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1814 results about "Lenticular lens" patented technology

A lenticular lens is an array of magnifying lenses, designed so that when viewed from slightly different angles, different images are magnified. The most common example is the lenses used in lenticular printing, where the technology is used to give an illusion of depth, or to make images that appear to change or move as the image is viewed from different angles.

Phased array metamaterial antenna system

An efficient, low-loss, low sidelobe, high dynamic range phased-array radar antenna system is disclosed that uses metamaterials, which are manmade composite materials having a negative index of refraction, to create a biconcave lens architecture (instead of the aforementioned biconvex lens) for focusing the microwaves transmitted by the antenna. Accordingly, the sidelobes of the antenna are reduced. Attenuation across microstrip transmission lines may be reduced by using low loss transmission lines that are suspended above a ground plane a predetermined distance in a way such they are not in contact with a solid substrate. By suspending the microstrip transmission lines in this manner, dielectric signal loss is reduced significantly, thus resulting in a less-attenuated signal at its destination.
Owner:LUCENT TECH INC

Camera system for three dimensional images and video

A camera system including a plurality of image capture devices and supporting output of data from data storage arrays of each image capture device in a segment-by-segment manner, with output lines arranged in an interleaved manner so that interleaving is automatically achieved without complex image processing. The interleaved image or video output of such a camera system will appear as a three dimensional image when viewed through a screen of lenticular lenses.
Owner:IBM CORP

Phased array metamaterial antenna system

An efficient, low-loss, low sidelobe, high dynamic range phased-array radar antenna system is disclosed that uses metamaterials, which are manmade composite materials having a negative index of refraction, to create a biconcave lens architecture (instead of the aforementioned biconvex lens) for focusing the microwaves transmitted by the antenna. Accordingly, the sidelobes of the antenna are reduced. Attenuation across microstrip transmission lines may be reduced by using low loss transmission lines that are suspended above a ground plane a predetermined distance in a way such they are not in contact with a solid substrate. By suspending the microstrip transmission lines in this manner, dielectric signal loss is reduced significantly, thus resulting in a less-attenuated signal at its destination.
Owner:LUCENT TECH INC

High definition lenticular lens

Disclosed herein is a high definition lenticular lens and a high definition lenticular image. The high definition lenticular lens can comprise a front surface having a plurality of lenticules and a substantially flat back surface opposite the front surface. Each lenticule has characteristic parameters that include a focal length, an arc angle, and a width. The arc angle is greater than about 90 degrees and the width is less than about 0.0067 inches. The lens has a gauge thickness that is equal to or substantially equal to the focal length. The high definition lenticular image comprises a precursor image joined to the high definition lenticular lens.
Owner:PACUR LLC

Wide-angle lens

A wide-angle lens provided by the invention comprises in order from an object side to an image side along an optical axis: a first lens, a second lens, a third lens, a fourth lens, a fifth lens, a sixth lens and a seventh lens. The first lens is a concave lens with negative refractive power, has a convex surface facing the object side and has a recessed surface facing the image side. The second lens is a concave lens with negative refractive power, has a convex surface facing the object side and has a recessed surface facing the image side. The third lens has positive refractive power and has a convex surface facing the image side. The fourth lens is a biconvex lens and has positive refractive power. The fifth lens has refractive power. The sixth lens has refractive power. The seventh lens is a biconvex lens and has positive refractive power. The fifth lens and the sixth lens satisfy the conditions: -10<f56 / f<-2, wherein the f56 is the combined effective focal length of the fifth lens and the sixth lens, and the f is the effective focal distance of the wide-angle lens.
Owner:ETHER OPTRONICS SHENZHEN +1

2D-3D switchable autostereoscopic display apparatus

A two-dimensional / three-dimensional (2D / 3D) switchable autostereoscopic display apparatus is provided, including a display panel and a lenticular unit with a two-dimensional mode and a three-dimensional mode. In the two-dimensional mode, the lenticular unit transmits a single image, and in the three-dimensional mode, the lenticular unit separates an image from the display panel into a right-eye image and a left-eye image. The lenticular unit includes first and second lenticular lens sheets, a half-wave plate interposed between the first and second lenticular lens sheets, which rotates a polarization of incident light by 90 degrees, and first and second electro-optical mediums disposed between the first lenticular lens sheet and the half-wave plate and between the second lenticular lens sheet and the half-wave plate, respectively. First and second electro-optical media have refractive indices with respect to extraordinary rays that vary based on electric fields applied to the first and second electro-optical media.
Owner:SAMSUNG ELECTRONICS CO LTD

Rear projection screen, and rear projection system using the screen

A rear projection screen (20) and a rear projection video system using the screen are disclosed. A rear face (20a) of the screen (20) has a structured surface comprising a plurality of light-redirecting elements having transparent planar and / or curved facets (10-13b); each element comprises a facet (10) for transmitting incident light (19), a facet (12) for internally reflecting the transmitted light, at least one facet (11) intermediate and adjoining the facets (10, 12), and a further section (13a, 13b, 52) for separating the facets from those of adjacent elements. Internal angles at the junctions between the first and intermediate, and the intermediate and second, facets (10 &11, 11 &12) are at least 90° and no greater than 180°. The front face (20b) of the screen (20) may comprise black stripes (15, 53) and lenticular lenses (14, 40a, 59) to enhance the contrast of the screen. Improved tolerances in manufacturing of the tooling for the screen (20) and against minor component misalignments during system assembly are hereby provided, as are improvements to the robustness of the screen microstructure.
Owner:MICROSHARP CORP LTD

Light recycling directional control element and light emitting device using the same

In one embodiment of this invention, an optical element comprises a light recycling directional control element and provides increased spatial color or luminance uniformity, desired angular color uniformity, and customizable light re-direction properties. In one embodiment, the optical element comprises at least one light blocking region and a lenticular lens element. Further embodiments incorporate an anisotropic light backscattering region within a light transmitting layer. The optical element may further comprise a light collimating element or an additional light lenticular lens element and light transmitting region that may be oriented parallel or perpendicular to the first lenticular lens element. Light emitting devices and displays incorporating the light recycling direction control element are further embodiments of this invention.
Owner:MASSACHUSETTS DEV FINANCE AGENCY

High resolution autostereoscopic display apparatus with interlaced image

An autostereoscopic display apparatus includes a backlight unit, a polarizing plate disposed in front of the backlight unit; a display panel displaying a left eye image and a right eye image by interlacing pixel lines of the left and right eye images alternately and sequentially; a lenticular lens sheet, disposed between the polarizing plate and the display panel, separating light emitted from the backlight unit into a left eye zone and a right eye zone; and a polarization switch controlling a polarization direction of light proceeding towards the left eye viewing zone so that light is incident on pixel lines of the display panel displaying the left eye image and a polarization direction of light proceeding towards the right eye viewing zone so that light is incident on pixel lines of the display panel displaying the right eye image, in synchronization with a vertical scanning time of the display panel.
Owner:SAMSUNG ELECTRONICS CO LTD

Pseudo-3D stereoscopic images and output device

A transparent print media comprising a first surface having a polarity of lenticular portions adapted to image left and right stereo images printed on an opposing surface to the first surface so as to produce a stereo photographic image when viewed from the first surface.
Owner:GOOGLE LLC

Liquid elastic membrane prism and 3 dimension display device having the same

A stereoscopic display is provided. The stereoscopic display is able to control a viewing position and make a viewing angel wide. On top of a display panel, an image is provided through a plurality of pixels and is separated to a left-eye image and a right-eye image by a lenticular lens. An elastic membrane prism array controls an angle of emitted light. An elastic membrane prism array is disposed on the lenticular lens or on and under the lenticular lens. The elastic membrane prism array includes a prism body having a first chamber and a second chamber, a wall disposed between the first and second chamber, a prism plate connected to the wall, a piston adapted for moving back-and-forth and a transporting tube disposed between the piston and the prism body.
Owner:SAMSUNG DISPLAY CO LTD

Aperture correction for lenticular screens

An apparatus including an autostereoscopic image selection device and an overcoat opaque material applied to the autostereoscopic image selection device. The autostereoscopic image selection device and overcoat opaque material operate together to provide a self-locating aperture in association with the autostereoscopic selection device. The associated method entails applying an opaque overcoat material to an image selection device comprising a plurality of lenticules and removing selected portions of the opaque overcoat material from the image selection device. The applying and removing operate together with the image selection device to reduce a numerical aperture for at least one lenticule.
Owner:REAID INC

