3D Multi-view Autostereoscopic Display and Its Key Technologie
Y. Zhu, and T. Zhen. Information Processing, 2009. APCIP 2009. Asia-Pacific Conference on, 2, page 31-35. (July 2009)
DOI: 10.1109/APCIP.2009.144
Abstract
Multi-view autostereoscopic three-dimensional (3D) display has been one of the most popular research issues in the world. And 3D displays are classified into two types: stereoscopic 3D display and autostereoscopic 3D display. The former includes head mount system, anaglyph system, polarized filter system, field sequential system and so on. The latter is also called true 3D display, it provides 3D perception without the need for special glasses or other head gear. In this paper we research on the multi-view autostereoscopic 3D display. Focusing on the multi-view stereoscopic 3D key technologies, the latest international development trends and existing problems is analyzed. A multi-view stereoscopic display system, related key technologies are detailed, which includes: Light field representation model and light field capturing system, high efficiency multi-view video coding and transmission method compatible with current video standard, high efficiency rendering method for arbitrary position view at the decoder, 3D display technologies and multi-view autostereoscopic display.
%0 Conference Paper
%1 5197129
%A Zhu, Yuhua
%A Zhen, Tong
%B Information Processing, 2009. APCIP 2009. Asia-Pacific Conference on
%D 2009
%K (computer 3D anaglyph autostereoscopic capturing coding coding3D display, displays, field filter filtering graphics), head image light method, model, mosaic, mount multiview perception, polarized processing, rendering representation segmentation, sequential stereo system, theory, three-dimensional transmission video
%P 31-35
%R 10.1109/APCIP.2009.144
%T 3D Multi-view Autostereoscopic Display and Its Key Technologie
%V 2
%X Multi-view autostereoscopic three-dimensional (3D) display has been one of the most popular research issues in the world. And 3D displays are classified into two types: stereoscopic 3D display and autostereoscopic 3D display. The former includes head mount system, anaglyph system, polarized filter system, field sequential system and so on. The latter is also called true 3D display, it provides 3D perception without the need for special glasses or other head gear. In this paper we research on the multi-view autostereoscopic 3D display. Focusing on the multi-view stereoscopic 3D key technologies, the latest international development trends and existing problems is analyzed. A multi-view stereoscopic display system, related key technologies are detailed, which includes: Light field representation model and light field capturing system, high efficiency multi-view video coding and transmission method compatible with current video standard, high efficiency rendering method for arbitrary position view at the decoder, 3D display technologies and multi-view autostereoscopic display.
@inproceedings{5197129,
abstract = {Multi-view autostereoscopic three-dimensional (3D) display has been one of the most popular research issues in the world. And 3D displays are classified into two types: stereoscopic 3D display and autostereoscopic 3D display. The former includes head mount system, anaglyph system, polarized filter system, field sequential system and so on. The latter is also called true 3D display, it provides 3D perception without the need for special glasses or other head gear. In this paper we research on the multi-view autostereoscopic 3D display. Focusing on the multi-view stereoscopic 3D key technologies, the latest international development trends and existing problems is analyzed. A multi-view stereoscopic display system, related key technologies are detailed, which includes: Light field representation model and light field capturing system, high efficiency multi-view video coding and transmission method compatible with current video standard, high efficiency rendering method for arbitrary position view at the decoder, 3D display technologies and multi-view autostereoscopic display.},
added-at = {2010-03-01T21:35:37.000+0100},
author = {Zhu, Yuhua and Zhen, Tong},
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biburl = {https://www.bibsonomy.org/bibtex/22bbfdd9b7d3a35d66ddd719c4a94dac0/barabas},
booktitle = {Information Processing, 2009. APCIP 2009. Asia-Pacific Conference on},
date-added = {2009-10-24 13:09:41 -0400},
date-modified = {2009-10-24 13:09:41 -0400},
description = {Bibliography for general exam paper},
doi = {10.1109/APCIP.2009.144},
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keywords = {(computer 3D anaglyph autostereoscopic capturing coding coding3D display, displays, field filter filtering graphics), head image light method, model, mosaic, mount multiview perception, polarized processing, rendering representation segmentation, sequential stereo system, theory, three-dimensional transmission video},
month = {July},
pages = {31-35},
timestamp = {2010-03-01T21:35:39.000+0100},
title = {3D Multi-view Autostereoscopic Display and Its Key Technologie},
volume = 2,
year = 2009
}