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Open Access 3D Autostereoscopic Display Image Generation Framework using Direct Light Field Rendering

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The rapid development of 3D display technologies allows consumers to enjoy the 3D world visually through different display systems such as the stereoscopic, multiview, and light field displays. Despite the hype of 3D display development, 3D contents for various display systems are very insufficient and the most of 3D contents are only stereo sequences for stereoscopic 3D. To handle with the lack of 3D contents for various display systems, various 3D display images are generated by stereo sequences. Howver, the conventional 3D display rendering algorithm suffers from increased computational complexity and memory usage with the increasing number of view in 3D displays to achieve a sufficient level of reality. This paper proposes an efficient method to generate 3D display images by 3D direct light field rendering. We propose new 3D image generation algorithm for hole filling, boundary matting, and postprocessing from common stereo input images.
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Document Type: Research Article

Publication date: 14 February 2016

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  • For more than 30 years, the Electronic Imaging Symposium has been serving those in the broad community - from academia and industry - who work on imaging science and digital technologies. The breadth of the Symposium covers the entire imaging science ecosystem, from capture (sensors, camera) through image processing (image quality, color and appearance) to how we and our surrogate machines see and interpret images. Applications covered include augmented reality, autonomous vehicles, machine vision, data analysis, digital and mobile photography, security, virtual reality, and human vision. IS&T began sole sponsorship of the meeting in 2016. All papers presented at EIs 20+ conferences are open access.

    Please note: For purposes of its Digital Library content, IS&T defines Open Access as papers that will be downloadable in their entirety for free in perpetuity. Copyright restrictions on papers vary; see individual paper for details.

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