,
Nuyts, J.,
Perturbative Refinement of the Geometric Calibration in Pinhole SPECT,
MedImg(27), No. 2, February 2008, pp. 204-214.
IEEE DOI
0802
BibRef
Accorsi, R.,
Novak, J.R.,
Ayan, A.S.,
Metzler, S.D.,
Derivation and Validation of a Sensitivity Formula for Slit-Slat
Collimation,
MedImg(27), No. 5, May 2008, pp. 709-722.
IEEE DOI
0711
BibRef
Barrett, H.H.,
Furenlid, L.R.,
Freed, M.,
Hesterman, J.Y.,
Kupinski, M.A.,
Clarkson, E.W.,
Whitaker, M.K.,
Adaptive SPECT,
MedImg(27), No. 6, June 2008, pp. 775-788.
IEEE DOI
0711
BibRef
Clarkson, E.W.[Eric W.],
Kupinski, M.A.[Matthew A.],
Global Compartmental Pharmacokinetic Models For Spatiotemporal
SPECT and PET Imaging,
SIIMS(2), No. 1, 2009, pp. 203-225.
pharmacokinetics; biomedical imaging; compartmental modeling; single
photon emission computed tomography; positron emission tomography
DOI Link
BibRef
0900
van der Have, F.,
Vastenhouw, B.,
Rentmeester, M.,
Beekman, F.J.,
System Calibration and Statistical Image Reconstruction for Ultra-High
Resolution Stationary Pinhole SPECT,
MedImg(27), No. 7, July 2008, pp. 960-971.
IEEE DOI
0808
BibRef
Vunckx, K.,
Suetens, P.,
Nuyts, J.,
Effect of Overlapping Projections on Reconstruction Image Quality in
Multipinhole SPECT,
MedImg(27), No. 7, July 2008, pp. 972-983.
IEEE DOI
0808
BibRef
Huang, Q.,
You, J.,
Zeng, G.L.,
Gullberg, G.T.,
Reconstruction From Uniformly Attenuated SPECT Projection Data Using
the DBH Method,
MedImg(28), No. 1, January 2009, pp. 17-29.
IEEE DOI
0901
BibRef
Yan, Y.[Yan],
Zeng, G.L.[Gengsheng Lawrence],
Attenuation map estimation with SPECT emission data only,
IJIST(19), No. 3, September 2009, pp. 271-276.
DOI Link
0909
BibRef
Lehovich, A.,
Bruyant, P.P.,
Gifford, H.S.,
Schneider, P.B.,
Squires, S.,
Licho, R.,
Gindi, G.,
King, M.A.,
Impact on Reader Performance for Lesion-Detection/ Localization Tasks
of Anatomical Priors in SPECT Reconstruction,
MedImg(28), No. 9, September 2009, pp. 1459-1467.
IEEE DOI
0909
BibRef
Pasciak, A.S.,
Erwin, W.D.,
Effect of Voxel Size and Computation Method on Tc-99m MAA
SPECT/CT-Based Dose Estimation for Y-90 Microsphere Therapy,
MedImg(28), No. 11, November 2009, pp. 1754-1758.
IEEE DOI
0911
BibRef
Ma, T.,
Yao, R.,
Shao, Y.,
Zhou, R.,
A SVD-Based Method to Assess the Uniqueness and Accuracy of SPECT
Geometrical Calibration,
MedImg(28), No. 12, December 2009, pp. 1929-1939.
IEEE DOI
0912
BibRef
Nillius, P.,
Danielsson, M.,
Theoretical Bounds and System Design for Multipinhole SPECT,
MedImg(29), No. 7, July 2010, pp. 1390-1400.
IEEE DOI
1007
BibRef
He, X.,
Cheng, L.,
Fessler, J.A.,
Frey, E.C.,
Regularized Image Reconstruction Algorithms for Dual-Isotope Myocardial
Perfusion SPECT (MPS) Imaging Using a Cross-Tracer Prior,
MedImg(30), No. 6, June 2011, pp. 1169-1183.
IEEE DOI
1101
BibRef
Hwang, D.S.[Do-Sik],
Lee, J.W.[Jeong-Whan],
Zeng, G.S.L.[Geng-Sheng L.],
SPECT reconstruction with sub-sinogram acquisitions,
IJIST(21), No. 3, September 2011, pp. 247-252.
