"Computer vision algorithms typically process real world image data acquired by cameras or video cameras.\u00A0 Such image data suffer from imperfections caused by the acquisition process. This paper focuses on simulation of the acquisition process in order to enable rendering of images based on a 3D generated model that are as close to the images acquired by cameras or video cameras as possible. Its main purpose is simulation of video input for computer vision applications, e.g. robot navigation. Imperfections, such as geometry distortion, chromatic aberration, depth of field effect, motion blur, exposure automation, vignetting, inner lens reflections, and also imperfections caused by image sensor features are considered. The paper, besides description of imperfections of the acquisition process and description of imperfections simulation, also presents results of the simulation software through illustrative figures produced by the software." . . . . . . . . "P(7H10011), S, Z(MSM0021630528)" . . . . "167994" . "Smolenice" . "26230" . . "2"^^ . "Ku\u010Di\u0161, Michal" . "2012-04-29+02:00"^^ . "978-3-9502533-4-4" . . "Simulation of Camera Features" . "[B24678F8A6AC]" . "http://www.cescg.org/CESCG-2012/proceedings/CESCG-2012.pdf" . . "2"^^ . . "Proceedings of the 16th Central European Seminar on Computer Graphics" . . . "RIV/00216305:26230/12:PU101873!RIV13-MSM-26230___" . "Simulation of Camera Features"@en . "Technical University Wien" . "Simulation of Camera Features"@en . "RIV/00216305:26230/12:PU101873" . "Camera Imperfections Simulation, Depth of Field\u00A0 Effect,\u00A0 Distortion,\u00A0 Motion\u00A0 Blur,\u00A0 Vignetting,\u00A0 Lens Flare, Image Sensor Features"@en . . . "Simulation of Camera Features" . . . "Smolenice SK" . "Computer vision algorithms typically process real world image data acquired by cameras or video cameras.\u00A0 Such image data suffer from imperfections caused by the acquisition process. This paper focuses on simulation of the acquisition process in order to enable rendering of images based on a 3D generated model that are as close to the images acquired by cameras or video cameras as possible. Its main purpose is simulation of video input for computer vision applications, e.g. robot navigation. Imperfections, such as geometry distortion, chromatic aberration, depth of field effect, motion blur, exposure automation, vignetting, inner lens reflections, and also imperfections caused by image sensor features are considered. The paper, besides description of imperfections of the acquisition process and description of imperfections simulation, also presents results of the simulation software through illustrative figures produced by the software."@en . . . "7"^^ . . . "Ku\u010Di\u0161, Michal" . "Zem\u010D\u00EDk, Pavel" .