Title :
Immersive 3D Holoscopic Video System
Author :
Aggoun, A. ; Tsekleves, E. ; Swash, M.R. ; Zarpalas, Dimitrios ; Dimou, Anastasia ; Daras, Petros ; Nunes, Paulo ; Soares, L.D.
Author_Institution :
Brunel Univ., Uxbridge, UK
Abstract :
We demonstrated a 3D holoscopic video system for 3DTV application. We showed that using a field lens and a square aperture significantly reduces the vignetting problem associated with a relay system and achieves over 95 percent fill factor. The main problem for such a relay system is the nonlinear distortion during the 3D image capturing, which can seriously affect the reconstruction process for a 3D display. The nonlinear distortion mainly includes lens radial distortion (intrinsic) and microlens array perspective distortion (extrinsic). This is the task of future work. Our results also show that the SS coding approach performs better than the standard HEVC scheme. Furthermore, we show that search and retrieval performance relies on the depth map´s quality and that the multimodal fusion boosts the retrieval performance.
Keywords :
image reconstruction; three-dimensional television; video coding; 3D display; 3D image capturing; 3DTV application; SS coding approach; depth map quality; field lens; fill factor; immersive 3D holoscopic video system; lens radial distortion; microlens array perspective distortion; multimodal fusion; nonlinear distortion; reconstruction process; relay system; retrieval performance; search performance; square aperture; standard HEVC scheme; vignetting problem reduction; Cameras; Image color analysis; Image processing; Motion pictures; Three dimensional displays; Video communication; 3D imaging; 3D video; glassless 3D video; holoscopic video; multimedia;
Journal_Title :
MultiMedia, IEEE
DOI :
10.1109/MMUL.2012.42
