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Bibliography

1: R. Acar and C.R. Vogel.
Analysis of bounded variation penalty methods for ill-posed problems.
Inverse Problems, 10(6):1217-1229, 1994.
2: L.E. Adam, J. Zaers, H. Ostertag, H. Trojan, M.E. Bellemann, G. Brix, and W.J. Lorenz.
Performance evaluation of the whole-body pet scanner ECAT EXACT HR+.
In IEEE Nuclear Science Symposium, volume 2, pages 1270-1274. IEEE, November 1996.
3: A.N.Tikhonov and V.Y.Arsenin.
Solution of ill posed linear problems.
V.H. Winston and Sons, 1977.
4: M.J. Antoine.
Méthodologie de la détection individuelle d'activations cérébrales en TEP: Caractérisation statistique des images de bruit et introduction d'information anatomique.
PhD thesis, Université de Caen, Octobre 1996.
5: B.A. Ardekani., M. Braun., B.Hutton., and I. Kanno.
Quantification of brain function using PET., chapter 23, pages 113-117.
Academic Press, Inc., 1996.
6: G. Aubert, M.Barlaud, and P. Charbonnier.
Theorem for edge-preserving in computed imaging.
IEEE Trans. Image. Processing.(Submitted), 1994.
7: J.S. Barney, J.G. Rogers, R. Harrop, and H. Hoverath.
Object shape dependent scatter simulation for PET.
IEEE Trans. Nucl. Sci., 38(2):719-725, 1991.
8: F.J. Beekman, E.G.J. Eijkman, M.A. Viergever, G.F. Borm, and E.T.P. Slijpen.
Object shape dependent PSF model for SPECT imaging.
IEEE Trans. Nucl. Sci., 40:31-39, 1993.
9: B. Bendriem.
Effet de la diffusion Compton sur la quantification des données en TEP avec temps de vol.
PhD thesis, Institut National Polytechnique de Grenoble, 1985.
10: S.C. De Benedeti.
On the angular distance of two photons annihilation radiation.
Phys. Rev., 77:205-212, 1950.
11: M. Bergström, L. Eriksson, C. Bohm, G. Blomqvist, and J. Litton.
Correction for scattered radiation in a ring detector positron camera by integral transformation of the projections.
J. Comput. Assist. Tomogr., 7(1):42-50, 1983.
12: A. Blake and A. Zisserman.
Visual reconstruction.
Press series in artificial intelligence, 1987.
13: F. Bouchet.
Etude comparative et implémentation de méthodes de reconstruction d'images pour la TEP: intérêt de la prise en compte d'information a priori.
PhD thesis, Université de Caen, Septembre 1996.
14: C. Bouman and K. Sauer.
A generalized gaussian image model for edge-preserving MAP estimation.
IEEE Trans. Image. Processing., 2(3):296-310, July 1993.
15: R. Campagnolo.
Utilisation de la technique de temps de vol pour l'amélioration de l'imagerie en tomographie par positons.
PhD thesis, Institut National Polytechnique de Grenoble, 1980.
16: M.T. Chan, G.T. Herman, and E. Levitan.
A bayesian approach to PET reconstruction using image modeling gibbs priors: Implementation and comparison.
IEEE Trans. Nucl. Sci., 44(3):1347-1354, jume 1997.
17: P. Charbonnier.
Reconstruction d'images : régularisation avec prise en compte des discontinuités.
PhD thesis, Université de Nice-Sophia Antipolis, Septembre 1994.
18: Z.H. Cho, C.M. Chen, and S.Y. Lee.
Incremental algorithm. a new fast backprojection scheme for parallel beam geometries.
IEEE Trans. Med. Imaging., 9(2):207-217, June 1990.
19: J.J. Clark, M.R. Palmer, and P.D. Lawrence.
A transformation method for the reconstruction of functions from nonuniformly spaced samples.