DOI Link
1109
BibRef
Zhou, L.,
Vunckx, K.,
Nuyts, J.,
Multi-Pinhole SPECT Calibration: Influence of Data Noise and Systematic
Orbit Deviations,
MedImg(30), No. 10, October 2011, pp. 1795-1807.
IEEE DOI
1110
BibRef
Wen, J.H.[Jun-Hai],
Li, Y.C.[Yin-Cen],
Wang, W.[Wei],
Wavelet-based denoising and its impact on analytical SPECT
reconstruction with nonuniform attenuation compensation,
IJIST(23), No. 1, March 2013, pp. 36-43.
DOI Link
1303
BibRef
Fuin, N.,
Pedemonte, S.,
Arridge, S.,
Ourselin, S.,
Hutton, B.F.,
Efficient Determination of the Uncertainty for the Optimization of
SPECT System Design: A Subsampled Fisher Information Matrix,
MedImg(33), No. 3, March 2014, pp. 618-635.
IEEE DOI
1404
adaptive systems
BibRef
Luo, S.,
Qian, J.,
Stefanov, P.,
Adjoint State Method for the Identification Problem in SPECT:
Recovery of Both the Source and the Attenuation in the Attenuated
X-Ray Transform,
SIIMS(7), No. 2, 2014, pp. 696-715.
DOI Link
1405
BibRef
Marti-Fuster, B.,
Esteban, O.,
Thielemans, K.,
Setoain, X.,
Santos, A.,
Ros, D.,
Pavia, J.,
Including Anatomical and Functional Information in MC Simulation of
PET and SPECT Brain Studies. Brain-VISET: A Voxel-Based Iterative
Method,
MedImg(33), No. 10, October 2014, pp. 1931-1938.
IEEE DOI
1411
Monte Carlo methods
BibRef
Johnson, L.C.,
Shokouhi, S.,
Peterson, T.E.,
Reducing Multiplexing Artifacts in Multi-Pinhole SPECT With a Stacked
Silicon-Germanium System: A Simulation Study,
MedImg(33), No. 12, December 2014, pp. 2342-2351.
IEEE DOI
1412
Ge-Si alloys
BibRef
Abdalah, M.,
Boutchko, R.,
Mitra, D.,
Gullberg, G.T.,
Reconstruction of 4-D Dynamic SPECT Images From Inconsistent
Projections Using a Spline Initialized FADS Algorithm (SIFADS),
MedImg(34), No. 1, January 2015, pp. 216-228.
IEEE DOI
1502
biological tissues
BibRef
van Audenhaege, K.,
Vanhove, C.,
Vandenberghe, S.,
van Holen, R.,
The Evaluation of Data Completeness and Image Quality in Multiplexing
Multi-Pinhole SPECT,
MedImg(34), No. 2, February 2015, pp. 474-486.
IEEE DOI
1502
Apertures
BibRef
Hsieh, S.S.,
Pelc, N.J.,
A Dynamic Attenuator Improves Spectral Imaging With
Energy-Discriminating, Photon Counting Detectors,
MedImg(34), No. 3, March 2015, pp. 729-739.
IEEE DOI
1503
Taguchi methods
BibRef
Hsieh, S.S.,
Coincidence Counters for Charge Sharing Compensation in Spectroscopic
Photon Counting Detectors,
MedImg(39), No. 3, March 2020, pp. 678-687.
IEEE DOI
2004
Photonics, Task analysis, Detectors, Iodine, Computed tomography,
Prototypes, Photon counting X-ray detectors, pileup,
spectral CT
BibRef
Pato, L.R.V.,
Vandenberghe, S.,
Vandeghinste, B.,
van Holen, R.,
Evaluation of Fisher Information Matrix-Based Methods for Fast
Assessment of Image Quality in Pinhole SPECT,
MedImg(34), No. 9, September 2015, pp. 1830-1842.
IEEE DOI
1509
Approximation methods
BibRef
Jung, C.Y.[Chang-Yeol],
Moon, S.[Sunghwan],
Exact Inversion of the Cone Transform Arising in an Application of a
Compton Camera Consisting of Line Detectors,
SIIMS(9), No. 2, 2016, pp. 520-536.
DOI Link
1608
BibRef
Sanders, J.C.,
Ritt, P.,
Kuwert, T.,
Vija, A.H.,
Maier, A.K.,
Fully Automated Data-Driven Respiratory Signal Extraction From SPECT
Images Using Laplacian Eigenmaps,
MedImg(35), No. 11, November 2016, pp. 2425-2435.
