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pro vyhledávání: '"Arnaud Schenkel"'
Publikováno v:
IC3D
Depth Image-Based Rendering (DIBR) and 6 Degrees-of-Freedom (6DoF) navigation are actually very active fields for immersive video, where the availability of common test conditions is mandatory to compare results. For this purpose, we propose differen
Publikováno v:
3DTV-Conference
This paper presents a method for view synthesis from multiple views and their depth maps for free navigation in Virtual Reality with six degrees of freedom (6DoF) and 360 video (3DoF+), including synthesizing views corresponding to stepping in or out
Publikováno v:
IC3D
This work is a proof of concept, where we explore the possibility of rendering natural scenes in a head mounted display device without meshing. Real-time, stereoscopic full-HD rendering is obtained for a 14 million points scene, using a low end graph
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::1abe7652cb4b48d30989f18864fdb380
https://biblio.vub.ac.be/vubir/explorations-for-realtime-point-cloud-rendering-of-natural-scenes-in-virtual-reality(497d7629-7bae-46cb-b44d-d81234f2582d).html
https://biblio.vub.ac.be/vubir/explorations-for-realtime-point-cloud-rendering-of-natural-scenes-in-virtual-reality(497d7629-7bae-46cb-b44d-d81234f2582d).html
Autor:
Olivier Debeir, Arnaud Schenkel
Publikováno v:
DigitalHERITAGE (1)
This work deals with the multiview colorization of large site acquired during rapid survey conducted in natural uncontrolled climatic and light conditions. Image stitching and weighting methods are adapted to perform fine per vertex depth maps colori
Publikováno v:
Digital Heritage (1)
This work addresses the problem of colorizing correctly time-of-flight 3D scans performed during rapid scanning of a site in natural and uncontrolled lighting conditions. Contrarily to the usual approach correcting high resolution pictures, the propo
Publikováno v:
IC3D
A RGB-D image combines, for each pixel, the classical three color channels with a fourth channel providing depth information. Devices that produce RGB-D images in real time with a rather good resolution are currently available on the market. With thi