IEEE Trans. Acoust. Speech. Signal. Processing., ASSP-33(4):1151-1165, october 1985.
20: J. Clément.
Reconstruction d'images en TEP. etude de l'algorithme de rétroprojection.
Master's thesis, Université de Caen. GREYC, October 1995.
21: J.G. Colsher.
Fully three-dimensional positron emission tomography.
Phys. Med. Biol., 25(1):103-115, 1980.
22: CRAY Research, inc.
CF77 Optimization Guide (SG-3773), 1994.
23: CRAY Research, inc.
Unicos Performance Utilities. Reference Manual (SR-2040), 1994.
24: M. Dahlbom, D.C. Yu, S.R. Cherry, A.Chatziioannou, and E.J. Hoffman.
Methods for improving image quality in whole body PET scanning.
IEEE Trans. Nucl. Sci., 39(4):1079-1083, 1992.
25: M.E. Daube-Witherspoon and G.Muehllehner.
Treatment of axial data in three-dimensional PET.
J. Nucl. Med., 28:1717-1724, 1987.
26: M. Defrise.
A factorization method for the 3D x-ray transform.
Inverse Problems, 11:983-994, 1995.
27: M. Defrise, A. Geissbuhler, and D.W. Townsend.
A performance study of 3D reconstruction algorithms for positron emission tomography.
Phys. Med. Biol., 39:305-320, 1994.
28: M. Defrise, P.E. Kinahan, and D.W. Townsend.
A new rebinning algorithm for 3D PET : Principle, implementation and performance.
In International Meeting on fully 3D image reconstruction in Radiology and Nuclear Medicine. IEEE, 1995.
29: M. Defrise, P.E. Kinahan, D.W. Townsend, C. Michel, M. Sibomana, and D.F. Newport.
Exact and approximate rebinning algorithms for 3-D PET data [in process citation].
IEEE Trans. Med. Imaging., 16(2):145-58, Apr 1997.
30: M. Defrise, D. W. Townsend, and R. Clack.
Three-dimensional image reconstruction from complete projections.
Phys. Med. Biol., 34(5):573-587, 1989.
31: A.P. Dempster, N.M. Laird, and D.B. Rubin.
Maximum likelihood from incomplete data via the EM algorithm.
Roy. J. Statis. Soc., 39:1-38, 1977.
32: S.E. Derenzo, H. Zaklad, and T.F. Budinger.
Analytical study of a high resolution positron ring detector system for transaxial reconstruction tomography.
J. Nucl. Med., 16(12):1166-1173, 1975.
33: M. Egger.
Fast Volume reconstruction in Positron Emission Tomography.
PhD thesis, Université de Lausanne, Mai 1996.
34: J.A. Fessler.
Penalized weighted least-squares image reconstruction for positron emission tomography.
IEEE Trans. Med. Imaging., 13(2):290-300, june 1994.
35: A.R. Formiconi, A. Pupi, and A. Passeri.
Compensation of spatial system response in SPECT with conjugate gradient reconstruction technique.
Physics in Medicine and Biology, 34:69-84, 1989.
36: D. Geman and C. Yang.
Nonlinear image recovery with half-quadratic regularization and FFT's.
preprint, march 1993.
37: S. Geman and D.E.McGlure.
Bayesian image analysis : an application to single photon emission tomography.
In Proc. Statist. Comput. Sect., pages 12-18, Washington, D.C., 1985. Amer. Statist. Assoc.
38: S. Geman and D. Geman.
Stochastic relaxation, gibbs distributions, and the bayesian restoration of images.
IEEE Trans. Pattern. Anal. Machine. Intell., PAMI-6(6):721-741, november 1984.
39: S. Geman and G. Reynolds.
Constrained restoration and the recovery of discontinuities.
IEEE Trans. Pattern. Anal. Machine. Intell., 14(3):367-383, march 1992.
40: G.H. Golub and C.F. Van Loan.
Matrix Computations.
Johns Hopkins University Press, 1993.
41: P.J. Green.
Bayesian reconstructions from emission tomography data using a modified EM algorithm.
IEEE Trans. Med. Imaging., 9(1):84-93, march 1990.
42: T. Hebert. and R. Leahy.
A generalized EM algorithm for 3D bayesian reconstruction frm poisson data using gibbs priors.
IEEE Trans. Med. Imaging., 8(2):194-202, 1989.
43: G.T. Herman and L.B. Meyer.
Algebraic reconstruction techniques can be made computationally efficient.
IEEE Trans. Med. Imaging., 12(3):600-609, September 1993.
44: M.R. Hestenes and E. Stiefel.
Methods of conjugate gradients for solving linear systems.
J. Res. Nat. Bur. Stand., 49:409-436, 1952.
45: E.J. Hoffman and M.E. Phelps.
An analysis of some physical aspects of positron transaxial tomography.
Comput. biol. med., 6:345-360, 1976.
46: S.C. Huang, E.J. Hoffman, M.E. Phelps, and D.E. Kuhl.
Quantitation in positron emission comuted tomography:2. effects of inaccurate attenuation correction.
J. Comput. Assist. Tomogr., 3:804-814, 1979.
47: W.F. Jones, L.G. Byars, and M.E. Casey.
Design of a super fast three dimensional projection system for positron emission tomography.
IEEE Trans. Nucl. Sci., 37:800-804, April 1990.
48: D.J. Kadrmas, E.C. Frey, and B.M.W. Tsui.
An SVD investigation of modeling scatter in multiple energy windows for improved SPECT images;.
IEEE Trans. Nucl. Sci., 43(4):2275-2284, 1996.
49: K. Kearfott, L. Caroll, and al.
PET attenation correction using retroprojection of measured transmission data.
J. Nucl. Med., 25:47, 1984.
50: P.E. Kinahan and J.S. Karp.
Figures of merite for comparing reconstruction algorithms with a volume-imaging PET scanner.
Phys. Med. Biol., 39:631-642, 1994.
51: P.E. Kinahan and J.G. Rogers.
Analytic 3D image reconstruction using all detected events.
IEEE Trans. Nucl. Sci., 36(1):964-968, 1990.
52: P.M. Koulibaly.
Régularisation et correction physiques en tomographie d'emission.
PhD thesis, Université de Nice-Sophia Antipolis, Octobre 1996.
53: D.S. Lalush and B.M.W. Tsui.
Simulation evaluation of gibbs prior distributions for use in maximum a posteriori SPECT reconstructions.
IEEE Trans. Med. Imaging., 11(2):267-275, june 1992.
54: K. Lange.
Convergence of EM image reconstruction algorithms with gibbs smoothing.
IEEE Trans. Med. Imaging., 9(4):439-446, december 1990.
55: K. Lange and R. Carson.
EM reconstruction algorithms for emission and transmission tomography.
J. Comput. Assist. Tomogr, 8(2):306-16, Apr 1984.
56: J.F. Lecomte.
Reconstruction d'images TEP par inversion directe.
Master's thesis, Université de Rennes I, 1995.
57: S. Legoupil.
Tomographie d'emission gamma à partir d'un nombre limité de détecteurs, appliquée à la visualisation d'écoulements.
PhD thesis, Université de Caen, Janvier 1997.
58: D.H. Lehmer.
Mathematical methods in large scale computing units.
Harvard University Press, Cambridge, 1951.
59: M.J. Lercher and K. Wienhard.
Scatter correction in 3D PET.
IEEE Trans. Med. Imaging., 13(4):649-657, 1994.
60: E. Levitan and G.T. Herman.
A maximum a posteriori probability expectation maximisation algorithm for image reconstruction in emission tomography.
IEEE Trans. Med. Imaging., 6(3):185-191, september 1987.
61: R.M. Lewitt.
Multidimensional digital image representations using Kaiser-Bessel window functions.
