Implementation of Grangeat Algorithm for Cone Beam Computerized Tomography Based on Reverse Geometry

[in Chinese]; [in Chinese]; [in Chinese]

Acta Optica Sinica, Volume. 22, Issue 10, 1187(2002)

[in Chinese]^1、*, [in Chinese]¹, and [in Chinese]²

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¹[in Chinese]

²[in Chinese]

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References(7)

[2] [2] Albert R D, Albert T M. Aerospace application of X-ray system using reverse geometry. Materials Evaluation, 1993, 51(2):1350～1352

[3] [3] Wojcik R, Majewski S. Medical imaging with reverse geometry X-radiography. Proc. SPIE, 1994, 2163:73～80

[4] [4] Smith B D. Cone-beam tomography:Recent advances and a tutorial review. Opt. Engng., 1990, 29(5):524～534

[5] [5] Grangeat P. Mathematical framework of cone beam 3D reconstruction via the first derivative of the radon transform. Lecture Notes in Mathematics 1497. Mathematical Methods in Tomography. Berlin: Spring-Verlag, 1991. 66～97

[6] [6] Zeng G L, Gullberg G T. A cone beam tomography algorithm for orthogonal circle-and-line orbit. Phys. Med. Biol., 1992, 37(3):563～567

[7] [7] Kudo H, Saito T. Feasible cone beam scanning methods for exact reconstruction in three dimension. J. Opt. Soc. Am. (A), 1990, 7(12):2169

[10] [10] Natterer F. The Mathematics of Computerized Tomography. New York: Wiley, 1986

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[in Chinese], [in Chinese], [in Chinese]. Implementation of Grangeat Algorithm for Cone Beam Computerized Tomography Based on Reverse Geometry[J]. Acta Optica Sinica, 2002, 22(10): 1187

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Paper Information

Category: Fourier optics and signal processing

Received: Jun. 22, 2001

Accepted: --

Published Online: Aug. 8, 2006

The Author Email: (ludhui@citiz.net)

DOI:

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology