Abstract

This paper seeks to explore a method to accurately correct geometric distortions caused during the capture of three-dimensional (3-D) integral images. Such distortions are rotational and scaling errors which, if not corrected, will cause banding and moire effects on the replayed image. The method for calculating the angle of deviation in the 3-D Integral Images is based on Hough Transform. It allows detection of the angle necessary for correction of the rotational error. Experiments have been conducted on a number of 3-D integral image samples and it has been found that the proposed method produces results with accuracy of 0.05 deg.

© 2006 IEEE

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2005 (7)

N. A. Dodgson, "Autostereoscopic 3D displays," IEEE Computer 38, 31-36 (2005).

R. Martinez-Cuenca, G. Saavedra, M. Martinez-Corral, B. Javidi, "Extended depth-of-field 3-D display and visualization by combination of amplitude-modulated microlenses and deconvolution tools," J. Display Technol. 1, 321-327 (2005).

M. Martínez-Corral, B. Javidi, R. Martínez-Cuenca, G. Saavedra, "Formation of real, orthoscopic integral images by smart pixel mapping," Opt. Expr. 13, 9175-9180 (2005).

J. Ren, A. Aggoun, M. McCormick, "Computer generation of integral 3D images with maximum effective viewing angle," J. Electron. Ima.g 14, (2005).

C. Wu, A. Aggoun, M. McCormick, S. Y. Kung, "3D object reconstruction from unidirectional integral images using a modified multi-baseline disparity analysis," J. Electron. Imag. 14, (2005).

K. Mayasandra, "A distributed arithmetic hardware architecture for real-time Hough transform based segmentation," Can. J. Elect. Comput. Eng. 30, (2005).

S. V. Vladimir, J.-Y. Son, B. Javidi, S.-K. Kim, D.-S. Kim, "Moire minimization condition in three-dimensional image displays," J. Display Technol. 1, 347-353 (2005).

2004 (1)

J. S. Jang, B. Javidi, "Time-multiplexed integral imaging," Opt. Photon. News 36-43 (2004).

2003 (1)

S. Manolache, S. Y. Kung, M. McCormick, A. Aggoun, "3D-object space reconstruction from planar recorded data of 3D-integral images," J. VLSI Signal Process. 35, 5-18 (2003).

2002 (1)

R. Zaharia, A. Aggoun, M. McCormick, "Adaptive 3D-DCT compression algorithm for continuous parallax 3D integral imaging," J. Signal Process.: Image Commun. 17, 231-242 (2002).

2001 (1)

S. Monaleche, A. Aggoun, A. McCormick, N. Davies, S. Y. Kung, "Analytical model of a 3d recording camera system using circular and hexagonal based spherical microlenses," J. Opt. Soc. Amer. A 18, 1814-1821 (2001).

1997 (1)

1995 (1)

T. Motoki, H. Isono, I. Yuyama, "Present status of three-dimensional television research," Proc. IEEE 83, 1009-1021 (1995).

1994 (1)

N. Davis, M. McCormick, M. Brewin, "Design and analysis of an image transfer system using microlens arrays," Opt. Eng. 33, 3624-3633 (1994).

1988 (1)

1908 (1)

G. Lippmann, "Eppreuves reversibles Donnat Durelief," J. Phys. Paris 821, (1908).

J. Display Technol. (1)

R. Martinez-Cuenca, G. Saavedra, M. Martinez-Corral, B. Javidi, "Extended depth-of-field 3-D display and visualization by combination of amplitude-modulated microlenses and deconvolution tools," J. Display Technol. 1, 321-327 (2005).

Appl. Opt. (2)

Can. J. Elect. Comput. Eng. (1)

K. Mayasandra, "A distributed arithmetic hardware architecture for real-time Hough transform based segmentation," Can. J. Elect. Comput. Eng. 30, (2005).

IEEE Computer (1)

N. A. Dodgson, "Autostereoscopic 3D displays," IEEE Computer 38, 31-36 (2005).

J. Electron. Imag. (1)

C. Wu, A. Aggoun, M. McCormick, S. Y. Kung, "3D object reconstruction from unidirectional integral images using a modified multi-baseline disparity analysis," J. Electron. Imag. 14, (2005).

J. Signal Process.: Image Commun. (1)

R. Zaharia, A. Aggoun, M. McCormick, "Adaptive 3D-DCT compression algorithm for continuous parallax 3D integral imaging," J. Signal Process.: Image Commun. 17, 231-242 (2002).

J. Display Technol. (1)

J. Electron. Ima.g (1)

J. Ren, A. Aggoun, M. McCormick, "Computer generation of integral 3D images with maximum effective viewing angle," J. Electron. Ima.g 14, (2005).

J. Opt. Soc. Amer. A (1)

S. Monaleche, A. Aggoun, A. McCormick, N. Davies, S. Y. Kung, "Analytical model of a 3d recording camera system using circular and hexagonal based spherical microlenses," J. Opt. Soc. Amer. A 18, 1814-1821 (2001).

J. Phys. Paris (1)

G. Lippmann, "Eppreuves reversibles Donnat Durelief," J. Phys. Paris 821, (1908).

J. VLSI Signal Process. (1)

S. Manolache, S. Y. Kung, M. McCormick, A. Aggoun, "3D-object space reconstruction from planar recorded data of 3D-integral images," J. VLSI Signal Process. 35, 5-18 (2003).

Opt. Expr. (1)

M. Martínez-Corral, B. Javidi, R. Martínez-Cuenca, G. Saavedra, "Formation of real, orthoscopic integral images by smart pixel mapping," Opt. Expr. 13, 9175-9180 (2005).

Opt. Eng. (1)

N. Davis, M. McCormick, M. Brewin, "Design and analysis of an image transfer system using microlens arrays," Opt. Eng. 33, 3624-3633 (1994).

Opt. Photon. News (1)

J. S. Jang, B. Javidi, "Time-multiplexed integral imaging," Opt. Photon. News 36-43 (2004).

Proc. IEEE (1)

T. Motoki, H. Isono, I. Yuyama, "Present status of three-dimensional television research," Proc. IEEE 83, 1009-1021 (1995).

Other (5)

T. Okoshi, Three-Dimensional Imaging Techniques (Academic, 1976).

Selected Papers on Three Dimensional Displays (SPIE Optical Eng., 2001).

Three-Dimensional Television, Video, and Display Technologies (Springer, 2002).

E. R. Davies, Machine Vision, Theory, Algorithms, Practicalities (Academic, 1997).

M. C. Forman, A. Aggoun, "Quantisation strategies for 3D_DCT based compression of full parallax 3D images," IEE IPA97 (1997) Conf. Pub. No. 443.

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