IEEE DOI
1609
Belts
BibRef
Kuchment, P.[Peter],
Terzioglu, F.[Fatma],
Three-Dimensional Image Reconstruction from Compton Camera Data,
SIIMS(9), No. 4, 2016, pp. 1708-1725.
DOI Link
1612
BibRef
Gabrani-Juma, H.,
Clarkin, O.J.,
Pourmoghaddas, A.,
Driscoll, B.,
Wells, R.G.,
de Kemp, R.A.,
Klein, R.,
Validation of a Multimodality Flow Phantom and Its Application for
Assessment of Dynamic SPECT and PET Technologies,
MedImg(36), No. 1, January 2017, pp. 132-141.
IEEE DOI
1701
Attenuation
BibRef
Chang, Z.,
Zhang, R.,
Thibault, J.B.,
Pal, D.,
Fu, L.,
Sauer, K.,
Bouman, C.,
Modeling and Pre-Treatment of Photon-Starved CT Data for Iterative
Reconstruction,
MedImg(36), No. 1, January 2017, pp. 277-287.
IEEE DOI
1701
Additives
BibRef
Sasi, N.M.[Neethu M.],
Varkey, K.[Kuruvila],
Jayasree, V.K.,
A pixel-based approach for classification of cardiac single photon
emission computed tomography images,
SIViP(11), No. 5, July 2017, pp. 889-896.
WWW Link.
1706
BibRef
Jang, K.S.[Kyung-Sool],
Im, J.J.[Jooyeon J.],
Chung, Y.A.[Yong-An],
Chung, S.W.[Sung-Woo],
Jeong, H.S.[Hyeonseok S.],
Kim, M.W.[Min-Wook],
Assessment of cerebral blood perfusion changes after
neurorehabilitation therapy in patients with middle cerebral artery
infarction: An acetazolamide-challenged SPECT study,
IJIST(28), No. 1, 2018, pp. 15-20.
DOI Link
1802
acetazolamide SPECT, middle cerebral artery infarction,
neurorehabilitation therapy, regional cerebral blood flow, stroke
BibRef
Jiang, Y.,
Li, S.,
Xu, Y.,
A Higher-Order Polynomial Method for SPECT Reconstruction,
MedImg(38), No. 5, May 2019, pp. 1271-1283.
IEEE DOI
1905
Mathematical model, Single photon emission computed tomography,
Image reconstruction, Integral equations,
noise and artifact reduction
BibRef
Ramon, A.J.[A. Juan],
Yang, Y.,
Pretorius, P.H.,
Johnson, K.L.,
King, M.A.,
Wernick, M.N.,
Personalized Models for Injected Activity Levels in SPECT Myocardial
Perfusion Imaging,
MedImg(38), No. 6, June 2019, pp. 1466-1476.
IEEE DOI
1906
Image reconstruction, Predictive models,
Reconstruction algorithms,
SPECT-MPI
BibRef
Song, C.,
Yang, Y.,
Ramon, A.J.,
Wernick, M.N.,
Pretorius, P.H.,
King, M.A.,
Effect of Respiratory Motion Correction in Perfusion SPECT Imaging,
ICIP18(1168-1172)
IEEE DOI
1809
Image reconstruction,
Single photon emission computed tomography, Smoothing methods,
contrast of perfusion defects
BibRef
Qi, W.Y.[Wen-Yuan],
Yang, Y.Y.[Yong-Yi],
Song, C.[Chao],
Wernick, M.N.[Miles N.],
Pretorius, P.H.[P. Hendrik],
King, M.A.[Michael A.],
4-D Reconstruction With Respiratory Correction for Gated Myocardial
Perfusion SPECT,
MedImg(36), No. 8, August 2017, pp. 1626-1635.