Image display device and method of driving the same

An image display device and a method of driving the same are provided. The image display device includes a lenticular lens array, a first backlit display element that is positioned on the lenticular lens array and is driven at a frame frequency of NĂ—60 Hz, where N is an integer equal to or greater than 1, and a light source module under the lenticular lens array. The first backlit display element displays a video signal of a 2D format in a 2D mode and displays a video signal of an N-view 3D format in a 3D mode. The light source module irradiates light in the form of a surface light source onto the lenticular lens array in the 2D mode and irradiates light in the form of a plurality of line light sources onto the lenticular lens array in the 3D mode.
Owner:LG DISPLAY CO LTD

Zoom lens system

The invention provides a zoom lens system that is reduced in terms of both size and cost. The zoom lens system comprises a first positive lens group G1, a second negative lens group G2, a stop S, a third positive lens group G3 and a fourth positive lens group G4. During zooming from a wide-angle end to a telephoto end of the system, while the first lens group G1 remains fixed, the second lens group G2 moves from an object side to an image plane side of the system, the third lens group G3 moves from the image plane side to the object side, and the fourth lens group G4 moves to keep an image plane at a constant position. The first lens group G1 is made up of a negative meniscus lens convex on an object side and a double-convex lens, the second lens group G2 is made up of a double-concave lens and a positive meniscus lens convex on an object side thereof, with an aspherical surface being used for a surface of the positive meniscus lens that is located on an image side thereof, the third lens group G3 is made up of a double-convex lens and a negative meniscus lens convex on an object side thereof, with an aspherical surface being used for a surface of the double-convex lens that is located on an object side thereof, and the fourth lens group G4 is made up of one double-convex lens.
Owner:OLYMPUS CORP

Soft aperture correction for lenticular screens

An apparatus including an autostereoscopic image selection device having a plurality of lenticules is provided. The autostereoscopic image selection device has an opaque material applied thereto in gaps between the plurality of lenticules. The opaque material is applied to the autostereoscopic image selection device in a soft aperturing manner, the soft aperturing manner comprising applying the opaque material such that the opaque material is tapered from the gaps over the plurality of lenticules. The opaque material can be applied in accordance with a windowing function.
Owner:REAID INC

Autostereoscopic lenticular screen

An autostereoscopic lenticular screen has a lenticular screen held in juxtaposition with a display surface. The lenticular screen has lenticules disposed on one side thereof and a smooth surface on the other side thereof. In one aspect of the invention, a closed chamber is formed over the lenticules. In order to deactivate the refractive properties of the lenticular screen, and thereby view the display in a planar mode, an optically clear fluid, such as a fluoropolymer, is introduced into at least a portion of the closed chamber. In order to activate the refractive properties of the lenticular screen, and thereby view the display in a stereoscopic mode, the optically clear fluid is removed from the closed chamber. In a particularly preferred arrangement, the lenticular screen is oriented such that the lenticules face inwardly toward the display screen, and the smooth surface of the lenticular screen is coated with an antireflective material.
Owner:LEDOR LLC +1

Imaging lens and camera system including the same lens

An imaging lens comprises, in order from an object side: a first lens having a negative refractive power with a concave surface directed to an image side thereof; a second lens having a positive refractive power with a convex surface directed to an image side thereof and having an absolute value of a radius of curvature on the image side is equal to or smaller than that on an object side thereof; an aperture stop; a third lens which is a planoconvex lens having a plane on an object side thereof or a double-convex lens having on an object side thereof a surface of which an absolute value of a radius of curvature is larger than that on an image side thereof; and a compound lens of a fourth lens and a fifth lens, the compound lens having a positive composite power.
Owner:TIANJIN OFILM OPTO ELECTRONICS CO LTD

