Autostereoscopy

Autostereoscopy is any method of displaying stereoscopic images (adding binocular perception of 3D depth) without the use of special headgear, glasses, something that affects vision, or anything for eyes on the part of the viewer.

[5] The method of creating autostereoscopic flat panel video displays using lenses was mainly developed in 1985 by Reinhard Boerner at the Heinrich Hertz Institute (HHI) in Berlin.

Eye tracking has been used in a variety of systems in order to limit the number of displayed views to just two, or to enlarge the stereoscopic sweet spot.

Currently, most flat-panel displays employ lenticular lenses or parallax barriers that redirect imagery to several viewing regions; however, this manipulation requires reduced image resolutions.

The principle of the parallax barrier was independently invented by Auguste Berthier, who published first but produced no practical results,[8] and by Frederic E. Ives, who made and exhibited the first known functional autostereoscopic image in 1901.

In the early 2000s, Sharp developed the electronic flat-panel application of this old technology to commercialization, briefly selling two laptops with the world's only 3D LCD screens.

[16] An additional benefit is that the position of the observer is less restricted, as the substitution of lenses is geometrically equivalent to narrowing the spaces in a line-and-space barrier.

[18] Lenny Lipton's company, StereoGraphics, produced displays based on the same idea, citing a much earlier patent for the slanted lenticulars.

These architectures explore the co-design of optical elements and compressive computation while taking particular characteristics of the human visual system into account.

[30][31] There are a variety of other autostereo systems as well, such as volumetric display, in which the reconstructed light field occupies a true volume of space, and integral imaging, which uses a fly's-eye lens array.

Sunny Ocean Studios, located in Singapore, has been credited with developing an automultiscopic screen that can display autostereo 3D images from 64 different reference points.

Comparison of parallax-barrier and lenticular autostereoscopic displays. Note: The figure is not to scale.
The Nintendo 3DS video game console family uses a parallax barrier for 3D imagery. On a newer revision, the New Nintendo 3DS , this is combined with an eye tracking system to allow for wider viewing angles.