IEEE DOI
1708
BibRef
Earlier: A3, A2, A4, A5, A6, Only:
Joint motion correction and image reconstruction in respiratory-gated
SPECT,
ICIP16(2321-2324)
IEEE DOI
1610
BibRef
Earlier: A3, A2, A1, A4, A5, A6:
4D non-local means post-filtering for cardiac gated SPECT,
ICIP15(1200-1204)
IEEE DOI
1512
BibRef
Earlier: A1, A2, A4, A5, A6, Only:
Reconstruction with angular compensation in respiratory-gated cardiac
SPECT,
ICIP14(3636-3640)
IEEE DOI
1502
Data acquisition, Image reconstruction, Logic gates, Myocardium,
Single photon emission computed tomography,
Spatiotemporal phenomena, 4D reconstruction, Cardiac SPECT,
cardiac gating, respiratory, binning
BibRef
Narayanan, M.V.,
King, M.A.,
Wernick, M.N.,
Byrne, C.L.,
Soares, E.J.,
Pretorius, P.H.,
Improved image quality and computation reduction in 4-D reconstruction
of cardiac-gated SPECT images,
MedImg(19), No. 5, May 2000, pp. 423-433.
IEEE Top Reference.
0110
BibRef
Niu, X.F.[Xiao-Feng],
Yang, Y.Y.[Yong-Yi],
Wernick, M.N.[Miles N.],
Direct reconstruction of parametric images from cardiac gated dynamic
SPECT data,
ICIP11(453-456).
IEEE DOI
1201
BibRef
Jin, M.[Mingwu],
Yang, Y.Y.[Yong-Yi],
Wernick, M.N.,
Reconstruction of Cardiac-Gated Dynamic SPECT Images,
ICIP05(III: 752-755).
IEEE DOI
0512
BibRef
Qi, W.Y.[Wen-Yuan],
Yang, Y.Y.[Yong-Yi],
Wernick, M.N.[Miles N.],
King, M.A.[Michael A.],
4D reconstruction for dual cardiac-respiratory gated SPECT,
ICIP13(2324-2328)
IEEE DOI
1402
4D reconstruction;Dual-gated SPECT;respiratory gating
BibRef
Song, C.,
Yang, Y.,
Wernick, M.N.,
Pretorius, P.H.[P. Hendrik],
King, M.A.,
Approximate 4D Reconstruction of Cardiac-Gated Spect Images Using a
Residual Convolutional Neural Network,
ICIP19(1262-1266)
IEEE DOI
1910
4D MAP, cardiac SPECT, CNN
BibRef
Juntunen, M.A.K.,
Inkinen, S.I.,
Ketola, J.H.,
Kotiaho, A.,
Kauppinen, M.,
Winkler, A.,
Nieminen, M.T.,
Framework for Photon Counting Quantitative Material Decomposition,
MedImg(39), No. 1, January 2020, pp. 35-47.
IEEE DOI
2001
Calibration, Computed tomography, Detectors, Image reconstruction,
Photonics, Calcium, Thickness measurement, CdTe,
spectral CT
BibRef
Wang, H.,
Nie, K.,
Kuang, Y.,
An On-Board Spectral-CT/CBCT/SPECT Imaging Configuration for
Small-Animal Radiation Therapy Platform: A Monte Carlo Study,
MedImg(39), No. 3, March 2020, pp. 588-600.
IEEE DOI
2004
X-ray imaging, Electron tubes, Photonics, Animals,
Single photon emission computed tomography, Cone beam CT,
small-animal image-guided radiation therapy
BibRef
Chun, S.Y.,
Nguyen, M.P.,
Phan, T.Q.,
Kim, H.,
Fessler, J.A.,
Dewaraja, Y.K.,
Algorithms and Analyses for Joint Spectral Image Reconstruction in
Y-90 Bremsstrahlung SPECT,
MedImg(39), No. 5, May 2020, pp. 1369-1379.
IEEE DOI
2005
Image reconstruction,
Single photon emission computed tomography, Photonics,
energy-window subset
BibRef
Ramon, A.J.,
Yang, Y.,
Pretorius, P.H.,
Johnson, K.L.,
King, M.A.,
Wernick, M.N.,
Improving Diagnostic Accuracy in Low-Dose SPECT Myocardial Perfusion
Imaging With Convolutional Denoising Networks,
MedImg(39), No. 9, September 2020, pp. 2893-2903.
IEEE DOI
2009
Noise reduction,
Single photon emission computed tomography,
convolutional neural networks
BibRef
Ma, T.Y.[Tian-Yu],
Wei, Q.Y.[Qing-Yang],
Lyu, Z.L.[Zhen-Lei],
Zhang, D.B.[De-Bin],
Zhang, H.Y.[Hong-Yang],
Wang, R.[Rui],
Dong, J.H.[Jia-Hong],
Liu, Y.Q.[Ya-Qiang],
Yao, R.[Rutao],
He, Z.X.[Zuo-Xiang],
Self-Collimating SPECT With Multi-Layer Interspaced Mosaic Detectors,
MedImg(40), No. 8, August 2021, pp. 2152-2169.
