Characterization and optimization of 3D-LCD module design

@inproceedings{vanBerkel1997CharacterizationAO,
  title={Characterization and optimization of 3D-LCD module design},
  author={Cees van Berkel and John Alfred Clarke},
  booktitle={Electronic Imaging},
  year={1997}
}
Autostereoscopic displays with flat panel liquid crystal display and lenticular sheets are receiving much attention. Multiview 3D-LCD is truly autostereoscopic because no head tracking is necessary and the technology is well poised to become a mass market consumer 3D display medium as the price of liquid crystal displays continues to drop. Making the viewing experience as natural as possible is of prime importance. The main challenges are to reduce the picket fence effect of the black mask and… 

Key design issues for autostereoscopic 2D/3D displays

Flat panel 2D/3D autostereoscopic displays are now being commercialised in a variety of applications; each with its own particular requirements. The autostereoscopic display designer has two key

Image preparation for 3D LCD

Two approaches to 3D image preparation are described: one is an intuitive graphical user interface and the second is at source code programming level as an extension to the existing OpenGL 3D graphics API.

A novel time-multiplexed autostereoscopic multiview full resolution 3D display

This work proposes and experimentally demonstrate a novel time-multiplexed autostereoscopic multi-view full resolution 3D display based on the lenticular lens array in association with the control of the active dynamic LED backlight.

Time-multiplexed autostereoscopic display with content-defined 2D/3D mode selection

A 17" 2D-3D time sequential LCD autostereoscopic display with SXGA resolution, which is capable of simultaneous displaying 2D and 3D graphics without deterioration of visual performance of 2D images at a frame rate up to 120 Hz.

Emulating Autostereoscopic Lenticular Designs

This paper addresses the development of the emulator, its validation with respect to an existing physical prototype, and the perceptual evaluation of three emulated fundamental design extremes: 1) a 9-view low-cross-talk system; 2) a9-view intermediate crosstalk system; and 3) a 17-view high crosStalk system.

Image Preparation for 3 D-LCD

Two approaches to 3D image preparation are described: one is an intuitive graphical user interface and the second is at source code programming level as an extension to the existing OpenGL 3D graphics API.

Flat Panel Light-Field 3-D Display: Concept, Design, Rendering, and Calibration

The developed design method is explained using a new pixel value assigning algorithm, called the light-field rendering, and vision-based parameter calibration methods for 3-D displays, and the blur effects caused by the depth and display characteristics are analyzed.

Image preparation for 3D LCD

Two approaches to 3D image preparation are described: one is an intuitive graphical user interface and the second is at source code programming level as an extension to the existing OpenGL 3D graphics API.

Flat-panel autostereoscopic displays: characterization and enhancement

An analysis of the basic approaches to flat panel autostereoscopic 3D display is presented, and a near field diffraction model is used to analyze the detailed illumination structure of the output and can be used to assess viewing freedom and cross talk considerations.
...

References

SHOWING 1-4 OF 4 REFERENCES

3-D Display with accommodative compensation (3DDAC) employing real-time gaze detection

  • S1D96 Digest
  • 1996

Assessment ofthe Resolution of Viewing Directions in a Multi-Viewpoint 3D TV System

  • Proc SD vol 30(3)
  • 1989

Special Glasses', S1D89 Digest ppl88-191

  • Proc SPIE
  • 1992

Method and apparatus for use in producing autostereoscopic images

  • Eur Pat EP
  • 1983