Depth image Based Rendering (DIBR) is a technique that generates virtual views for multiview video applications from 3D video represented in color plus depth format. The depth map is not viewed by end users. However, it helps to generate different views as required by the application. Therefore, the depth maps need to be compressed in a way that it minimizes distortions in the rendered views. By doing so, it would be possible to generate high quality virtual views, using compressed depth maps. This paper presents two mode selection techniques based on genetic algorithms for encoding depth maps. In the proposed techniques, the encoding modes are decided so that the distortion in the rendered view, v is, minimized. Simulation results illustra...
In this paper, a novel Depth Image-based Rendering (DIBR) method, which generates virtual views from...
For three-dimensional television, multiple views can be generated by using the Multi-view Video plus...
The emergence of three dimensional (3D) video applications, based on Depth Image Based Rendering (DI...
During the past decade, research in 3D video has become a hot topic owing to advancements in both ha...
This paper presents efficient coding tools for depth data in depth-enhanced video formats. The metho...
In 3D video coding systems, depth maps are not displayed to the viewers, but provide the geometric i...
In this paper, a new mode decision scheme is proposed for depth map coding in 3D-AVS. The novelty of...
Multiview color information used jointly with depth maps is a widespread technique for 3D video. Us...
3D video has the capability to enhance the multimedia experience of viewers by providing an added se...
A depth image provides partial geometric information of a 3D scene, namely the shapes of physical ob...
International audienceThe multi-view plus depth video (MVD) format has recently been introduced for ...
Three-dimensional (3D) movies in theaters have become a massive commercial success during recent yea...
3D technology increases the visual quality as compared to 2D technology.DIBR (Depth Image Based Rend...
To my family The interest in Three-Dimensional Video (3DV) technologies has grown considerably in bo...
With the growing demands for 3D and multi-view video content, efficient depth data coding becomes a ...
In this paper, a novel Depth Image-based Rendering (DIBR) method, which generates virtual views from...
For three-dimensional television, multiple views can be generated by using the Multi-view Video plus...
The emergence of three dimensional (3D) video applications, based on Depth Image Based Rendering (DI...
During the past decade, research in 3D video has become a hot topic owing to advancements in both ha...
This paper presents efficient coding tools for depth data in depth-enhanced video formats. The metho...
In 3D video coding systems, depth maps are not displayed to the viewers, but provide the geometric i...
In this paper, a new mode decision scheme is proposed for depth map coding in 3D-AVS. The novelty of...
Multiview color information used jointly with depth maps is a widespread technique for 3D video. Us...
3D video has the capability to enhance the multimedia experience of viewers by providing an added se...
A depth image provides partial geometric information of a 3D scene, namely the shapes of physical ob...
International audienceThe multi-view plus depth video (MVD) format has recently been introduced for ...
Three-dimensional (3D) movies in theaters have become a massive commercial success during recent yea...
3D technology increases the visual quality as compared to 2D technology.DIBR (Depth Image Based Rend...
To my family The interest in Three-Dimensional Video (3DV) technologies has grown considerably in bo...
With the growing demands for 3D and multi-view video content, efficient depth data coding becomes a ...
In this paper, a novel Depth Image-based Rendering (DIBR) method, which generates virtual views from...
For three-dimensional television, multiple views can be generated by using the Multi-view Video plus...
The emergence of three dimensional (3D) video applications, based on Depth Image Based Rendering (DI...