IEEE DOI
2108
Single photon emission computed tomography, Detectors, Photonics,
Sensitivity, Collimators, Scintillators, Image resolution,
system design
BibRef
Hunter, T.J.[Timothy J.],
Joseph, J.J.[Jermiah J.],
Anazodo, U.[Udunna],
Kharche, S.R.[Sanjay R.],
McIntyre, C.W.[Christopher W.],
Goldman, D.[Daniel],
Computational Modelling of the Role of Atrial Fibrillation on Cerebral
Blood Perfusion,
FIMH21(679-686).
Springer DOI
2108
BibRef
Lukas, M.[Mathias],
Kluge, A.[Anne],
Beindorff, N.[Nicola],
Brenner, W.[Winfried],
Accurate Monte Carlo Modeling of Small-Animal Multi-Pinhole SPECT for
Non-Standard Multi-Isotope Applications,
MedImg(40), No. 9, September 2021, pp. 2208-2220.
IEEE DOI
2109
Collimators, Detectors,
Single photon emission computed tomography, Imaging, GATE/GEANT4
BibRef
Ji, X.[Xu],
Feng, M.[Mang],
Treb, K.[Kevin],
Zhang, R.[Ran],
Schafer, S.[Sebastian],
Li, K.[Ke],
Development of an Integrated C-Arm Interventional Imaging System With
a Strip Photon Counting Detector and a Flat Panel Detector,
MedImg(40), No. 12, December 2021, pp. 3674-3685.
IEEE DOI
2112
Imaging, X-ray imaging, Photonics, Detectors, Computed tomography,
Iodine, Image reconstruction, Photon counting detector,
C-arm x-ray systems
BibRef
Zannoni, E.M.[Elena Maria],
Yang, C.[Can],
Meng, L.J.[Ling-Jian],
Design Study of an Ultrahigh Resolution Brain SPECT System Using a
Synthetic Compound-Eye Camera Design With Micro-Slit and Micro-Ring
Apertures,
MedImg(40), No. 12, December 2021, pp. 3711-3727.
IEEE DOI
2112
Single photon emission computed tomography, Apertures, Imaging,
Detectors, Cameras, Spatial resolution, Collimators, Brain SPECT,
solid-state detectors
BibRef
Pan, L.[Lei],
He, Y.H.[Yi-Hui],
Klepov, V.V.[Vladislav V.],
de Siena, M.C.[Michael C.],
Kanatzidis, M.G.[Mercouri G.],
Perovskite CsPbBr3 Single Crystal Detector for High Flux X-Ray Photon
Counting,
MedImg(41), No. 11, November 2022, pp. 3053-3061.
IEEE DOI
2211
Detectors, Photonics, X-ray imaging, Perovskites, Gold, Gamma-rays,
Crystals, Count rate, energy resolution, perovskite CsPbBr3,
X-ray photon counting
BibRef
Xie, H.D.[Hui-Dong],
Liu, Z.[Zhao],
Shi, L.[Luyao],
Greco, K.[Kathleen],
Chen, X.C.[Xiong-Chao],
Zhou, B.[Bo],
Feher, A.[Attila],
Stendahl, J.C.[John C.],
Boutagy, N.[Nabil],
Kyriakides, T.C.[Tassos C.],
Wang, G.[Ge],
Sinusas, A.J.[Albert J.],
Liu, C.[Chi],
Segmentation-Free PVC for Cardiac SPECT Using a Densely-Connected
Multi-Dimensional Dynamic Network,
MedImg(42), No. 5, May 2023, pp. 1325-1336.
IEEE DOI
2305
Single photon emission computed tomography, Imaging,
Image segmentation, Image reconstruction, Kernel, Blood, Photonics,
partial volume correction
BibRef
Shen, L.[Le],
Xing, Y.X.[Yu-Xiang],
Zhang, L.[Li],
Joint Reconstruction and Spectrum Refinement for
Photon-Counting-Detector Spectral CT,
MedImg(42), No. 9, September 2023, pp. 2653-2665.
