Add to ORKGThe author discusses the research that has taken place at the Heinrich-Hertz-Institut fur Nachrichtentechnik into lenticular methods for autostereoscopic multichannel front projection (3D TV). The system requirements, large lenticular screens, rearprojection and direct view display are covered
The paper appeared in the special session 3D-TV: Primed for Success? Our activities in the 3DTV Netw...
The paper gives an overview of our multimodal 3D display technology. Enabling technologies such as h...
In connection with its work 'high-resolution television' the Heinrich Hertz Institute, Berlin, is in...
Autostereoscopic photographic and video systems for taking and projecting spatial images onto large ...
In various publications, our 3D-Display Technology Lab. has reported about research on autostereosco...
Systems without the need for viewing aids would be preferred for a future 3DTV. Target of the work i...
Within the framework of the research on High Definition Television (HDTV) at the Heinrich-Hertz-Inst...
Work being carried out at the Heinrich-Hertz Institute in Berlin could lead to the development of la...
In the 21st century, we are beginning to see a change in how technological advancements have affecte...
This paper describes recent advances in a number of R&D areas that are believed to provide `key tech...
In this study, a novel autostereoscopic 3D display design based on our patent specification is propo...
The advantage of binocular vision of spatial structures and virtual objects is a must in future info...
A novel auto-stereoscopic three-dimensional (3D) projection display system based on the frontal proj...
Autostereoscopic direct view displays and rear-projection for short viewing distances by lenticular ...
Three-dimensional TV is expected to be the next revolution in the history of television. We implemen...
The paper appeared in the special session 3D-TV: Primed for Success? Our activities in the 3DTV Netw...
The paper gives an overview of our multimodal 3D display technology. Enabling technologies such as h...
In connection with its work 'high-resolution television' the Heinrich Hertz Institute, Berlin, is in...
Autostereoscopic photographic and video systems for taking and projecting spatial images onto large ...
In various publications, our 3D-Display Technology Lab. has reported about research on autostereosco...
Systems without the need for viewing aids would be preferred for a future 3DTV. Target of the work i...
Within the framework of the research on High Definition Television (HDTV) at the Heinrich-Hertz-Inst...
Work being carried out at the Heinrich-Hertz Institute in Berlin could lead to the development of la...
In the 21st century, we are beginning to see a change in how technological advancements have affecte...
This paper describes recent advances in a number of R&D areas that are believed to provide `key tech...
In this study, a novel autostereoscopic 3D display design based on our patent specification is propo...
The advantage of binocular vision of spatial structures and virtual objects is a must in future info...
A novel auto-stereoscopic three-dimensional (3D) projection display system based on the frontal proj...
Autostereoscopic direct view displays and rear-projection for short viewing distances by lenticular ...
Three-dimensional TV is expected to be the next revolution in the history of television. We implemen...
The paper appeared in the special session 3D-TV: Primed for Success? Our activities in the 3DTV Netw...
The paper gives an overview of our multimodal 3D display technology. Enabling technologies such as h...
In connection with its work 'high-resolution television' the Heinrich Hertz Institute, Berlin, is in...