"439926" . . . "Bittner, Ji\u0159\u00ED" . "\u010Cl\u00E1nek popisuje nov\u00E9 n\u00E1stroje pro p\u0159edzpracovanou viditelnost."@cs . . "Mattausch, O." . "Optimized Subdivisions for Preprocessed Visibility" . . "8"^^ . "4"^^ . "Optimalizovan\u00E1 d\u011Blen\u00ED pro p\u0159edzpracov\u00E1n\u00ED viditelnosti"@cs . "978-1-56881-337-0" . "Optimized Subdivisions for Preprocessed Visibility"@en . "Optimized Subdivisions for Preprocessed Visibility" . "[869E30070217]" . "1"^^ . . . . "Optimalizovan\u00E1 d\u011Blen\u00ED pro p\u0159edzpracov\u00E1n\u00ED viditelnosti"@cs . "Montreal" . . "Wonka, P." . . "Proceedings of International Symposium on Visual Computing" . "RIV/68407700:21230/07:03132818" . . "Optimized Subdivisions for Preprocessed Visibility"@en . "21230" . "2007-05-28+02:00"^^ . . "335;342" . "This paper describes a new tool for preprocessed visibility. It puts together view space and object space partitioning in order to control the render cost and memory cost of the visibility description generated by a visibility solver. The presented method progressively refines view space and object space subdivisions while minimizing the associated render and memory costs. Contrary to previous techniques, both subdivisions are driven by actual visibility information. We show that treating view space and object space together provides a powerful method for controlling the efficiency of the resulting visibility data structures."@en . "potentially visible sets; visibility preprocessing"@en . "RIV/68407700:21230/07:03132818!RIV08-MSM-21230___" . . "P(LC06008)" . "Canadian Human-Computer Communications Society" . "This paper describes a new tool for preprocessed visibility. It puts together view space and object space partitioning in order to control the render cost and memory cost of the visibility description generated by a visibility solver. The presented method progressively refines view space and object space subdivisions while minimizing the associated render and memory costs. Contrary to previous techniques, both subdivisions are driven by actual visibility information. We show that treating view space and object space together provides a powerful method for controlling the efficiency of the resulting visibility data structures." . "Mississauga, Ontario" . . . "Wimmer, M." . .