IEEE DOI
2310
BibRef
Zhang, D.B.[De-Bin],
Lyu, Z.[Zhenlei],
Liu, Y.Q.[Ya-Qiang],
He, Z.X.[Zuo-Xiang],
Yao, R.[Rutao],
Ma, T.Y.[Tian-Yu],
Characterization and Assessment of Projection Probability Density
Function and Enhanced Sampling in Self-Collimation SPECT,
MedImg(42), No. 9, September 2023, pp. 2787-2801.
IEEE DOI
2310
BibRef
Kim, H.[Hanvit],
Li, Z.Y.[Zong-Yu],
Son, J.[Jiye],
Fessler, J.A.[Jeffrey A.],
Dewaraja, Y.K.[Yuni K.],
Chun, S.Y.[Se Young],
Physics-Guided Deep Scatter Estimation by Weak Supervision for
Quantitative SPECT,
MedImg(42), No. 10, October 2023, pp. 2961-2973.
IEEE DOI
2310
BibRef
Jin, Y.F.[Yi-Fei],
Meng, L.J.[Ling-Jian],
Exploration of Coincidence Detection of Cascade Photons to Enhance
Preclinical Multi-Radionuclide SPECT Imaging,
MedImg(43), No. 5, May 2024, pp. 1766-1781.
IEEE DOI
2405
Imaging, Photonics, Single photon emission computed tomography,
Contamination, Detectors, Crosstalk, Collimators, Cascade photons,
SPECT imaging
BibRef
Guo, Z.T.[Zhao-Tong],
Qin, P.[Pinle],
Zeng, J.C.[Jian-Chao],
Chai, R.[Rui],
Wu, Z.F.[Zhi-Fang],
Zhang, J.J.[Jin-Jing],
Qin, J.[Jia],
Jin, Z.X.[Zan-Xia],
Zhao, P.C.[Peng-Cheng],
Wang, Y.X.[Yi-Xiong],
RFLSE: Joint radiomics feature-enhanced level-set segmentation for
low-contrast SPECT/CT tumour images,
IET-IPR(18), No. 10, 2024, pp. 2715-2731.
DOI Link
2408
biomedical imaging, computerised tomography,
image segmentation, level set segmentation, radiomics
BibRef
Caravaca, J.[Javier],
Bobba, K.N.[Kondapa Naidu],
Du, S.X.[Shi-Xian],
Peter, R.[Robin],
Gullberg, G.T.[Grant T.],
Bidkar, A.P.[Anil P.],
Flavell, R.R.[Robert R.],
Seo, Y.[Youngho],
A Technique to Quantify Very Low Activities in Regions of Interest
With a Collimatorless Detector,
MedImg(43), No. 8, August 2024, pp. 2745-2757.
IEEE DOI
2408
Imaging, Detectors, Isotopes, Dosimetry, Photonics, Phantoms, Animals,
Gamma-ray imaging, Actinium-225 imaging,
region-of-interest likelihood fit
BibRef
Chen, X.C.[Xiong-Chao],
Zhou, B.[Bo],
Guo, X.Q.[Xue-Qi],
Xie, H.D.[Hui-Dong],
Liu, Q.[Qiong],
Duncan, J.S.[James S.],
Sinusas, A.J.[Albert J.],
Liu, C.[Chi],
DuDoCFNet: Dual-Domain Coarse-to-Fine Progressive Network for
Simultaneous Denoising, Limited-View Reconstruction, and Attenuation
Correction of Cardiac SPECT,
MedImg(43), No. 9, September 2024, pp. 3110-3125.
IEEE DOI Code:
WWW Link.
2409
Single photon emission computed tomography,
Image reconstruction, Image segmentation, Noise reduction,
multi-task learning
BibRef
Sundar, V.[Varun],
Ardelean, A.[Andrei],
Swedish, T.[Tristan],
Brusschini, C.[Claudio],
Charbon, E.[Edoardo],
Gupta, M.[Mohit],
SoDaCam: Software-defined Cameras via Single-Photon Imaging,
ICCV23(8131-8142)
IEEE DOI
2401
BibRef
Wei, M.[Mian],
Nousias, S.[Sotiris],
Gulve, R.[Rahul],
Lindell, D.B.[David B.],
Kutulakos, K.N.[Kiriakos N.],
Passive Ultra-Wideband Single-Photon Imaging,
ICCV23(8101-8112)
IEEE DOI
2401
Award, Marr Price, ICCV.
