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Glasses-free televisions use lenticular lenses to achieve the 3D effect.
Images that change when viewed from different angles predate the development of lenticular lenses.
The myodisc, has been categorized as a lenticular lens.
It's important to understand that lenticular lenses make it possible to have many separate images at many different angles, not just one for each eye.
Lenticular lenses are sometimes used as corrective lenses for improving vision.
Defects in the way the lenticular lens is cut lead to phase errors between the lens and the image.
A number of manufacturers are developing auto-stereoscopic high definition 3D televisions, using lenticular lens systems to avoid the need for special spectacles.
Lenticular prints are images that create an illusion of depth by using lenticular lenses.
A new lenticular lens is installed.
In most cases, lenticular lenses are designed to have the rear focal plane coincide with the back plane of the lens.
The diagram at right shows in green the most extreme ray within the lenticular lens that will be refracted correctly by the lens.
The lenticular lens was manufactured by the French firm Sautter, Lemonnier and Company.
Sheet transparency film with the lenticular lens overlay was loaded into special dark slides (about 10x15 inches) and these were then inserted into the camera.
Lenticular lenses were used in early color motion picture processes of the 1920s such as the Keller-Dorian system and Kodacolor.
A lenticular lens is an array of magnifying lenses, designed so that when viewed from slightly different angles, different images are magnified.
Older texts may refer to lenticular lens polynomial designs, and advantages of curvatures that do not produce Scotoma, or a blind spot.
Examples of autostereoscopic displays technology include lenticular lens, parallax barrier, volumetric display, holography and light field displays.
The first image shows a cut which removed about 150 m of the first lens, and which shows irregular cutting of the lenticular lenses.
A similar sort of eyeglass lens is the myodisc, sometimes termed a minus lenticular lens, used for very high negative (myopic) corrections.
Lenticular printing is a multi-step process consisting of creating a lenticular image from at least two images, and combining it with a lenticular lens.
The original illuminating apparatus, still in use, is an 1888, 6th order fixed red lenticular lens manufactured by Sautter, Lemonnier & Company of France.
Currently, most flat-panel solutions employ lenticular lenses or parallax barriers that redirect imagery to several viewing regions; however, this manipulation requires reduced image resolutions.
It achieves this by placing an array of microlenses (similar to a lenticular lens) in front of the image, where each lens looks different depending on viewing angle.
Many advances have been made to the extrusion of lenticular lens and the way it is printed which has led to a decrease in cost and an increase in quality.
Dimension Technologies released a range of commercially available 2D/3D switchable LCDs in 2002 using a combination of parallax barriers and lenticular lenses.