Omnidirectional Holoscopic 3D content generation using dual orthographic projection
Issue Date
2013-06Subjects
holoscopicintegral image
3D
display
omnidirectional
orthographic
perspective
rendering
lenticular
3D content
image processing
imaging
rendering (computer graphics)
Metadata
Show full item recordAbstract
In recent years there has been a considerable amount of development work been made in the area of Three-Dimensional (3D) imaging systems and displays. Such systems have attracted the attention and have been widely consumed by both home and professional users in sectors such as entertainment and medicine. However, computer generated 3D content remains a challenge as the 3D scene construction requires contributions from thousands of micro images “also known as elemental images”. Rendering microlens images is very time-consuming because each microlens image is rendered by a perspective or orthographic pinhole camera in a computer generated environment. In this paper we propose and present the development of a new method to simplify and speed-up the rendering process in computer graphics. We also describe omnidirectional 3D image recoding using a two-layer orthographic camera. Results show that it's rendering performance makes it an ideal candidate for real-time/interactive 3D content visualization application(s).Citation
Swash, M.R., Aggoun, A., Abdulfatah, O. , Li, B., Fernandez, J.C., Tsekleves, E.(2013) 'Omnidirectional Holoscopic 3D content generation using dual orthographic projection'. IEEE International Symposium on Broadband Multimedia Systems and Broadcasting (BMSB) 5th - 7th June, London.Publisher
IEEEType
Conference papers, meetings and proceedingsLanguage
enISSN
2155-5044Sponsors
This work was supported by European Commission under FP7-ICT-2009-4 (3DVIVANT).ae974a485f413a2113503eed53cd6c53
10.1109/BMSB.2013.6621674