BibRef
Gutierrez-Barragan, F.[Felipe],
Mu, F.Z.[Fang-Zhou],
Ardelean, A.[Andrei],
Ingle, A.[Atul],
Bruschini, C.[Claudio],
Charbon, E.[Edoardo],
Li, Y.[Yin],
Gupta, M.[Mohit],
Velten, A.[Andreas],
Learned Compressive Representations for Single-Photon 3D Imaging,
ICCV23(10722-10732)
IEEE DOI
2401
BibRef
Zhang, X.R.[Xi-Rang],
Yang, Y.Y.[Yong-Yi],
Pretorius, P.H.[P. Hendrik],
King, M.A.[Michael A.],
Exploring Anatomical Similarity in Cardiac-Gated SPECT Images for A
Deep Learning Network,
ICIP23(1415-1419)
IEEE DOI
2312
BibRef
Zhang, X.R.[Xi-Rang],
Belloso, Á.[Álvaro],
Yang, Y.Y.[Yong-Yi],
Wernick, M.N.[Miles N.],
Pretorius, P.H.[P. Hendrik],
King, M.A.[Michael A.],
A Study of Deep Learning Networks for Motion Compensation in Cardiac
Gated SPECT Images,
ICIP22(1906-1910)
IEEE DOI
2211
Deep learning, Noise reduction, Imaging, Logic gates,
Network architecture, Motion compensation, VTN
BibRef
Ma, S.[Sizhuo],
Mos, P.[Paul],
Charbon, E.[Edoardo],
Gupta, M.[Mohit],
Burst Vision Using Single-Photon Cameras,
WACV23(5364-5374)
IEEE DOI
2302
Simultaneous localization and mapping, Text recognition,
Heuristic algorithms, Streaming media, Cameras, Task analysis,
image and video synthesis
BibRef
Goyal, B.[Bhavya],
Gupta, M.[Mohit],
Photon-Starved Scene Inference using Single Photon Cameras,
ICCV21(2492-2501)
IEEE DOI
2203
Training, Sensitivity, Lighting, Cameras, Robustness, Sensors,
Task analysis, Computational photography,
Recognition and classification
BibRef
Francis, M.,
Tahtali, M.,
Pickering, M.R.,
Elimination of Central Artefacts of L-SPECT with Modular Partial Ring
Detectors by Shifting Center of Scanning,
DICTA21(1-6)
IEEE DOI
2201
Collimators, Visualization, Transfer functions, Modulation, Imaging,
Detectors, Orbits
BibRef
Liu, J.C.[Jun-Chi],
Yang, Y.Y.[Yong-Yi],
Wernick, M.N.[Miles N.],
Pretorius, P.H.[P. Hendrik],
King, M.A.[Michael A.],
Dose-Blind Denoising With Deep Learning in Cardiac Spect,
ICIP22(1666-1670)
IEEE DOI
2211
BibRef
Earlier:
Accounting for Inter-Subject Variations in Deep Learning for
Reduced-Dose Studies in Cardiac SPECT,
ICIP21(2913-2917)
IEEE DOI
2201
Training, Deep learning, Noise reduction,
Single photon emission computed tomography, Standards,
dose-blind training.
Myocardium, Task analysis, dose reduction
BibRef
Rojas, R.A.[Renán A.],
Luo, W.Y.[Wang-Yu],
Murray, V.[Victor],
Lu, Y.M.[Yue M.],
Learning optimal parameters for binary sensing image reconstruction
algorithms,
ICIP17(2791-2795)
IEEE DOI
1803
Cost function, Image reconstruction,
Maximum likelihood estimation, Reconstruction algorithms,
quanta image sensors
BibRef
Song, C.,
Yang, Y.,
Wernick, M.N.,
Pretorius, P.H.,
King, M.A.,
Reconstruction of respiratory-binned cardiac spect using a robust
smoothing prior,
ICIP17(4123-4127)
IEEE DOI
1803
cardiology, image motion analysis, image reconstruction,
medical image processing, motion compensation, pneumodynamics,
smoothing prior
BibRef
Filippi, M.[Marc],
Desvignes, M.[Michel],
Bozok, A.[Anastasia],
Barone-Rochette, G.[Gilles],
Fagret, D.[Daniel],
Riou, L.[Laurent],
Ghezzi, C.[Catherine],
Joint Segmentation of Myocardium on Rest and Stress Spect Images,
ACIVS16(71-80).
