The healthcare branch of the iGLANCE project aims at making high quality high definition autostereoscopic displays available in the clinical operating room. Displaying medical images on an autostereoscopic display poses different requirements than consumer usage would. For entertainment it is sufficient when the perceived image is convincing, even when deviating from the actual imaged scene. For medical usage it is essential that the perceived image represents the actual clinical data. The challenge that the iGLANCE project intends to address is the transmission of the autostereoscopic data through a bandwidth limited channel, while maintaining an image that does not contain significant image artifacts, like e.g. visible disocclusions
The purpose of this article is to remove the myths and black art surrounding electronic imaging and...
Advancements in production and display techniques allowed for novel displays to emerge that project ...
In recent decades, three-dimensional (3D) scanning techniques have improved in terms of speed, quali...
The healthcare branch of the iGLANCE project aims at making high quality high definition autostereos...
The healthcare branch of the iGLANCE project aims at making high quality high definition autostereos...
The iGLANCE project aims at researching the methods of receiving and rendering of free-view 3D-TV se...
The iGLANCE project aims at researching the methods of receiving and rendering of free-view 3D-TV se...
The iGLANCE project aims at researching the methods of receiving and rendering of free-view 3D-TV se...
The iGLANCE project aims at researching the methods of receiving and rendering of free-view 3D-TV se...
The iGLANCE project aims at researching the methods of receiving and rendering of free-view 3D-TV se...
We present an approach for efficient rendering and transmitting views to a high-resolution autostere...
The research covered in this thesis encompasses a consideration of 3D television requirements and a ...
The findings of the student’s research into existing 3D Media technology are presented in this repor...
The iGLANCE project aims at making interactive free viewpoint selection possible in 3D TV broadcaste...
The increasing popularity of stereoscopic cinema and television paves the way for more advanced ster...
The purpose of this article is to remove the myths and black art surrounding electronic imaging and...
Advancements in production and display techniques allowed for novel displays to emerge that project ...
In recent decades, three-dimensional (3D) scanning techniques have improved in terms of speed, quali...
The healthcare branch of the iGLANCE project aims at making high quality high definition autostereos...
The healthcare branch of the iGLANCE project aims at making high quality high definition autostereos...
The iGLANCE project aims at researching the methods of receiving and rendering of free-view 3D-TV se...
The iGLANCE project aims at researching the methods of receiving and rendering of free-view 3D-TV se...
The iGLANCE project aims at researching the methods of receiving and rendering of free-view 3D-TV se...
The iGLANCE project aims at researching the methods of receiving and rendering of free-view 3D-TV se...
The iGLANCE project aims at researching the methods of receiving and rendering of free-view 3D-TV se...
We present an approach for efficient rendering and transmitting views to a high-resolution autostere...
The research covered in this thesis encompasses a consideration of 3D television requirements and a ...
The findings of the student’s research into existing 3D Media technology are presented in this repor...
The iGLANCE project aims at making interactive free viewpoint selection possible in 3D TV broadcaste...
The increasing popularity of stereoscopic cinema and television paves the way for more advanced ster...
The purpose of this article is to remove the myths and black art surrounding electronic imaging and...
Advancements in production and display techniques allowed for novel displays to emerge that project ...
In recent decades, three-dimensional (3D) scanning techniques have improved in terms of speed, quali...