Title :
Simulation of autostereoscopic displays by geometrical ray tracing and implication of optical effects
Author :
Bartmann, Roland ; Kuhlmey, Mathias ; Netzbandt, Ronny ; de la Barre, Rene
Author_Institution :
Dept. of Interactive Media - Human Factors, Fraunhofer Heinrich-Hertz-Inst., Berlin, Germany
Abstract :
In this paper we present a model approach for a simulation and optimization of ray characteristics of autostereoscopic displays. Based on the assignment of view content to single subpixels, ray paths and intensity distributions are rendered as a function of construction parameters of the modeled display. We investigate models which use parallax barrier arrays as image separating optics. We are able to calculate and visualize an intensity distribution of different views in any chosen distance to the pixel plane. The bidirectional simulation is equally capable of generating rays at user´s specific eye position. In our optical model the Lambertian radiator and Fresnel, respectively Fraunhofer diffraction approximation is used. The model assumptions are proved by comparing simulated and experimental data. The various visualization and analysis methods in the simulation can be used to estimate the quality of autostereoscopic imaging. Our aim is to provide a useful tool for optimization of 3D display design and image processing algorithms.
Keywords :
Fraunhofer diffraction; Fresnel diffraction; approximation theory; optimisation; ray tracing; stereo image processing; three-dimensional displays; visual perception; 3D display design; Fraunhofer diffraction approximation; Fresnel model; Lambertian radiator; autostereoscopic display; autostereoscopic imaging quality; bidirectional simulation; geometrical ray tracing; image processing algorithm; image separating optics; intensity distribution; optical effect; optimization; parallax barrier array; visualization method; Diffraction; Geometrical optics; Lead; Mathematical model; Optical diffraction; Optical imaging; Three-dimensional displays; Simulation; autostereoscopic; display; geometrical optics; parallax barrier; ray tracing;
Conference_Titel :
3DTV-Conference: The True Vision - Capture, Transmission and Display of 3D Video (3DTV-CON), 2014
Conference_Location :
Budapest
DOI :
10.1109/3DTV.2014.6874719