J. Opt. Soc. Am., pages 1834-1846, 1990.
62: R.M. Lewitt.
Alternatives to voxels for image representation in iterative reconstruction algorithms.
Phys. Med. Biol., 37(3):705-716, 1992.
63: R.M. Lewitt, G. Muehllehner, and J.S. Karp.
Three-dimensional image reconstruction for PET by multi-slice rebinning and axial image filtering.
Phys. Med. Biol., 39:321-339, 1994.
64: J. Mas, F. Abi-Ayad, R. Ben Younes, A. Pousse, and R. Bidet.
Fantøme numérique et simulation de monte-carlo.
Médecine Nucléaire, 19:5-19, 1995.
65: B.T.A. McKee, A.T. Gurvey, P.J. Harvey, and D.C. Howse.
A deconvolution scatter correction for a 3D PET system.
IEEE Trans. Med. Imaging., 11(4):560-569, 1992.
66: F. Natterer.
The mathematics of computerized Tomography.
Wiley, 1986.
67: K. Ogawa, Y. Harata, T. Ichihara, A. Kubo, and S. Hashimoto.
A practical method for position dependent compton scatter correction in SPECT.
IEEE Trans. Med. Imaging., 10(3):408-412, 1991.
68: K. Ogawa and S. Maeda.
A Monte Carlo method using octree structure in photon and electron transport.
IEEE Trans. Nucl. Sci., 42(6):2322-2326, 1995.
69: J.M. Ollinger.
Model-based scatter correction for fully 3D PET.
Phys. Med. Biol., 41:153-176, 1996.
70: S.S. Orlov.
Theory of three-dimensional reconstruction.
Sov. Phys. Crystallogr., 20(3):312-432, 1975.
71: H. Ostertag, W.K. Kübler, J. Doll, and W.J. Lorenz.
Measured attenuation correction methods.
Eur. J. Nucl. Med., 15:722-726, 1989.
72: X. Ouyang, W.H. Wong, V.E. Johnson, X. Hu, and C.T. Chen.
Incorporation of correlated structural images in PET image reconstruction.
IEEE Trans. Med. Imaging., 13(4):627-640, 1994.
73: Colombino P, B. Fiscella, and L. Trossi.
Study of positronium in water and ice from 22 to -144C by annihilation quanta measurement.
Il nuovo cimento, 38(2):707-723, 1965.
74: A.M.J Paans and D.W. Lamotte.
Sensitivity and cross calibration.
Eur. J. Nucl. Med., 15:756-760, 1989.
75: S.X. Pan and A.C. Kak.
A computational study of reconstruction algorithms for diffraction tomography: Interpolation versus filtered backprojection.
31:1262-1275, 1983.
76: E. Paraf.
Modélisation par la méthode de Monte-Carlo du dispositif de détection pour une caméra à positons.
PhD thesis, Institut National Polytechnique de Grenoble, 1994.
77: P. Perona and J. Malik.
Scale-space and edge detection using anisotropic diffusion.
IEEE Trans. Pattern. Anal. Machine. Intell., 12(7):629-639, july 1990.
78: T.M. Peters.
Algorithms for fast back- and re-projection in computed tomography.
IEEE Trans. Nucl. Sci., 28(4):3641-3647, August 1981.
79: W.H. Press, S.A. Teulosky, W.T. Vetterling, and B.P. Flannery.
Numerical Recipes in C, The art of scientific computing.
Cambridge Univerity Press, second edition edition, 1992.
80: A. Reilhac.
Simulation réaliste d´images tep. validation sur tomographe 3D.
Master's thesis, ESIREM, June 1997.
81: R.W. Rowe and S. Dai.
A pseudo-poisson noise model for simulation of positron emission tomographic projection data.
Med. Phys., 19(4):1113-9, Jul-Aug 1992.
82: R.R. Schultz and R.L. Stevenson.
Stochastic modeling and estimation of multispectral image data.
