Geometric Auto-Calibration of Stereoscopic, Back Projection VR Systems (German: Automatisierte geometrische Kalibrierung von stereoskopischen VR-Rückprojektionssystemen)
This Master-Thesis has been written in connection with a research project (Sfb 374) of the University of Stuttgart. In cooperation with the Fraunhofer IAO a concept for geometric auto-calibration of back projecting, stereoscopic VR-systems had to be developed. For that purpose the following aspects were investigated:
1. Registration of geometric projection properties
2. Algebraic description and correction of projection errors
3. Universal employment for arbitrary 3D real-time environments
It could be shown, that the registration process is tolerant against strong scatter light effects. The calculation of the pre-warping correction parameters can be done for single and dual (overlayed) projections. Moreover the procedure does not influence base architecture and effect bandwidth of VR-frameworks, because of using an independent second rendering pass.
%0 Thesis
%1 pu05
%A Pusch, A.
%D 2005
%K Auto-Calibration Back Geometric Projection Stereoscopic Systems VR
%T Geometric Auto-Calibration of Stereoscopic, Back Projection VR Systems (German: Automatisierte geometrische Kalibrierung von stereoskopischen VR-Rückprojektionssystemen)
%U http://www.uni-wuerzburg.de/fileadmin/10030030/publications/2005_MSc_thesis_Geometric_Auto-Calibration_of_Stereoscopic_Back_Projection_VR_Systems___DE.pdf
%X This Master-Thesis has been written in connection with a research project (Sfb 374) of the University of Stuttgart. In cooperation with the Fraunhofer IAO a concept for geometric auto-calibration of back projecting, stereoscopic VR-systems had to be developed. For that purpose the following aspects were investigated:
1. Registration of geometric projection properties
2. Algebraic description and correction of projection errors
3. Universal employment for arbitrary 3D real-time environments
It could be shown, that the registration process is tolerant against strong scatter light effects. The calculation of the pre-warping correction parameters can be done for single and dual (overlayed) projections. Moreover the procedure does not influence base architecture and effect bandwidth of VR-frameworks, because of using an independent second rendering pass.
@mastersthesis{pu05,
abstract = {This Master-Thesis has been written in connection with a research project (Sfb 374) of the University of Stuttgart. In cooperation with the Fraunhofer IAO a concept for geometric auto-calibration of back projecting, stereoscopic VR-systems had to be developed. For that purpose the following aspects were investigated:
1. Registration of geometric projection properties
2. Algebraic description and correction of projection errors
3. Universal employment for arbitrary 3D real-time environments
It could be shown, that the registration process is tolerant against strong scatter light effects. The calculation of the pre-warping correction parameters can be done for single and dual (overlayed) projections. Moreover the procedure does not influence base architecture and effect bandwidth of VR-frameworks, because of using an independent second rendering pass.},
added-at = {2011-12-19T15:42:55.000+0100},
author = {Pusch, A.},
biburl = {https://www.bibsonomy.org/bibtex/21249b9be8b3a5bf30773a5189851d503/mcm},
description = {Master's thesis (in German)},
interhash = {975a4c2877acbea2d0fa2df1d39a7259},
intrahash = {1249b9be8b3a5bf30773a5189851d503},
keywords = {Auto-Calibration Back Geometric Projection Stereoscopic Systems VR},
timestamp = {2012-04-03T10:23:04.000+0200},
title = {Geometric Auto-Calibration of Stereoscopic, Back Projection VR Systems (German: Automatisierte geometrische Kalibrierung von stereoskopischen VR-Rückprojektionssystemen)},
url = {http://www.uni-wuerzburg.de/fileadmin/10030030/publications/2005_MSc_thesis_Geometric_Auto-Calibration_of_Stereoscopic_Back_Projection_VR_Systems___DE.pdf},
year = 2005
}