Paper Info
Title
Reference based holoscopic 3D camera aperture stitching for widening the overall viewing angle
Abstract
Holoscopic 3D imaging also known as Integral imaging is a promising technique for creating full color 3D optical models that exist in space independently of the viewer. The images exhibit continuous parallax throughout the viewing zone. In order to achieve depth control, robust and real-time, a single aperture holoscopic 3D imaging camera is used for recording holoscopic 3D image using a regularly spaced array of small lenslets, which view the scene at a slightly different angle to its neighbor. However, the main problem the holoscopic 3D camera aperture faces is that it is not big enough for recording larger scene with existing 2D camera sensors. This paper proposes a novel reference based holoscopic 3D camera aperture stitching method that enlarges overall viewing angle of the holoscopic 3D camera in post-production after the capture.
Year
DOI
Venue
2014
10.1109/3DTV.2014.6874765
3DTV-Conference: The True Vision - Capture, Transmission and Display of 3D Video
Keywords
Field
DocType
holography,image processing,image sensors,2D camera sensors,continuous parallax,full color 3D optical models,holoscopic 3D imaging,integral imaging,novel reference based holoscopic 3D camera aperture stitching,single aperture holoscopic 3D imaging camera,3D Camera,3D Display,Holoscopic 3D Image,Integral Image,Lenslets,Microlens Array,Stitching
Aperture,Integral imaging,Computer vision,Image stitching,Image sensor,Computer graphics (images),Parallax,Computer science,Stereo display,Image processing,Artificial intelligence,Viewing angle
Conference
ISSN
Citations 
PageRank 
2161-2021
0
0.34
References 
Authors
0
5
Name
Order
Citations
PageRank
Mohammad Rafiq Swash1237.62
J. C. Fernandez200.34
Amar Aggoun311521.34
O. Abdul Fatah443.06
Emmanuel Tsekleves59117.00