Detail publikace

The Modelling of Stereoscopic 3D Scene Acquisition

HASMANDA, M. ŘÍHA, K.

Originální název

The Modelling of Stereoscopic 3D Scene Acquisition

Typ

článek v časopise - ostatní, Jost

Jazyk

angličtina

Originální abstrakt

The main goal of this work is to find a suitable method for calculating the best setting of a stereo pair of cameras that are viewing the scene to enable spatial imaging. The method is based on a geometric model of a stereo pair cameras currently used for the acquisition of 3D scenes. Based on selectable camera parameters and object positions in the scene, the resultant model allows calculating the parameters of the stereo pair of images that influence the quality of spatial imaging. For the purpose of presenting the properties of the model of a simple 3D scene, an interactive application was created that allows, in addition to setting the cameras and scene parameters and displaying the calculated parameters, also displaying the modelled scene using perspective views and the stereo pair modeled with the aid of anaglyphic images. The resulting modelling method can be used in practice to determine appropriate parameters of the camera configuration based on the known arrangement of the objects in the scene. Analogously, it can, for a given camera configuration, determine appropriate geometrical limits of arranging the objects in the scene being displayed. This method ensures that the resulting stereoscopic recording will be of good quality and observer-friendly.

Klíčová slova

Anaglyph, parallax, stereo base, stereo pair, stereoscopy.

Autoři

HASMANDA, M.; ŘÍHA, K.

Rok RIV

2012

Vydáno

15. 4. 2012

ISSN

1210-2512

Periodikum

Radioengineering

Ročník

21

Číslo

1

Stát

Česká republika

Strany od

134

Strany do

142

Strany počet

9

BibTex

@article{BUT76170,
  author="Martin {Hasmanda} and Kamil {Říha}",
  title="The Modelling of Stereoscopic 3D Scene Acquisition",
  journal="Radioengineering",
  year="2012",
  volume="21",
  number="1",
  pages="134--142",
  issn="1210-2512"
}