Add to ORKGWe introduce a new way to characterize auto-stereoscopic 3D displays using multi-location viewing angle measurements and calculation of 3D properties in the observer space. We show that a measurement with a very high angular resolution and low parasitic light is needed. A new Fourier optics instrument dedicated to this application is introduced that exhibits a practical angular resolution better than 0.03 ° for an aperture angle of 50 ° and a very low level of parasitic light. The specific problem of geometric compensation of 3D displays is examined using multi-locations measurements from different displays. 1
Conventional stereoscopic 3D displays, which present a pair of stereoscopic images on a single plane...
Autostereoscopic displays employing lenticular sheets have broad applications due to the high transm...
Underlying principles of stereoscopic direct-view displays, binocular head-mounted displays, and aut...
Abstract — Autostereoscopic and polarization-based stereoscopic 3-D displays recreate 3-D images by ...
In this study, we presented new concepts defining 3D crosstalk and 3D blur for autostereoscopic disp...
Autostereoscope is a technology that allows for a viewer to obtain stereoscopic effect without weari...
In this study, we suggest a new concept of 3D crosstalk for auto-stereoscopic displays and obtain 3D...
The physical world around us is three-dimensional (3D) and 3D perception is inherent in human vision...
The proposed paper will explain the technical bases of the Fourier Optics Technology (OFT) for viewi...
In the 21st century, we are beginning to see a change in how technological advancements have affecte...
Previous studies of depth and distance estimation with autostereoscopic 3D displays indicate the use...
Light field 3D displays are expected to play an important role as terminal devices, visualizing 3D o...
Super multiview (SMV) lightfield displays provide glasses- free immersive 3D experience via continuo...
The family of displays, which aims to visualize a 3D scene with realistic depth, are known as "3D di...
Underlying principles of stereoscopic direct-view displays, binocular head-mounted displays, and aut...
Conventional stereoscopic 3D displays, which present a pair of stereoscopic images on a single plane...
Autostereoscopic displays employing lenticular sheets have broad applications due to the high transm...
Underlying principles of stereoscopic direct-view displays, binocular head-mounted displays, and aut...
Abstract — Autostereoscopic and polarization-based stereoscopic 3-D displays recreate 3-D images by ...
In this study, we presented new concepts defining 3D crosstalk and 3D blur for autostereoscopic disp...
Autostereoscope is a technology that allows for a viewer to obtain stereoscopic effect without weari...
In this study, we suggest a new concept of 3D crosstalk for auto-stereoscopic displays and obtain 3D...
The physical world around us is three-dimensional (3D) and 3D perception is inherent in human vision...
The proposed paper will explain the technical bases of the Fourier Optics Technology (OFT) for viewi...
In the 21st century, we are beginning to see a change in how technological advancements have affecte...
Previous studies of depth and distance estimation with autostereoscopic 3D displays indicate the use...
Light field 3D displays are expected to play an important role as terminal devices, visualizing 3D o...
Super multiview (SMV) lightfield displays provide glasses- free immersive 3D experience via continuo...
The family of displays, which aims to visualize a 3D scene with realistic depth, are known as "3D di...
Underlying principles of stereoscopic direct-view displays, binocular head-mounted displays, and aut...
Conventional stereoscopic 3D displays, which present a pair of stereoscopic images on a single plane...
Autostereoscopic displays employing lenticular sheets have broad applications due to the high transm...
Underlying principles of stereoscopic direct-view displays, binocular head-mounted displays, and aut...