Springer DOI
1611
BibRef
Adhikari, L.,
Marcia, R.F.,
Bounded sparse photon-limited image recovery,
ICIP16(3508-3512)
IEEE DOI
1610
Biomedical imaging
BibRef
Rahman, T.,
Tahtali, M.,
Pickering, M.R.,
Performance Evaluation of a Newly Proposed Novel L-SPECT System for
SPECT Imaging,
DICTA15(1-6)
IEEE DOI
1603
Monte Carlo methods
BibRef
Brahim, A.,
Ramirez, J.,
Gorriz, J.M.,
Khedher, L.,
Applications of Gaussian mixture models and mean squared error within
DatSCAN SPECT imaging,
ICIP14(3617-3621)
IEEE DOI
1502
Accuracy
BibRef
Qi, W.Y.[Wen-Yuan],
Yang, Y.Y.[Yong-Yi],
Ordered spatial subsets for faster reconstruction in SPECT,
Southwest14(5-8)
IEEE DOI
1406
image reconstruction
BibRef
Qi, W.Y.[Wen-Yuan],
Niu, X.F.[Xiao-Feng],
Yang, Y.Y.[Yong-Yi],
Gated cardiac SPECT using different motion models,
ICIP12(1657-1660).
IEEE DOI
1302
BibRef
Earlier:
Optical flow estimation in gated cardiac SPECT,
Southwest12(129-132).
IEEE DOI
1205
BibRef
Earlier:
Effects of piecewise smoothing on cardiac SPECT reconstruction,
ICIP11(457-460).
IEEE DOI
1201
BibRef
Niu, X.F.[Xiao-Feng],
Yang, Y.Y.[Yong-Yi],
Wernick, M.N.[Miles N.],
Cardiac perfusion defect detection using gated dynamic SPECT imaging,
ICIP09(825-828).
IEEE DOI
0911
BibRef
Pedemonte, S.[Stefano],
Bousse, A.[Alexandre],
Hutton, B.F.[Brian F.],
Arridge, S.[Simon],
Ourselin, S.[Sebastien],
Probabilistic Graphical Model of SPECT/MRI,
MLMI11(167-174).
Springer DOI
1109
BibRef
de Paula, L.R.P.[Luis Roberto Pereira],
da Silva dos Santos, C.[Carlos],
Gutierrez, M.A.[Marco Antonio],
Hirata, R.[Roberto],
An Open-Source Medical Image Processing and Visualization Tool to
Analyze Cardiac SPECT Images,
ISVC11(II: 659-668).
Springer DOI
1109
BibRef
Ciecholewski, M.[Marcin],
Support Vector Machine Approach to Cardiac SPECT Diagnosis,
IWCIA11(432-443).
Springer DOI
1105
BibRef
Yang, B.H.[Bang-Hung],
Wang, S.J.[Shyh-Jen],
Chou, Y.H.[Yuan-Hwa],
Chen, J.C.[Jyh-Cheng],
Simultaneous Dual-Isotope SPECT Imaging Using Independent Component
Analysis Based on Wavelet Transformation: Wavelet Based Dual-Isotope
SPECT Imaging Using ICA Analysis,
CISP09(1-3).
IEEE DOI
0910
BibRef
Li, H.[Heng],
Zheng, Y.B.[Yi-Bin],
Blind Deblurring Reconstruction Technique with Applications in SPECT
Imaging,
ICIP06(905-908).
IEEE DOI
0610
BibRef
Benameur, S.,
Mignotte, M.,
Soucy, J.P.,
Meunier, J.,
Spect image restoration via Recursive Inverse Filtering constrained by
a probabilistic MRI atlas,
ICIP08(2984-2987).
IEEE DOI
0810
BibRef
Earlier:
An Edge-Preserving Anatomical-Based Regularization Term for the Nas-Rif
Restoration of SPECT Images,
ICIP06(1177-1180).
IEEE DOI
0610
BibRef
Toennies, K.D.,
Prang, C.,
Celler, A.,
Local identification and removal of scatter artifacts based on the
temporal information in dynamic SPECT images,
ICPR04(III: 762-765).
IEEE DOI
0409
BibRef
Chapter on Medical Applications, CAT, MRI, Ultrasound, Heart Models, Brain Models continues in
Optical Tomography, Infrared Tomography .