IEEE Trans. Image. Processing.(submitted), 1993.
83: L. Shao and J. S. Karp.
Cross-plane scattering correction-point source deconvolution in PET.
IEEE Trans. Med. Imaging., 10(3):234-239, 1991.
84: L.A. Shepp and B. Logan.
The Fourier reconstruction of a head section.
IEEE Trans. Nucl. Sci., 21:21-43, 1974.
85: M.F. Smith, C.E. Floyd, R.J. Jaszczak, and R.E. Coleman.
Reconstruction of SPECT images using generalized matrix inverses.
IEEE Trans. Med. Imaging., 11(2):165-175, 1992.
86: J. Spinks, R. Guzzardi, and C.R. Bellina.
Measurement of resolution and recovery in recent generation positron tomgraphs.
Eur. J. Nucl. Med., 15:750-755, 1989.
87: H. Stark, J.W. Woods ans I. Paul, and R. Hingorani.
An investigation of computerized tomography by direct fourier inversion and optimum interpolation.
IEEE Trans. Biomed. Eng., BME-28:495-505, 1981.
88: H. Stark, J.W. Woods, I. Paul, and R. Hingorani.
Direct fourier reconstruction in computer tomography.
IEEE Trans. Acoust. Speech. Signal Processing., 29:237-245, 1981.
89: C.W. Stearns, D.A. Chesler, and G.L. Brownell.
Three-dimensional reconstruction in the Fourier domain.
IEEE Trans. Nucl. Sci., 36:374-378, 1987.
90: C.W. Stearns, D.A. Chesler, and G.L. Brownell.
Accelerated image reconstruction for a cylindrical positron tomograph using Fourier domain methods.
IEEE Trans. Nucl. Sci., 37:773-777, 1990.
91: C.W. Stearns and D.C. Wack.
A noise equivalent counts approach to transmission imaging and source design.
IEEE Trans. Med. Imaging., 12(2):287-292, june 1993.
92: O.N. Strand.
Theory and methods related to the singular function expansion and Landweber's iteration for integral equations of the first kind.
SIAM J. Num. Anal., 11(4):798-825, 1974.
93: S.C. Strother, M.E. Casey, and al.
Measuring PET scanner sensitivity relating count rates to image signal to noise ratios using noise equivalent counts.
IEEE Trans. Nucl. Sci., 37:783-788, 1990.
94: J.O. Sullivan.
A fast sinc function gridding algorithm for fourier inversion in computer tomograph.
IEEE Trans. Med. Imaging., MI-4(4):200-207, december 1985.
95: M.M. Ter-Pogossian, M.E Phelps, and al.
A positron emission transaxial tomograph for nuclear imaging (PETT).
Radiology, 114:89-98, 1975.
96: C.J. Thomson and T.M. Peters.
A fractionnal adress accumulator for fast backprojection.
IEEE Trans. Nucl. Sci., 28(4):3648-3650, August 1981.
97: Y. Vardi, A. Shepp, and L. Kaufman.
A statistical model for positron emission tomography.
J. Amer. Stat. Assoc., 80:8-37, 1985.
98: C.C. Watson, D. Newport, and M.E. Casey.
A single scatter simulation technique for scatter correction in 3D PET.
In International Meeting on fully 3D image reconstruction in Radiology and Nuclear Medicine. IEEE, 1995.
99: R.P. Woods, S.R. Cherry, and J.C. Mazziota.
MRI-PET registration with automated algorithm.
Journal of Computer assisted Tomography, 16(4):620-633, 1992.
100: R.P. Woods, J.C. Mazziota, and S.R. Cherry.
Mri-pet registration with automated algorithm.
J. Comput. Assist. Tomogr., 17(4):536-546, 1993.
101: Z.H.Cho and al.
Positron range obtained from biomedically important positron emitting radionuclides.
J. Nucl. Med., 16(12):1174-1176, 1975.

Lecomte Jean François 2002-09-07