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    Holoscopic 3D image rendering for Autostereoscopic Multiview 3D Display

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    Authors
    Swash, M.R.
    Aggoun, Amar
    Fatah, O. Abdul
    Li, B.
    Fernandez, Juan C. J.
    Tsekleves, Emmanuel
    Affiliation
    Brunel University
    University of Bedfordshire
    Issue Date
    2013-06
    Subjects
    2D-plus-depth
    3D
    autostereoscopic
    display
    holoscopic
    integral image
    lenticular
    rendering
    stereoscopic
    autostereoscopic 3D displays
    holoscopic 3D display
    holoscopic 3D imaging
    rendering (computer graphics)
    stereo image processing
    visual perception
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    Abstract
    The Autostereoscopic Multiview 3D Display is robustly developed and widely adopted by both home and professional users however Multiview 3D content generation remains a great challenge. This paper proposes a novel method for Multiview 3D content generation and it describes the necessary steps for Holoscopic 3D image rendering for autostereoscopic Multiview 3D display. The Holoscopic imaging technology mimics the imaging system of insects, such as the fly, utilizing a single camera, equipped with a large number of micro-lenses, to capture a scene, offering rich parallax information and enhanced 3D feeling without the need of wearing specific eyewear. In addition a 3D pixel mapping/conversion algorithm has been developed that is supported by the Multiview 3D display.
    Citation
    Swash, M.R., Aggoun, A., Abdulfatah, O., Li, B., Fernandez, J.C., Tsekleves, E. (2013) 'Holoscopic 3D image rendering for Autostereoscopic Multiview 3D Display,' Broadband Multimedia Systems and Broadcasting (BMSB), 2013 IEEE International Symposium. London, 5-7 June.
    Publisher
    IEEE
    URI
    http://hdl.handle.net/10547/334811
    DOI
    10.1109/BMSB.2013.6621683
    Additional Links
    http://ieeexplore.ieee.org/lpdocs/epic03/wrapper.htm?arnumber=6621683
    Type
    Conference papers, meetings and proceedings
    Language
    en
    ISSN
    2155-5044
    Sponsors
    This work was supported by European Commission under FP7-ICT-2009-4 (3DVIVANT).
    ae974a485f413a2113503eed53cd6c53
    10.1109/BMSB.2013.6621683
    Scopus Count
    Collections
    Centre for Computer Graphics and Visualisation (CCGV)

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