Computer generated content for 3D TV

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dc.AffiliationOctober University for modern sciences and Arts (MSA)
dc.contributor.authorEljdid M.G.
dc.contributor.authorAggoun A.
dc.contributor.authorYoussef O.H.
dc.contributor.otherSchool of Engineering and Design
dc.contributor.otherBrunel University
dc.contributor.otherUxbridge
dc.contributor.otherUB8 3PH
dc.contributor.otherUnited Kingdom; Faculty of Computer Sciences
dc.contributor.otherOctober University for Modern Sciences and Arts
dc.contributor.otherCairo
dc.contributor.otherEgypt
dc.date.accessioned2020-01-25T19:58:34Z
dc.date.available2020-01-25T19:58:34Z
dc.date.issued2007
dc.descriptionScopus
dc.description.abstractMixed content is a primary feature of current TV program making and consequently real-time computer generated video in autostereoscopic format is important if 3D TV is going to make an impact. In this paper, an approach for computer generating 3D integral imaging frames is proposed. The method is based on a 3D integral imaging ray-tracer containing 3D integral imaging parser, 3D camera model, and a 3D integral imaging renderer.en_US
dc.description.sponsorshipEURASIP;MPEG IF;Hindawi;Elsevieren_US
dc.identifier.doihttps://doi.org/10.1109/3DTV.2007.4379381
dc.identifier.isbn1424407222; 9781424407224
dc.identifier.otherhttps://doi.org/10.1109/3DTV.2007.4379381
dc.identifier.urihttps://ieeexplore.ieee.org/document/4379381
dc.language.isoEnglishen_US
dc.relation.ispartofseriesProceedings of 3DTV-CON
dc.subject3D TVen_US
dc.subjectComputer graphicsen_US
dc.subjectIntegral imagingen_US
dc.subjectComputational geometryen_US
dc.subjectComputer graphicsen_US
dc.subjectDigital televisionen_US
dc.subjectTelevision broadcastingen_US
dc.subject3D camerasen_US
dc.subject3d integral imagingen_US
dc.subject3D TVen_US
dc.subjectAutostereoscopicen_US
dc.subjectIntegral imagingen_US
dc.subjectTv programsen_US
dc.subjectThree dimensionalen_US
dc.titleComputer generated content for 3D TVen_US
dc.typeConference Paperen_US
dcterms.isReferencedByMotoki, T., Isono, H., Yuyama, I., Present status of threedimensional television research (1995) Proc. IEEE, 83, pp. 1009-1021; Lippmann, G., Eppreuves Reversibles Donnat Durelief (1908) J. Phys. Paris, 821; Davies, N., et., al., Three-dimensional imaging systems: A new development (1988) Appl. Optics, 27, pp. 4520-4528; Monaleche, S., Aggoun, A., McCormick, A., Davies, N., Kung, S.Y., Analytical model of a 3d recording camera system using circular and hexagonal based spherical microlenses (2001) J. Opt. Soc. Am. A, 18 (8), pp. 1814-1821; Okano, F., Hoshino, H., Arai, J., Yuyama, I., Real-time pickup method for a three-dimensional image based on integral photography (1997) Apply Optical, 36, pp. 1598-1604; (2002) Three-dimensional television, video, and display technologies, , B. Javidi and F. Okano, eds, Springer, New York; Y. A. Dudnikov, Autostereos copy and integral photography Sov. J. Opt. Tech. 37(7), pp. 422-426,l 1970; Sung-Wook Min et al, Three-dimensional display system based on computer-generated integral photography, Stereoscopic Display and Virtual Reality Systems VIII, A. J. Woods; M.T. Bolas; J. O. Merritt and S. A. Benton, 4297, pp 187-195, SHE, 2001; Naemura, T., 3-D computer graphics based on the integral photography (2001) Optics Express, 8, pp. 255-262; Ren, J., Aggoun, A., McCormick, M., Computer generation of integral 3D images with maximum effective viewing angle (2005) Journal of Electronic Imaging, 14; Youssef, O., Aggoun, A., Wolf, W., McCormick, M., Pixels Grouping and Shadow Cache for Faster Integral 3D Ray-Tracing (2002) The proceedings of Electronic Imaging, , SPIE
dcterms.sourceScopus

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