Display device, driving method thereof, terminal device, and display panel

To provide a plural-viewpoint display device having an image separating optical element such as a lenticular lens or a parallax barrier, which is capable of arranging thin film transistors and wirings while achieving substantially trapezoid apertures and high numerical aperture, and to provide a driving method thereof, a terminal device, and a display panel. A neighboring pixel pair arranged with a gate line interposed therebetween is connected to the gate line placed between the pixels, each of the pixels configuring the neighboring pixel pair is connected to the data line different from each other, and each of the neighboring pixel pairs neighboring to each other in an extending direction of the gate lines is connected to the gate line different from each other.
Owner:NEC LCD TECH CORP

Lenticular lens array and image display device including the same

An image display device includes a display panel, a first substrate over the display panel, a plurality of first electrodes on the first substrate, a plurality of second electrodes alternately arranged with the plurality of first electrodes, a second substrate facing the first substrate, a replica layer on the second substrate and having a concave pattern of half-cylinder shape, the concave pattern facing the second electrode, and a liquid crystal layer in the concave pattern.
Owner:LG DISPLAY CO LTD

Multiview autostereoscopic display

A multiview autostereoscopic display includes: a backlight; a first polarized panel transmitting light having a first polarization; a first polarization switch changing the polarization of incident light; a first anisotropic device array including anisotropic devices sequentially and repeatedly arranged in a horizontal direction, such that light transmitted from neighboring anisotropic devices has perpendicular polarizations; a lenticular lens array having lenticular lens devices, arranged horizontally, which separate incident light into different directions; a second polarized panel transmitting light having a second polarization; a second anisotropic device array having anisotropic devices alternately horizontally arranged, such that the anisotropic devices transmit light having perpendicular polarizations; a second polarized switch changing the polarization of light from the lenticular lens array; a third anisotropic device array having anisotropic devices, alternately vertically arranged, such that the anisotropic devices transmit light having perpendicular polarizations; and a display panel forming an image by modulating incident light.
Owner:SAMSUNG ELECTRONICS CO LTD

High resolution 2d/3d switchable display apparatus

A high resolution 2D / 3D switchable display apparatus includes a display panel having display elements arranged in pixel units and configured to display an image. A lenticular lens array includes a plurality of lenticular lenses arranged in a horizontal direction and dividing light corresponding to a signal emitted from the display panel to visual regions of left and right eyes. A spatial optical modulator includes a plurality of cells configured to switch on or off in synchronization with a vertical scanning time of the display panel, wherein each of the plurality of cells is changed to a transparent or opaque state. The display panel sequentially displays an even field including even sequence data of a left eye image and a right eye image and an odd field including odd sequence data of the left eye image and the right eye image.
Owner:SAMSUNG ELECTRONICS CO LTD

Variable magnification optical system, image taking lens device and digital apparatus

There are provided a first lens group having a negative optical power as a whole, second and third lens groups having positive optical powers as a whole, which are located in this order from the object side. These lens groups are all configured to be movable in the optical axis direction during magnification. The first lens group is constituted by a bi-concave lens having a negative optical power and a positive meniscus lens which is convex at the object side thereof, which are located in this order from the object side. The second lens group is constituted by a bi-convex lens having a positive optical power and a bi-concave power having a negative optical power, which are located in this order from the object side and bonded to each other to constitute a cemented lens. The third lens group is constituted by a bi-convex lens having a positive optical power. The first and fifth lenses are double-aspherical lenses formed from resin and the third and fourth lenses are single-aspherical lenses.
Owner:KONICA MINOLTA OPTO

Display supporting multiple simultaneous 3D views

A display system and method are provided that enable two-dimensional and / or three-dimensional images to be displayed. One or more light manipulating layers, a pixel array, and an optional backlighting panel are provided. Each light manipulating layer may be a parallax barrier or a lenticular lens. A parallax barrier includes a plurality of barrier elements arranged in a barrier element array. The barrier element array includes a plurality of strips of barrier elements selected to be transparent to form a plurality of non-blocking strips. A lenticular lens includes an array of sub-lenses, and may be elastic. The display system is configured to deliver light from the pixel array or backlighting panel as views to corresponding viewers in a viewing space. The delivered views may include one or more two-dimensional views and / or one or more three-dimensional views.
Owner:AVAGO TECH INT SALES PTE LTD

Optical member, backlight unit and display apparatus

An optical member enables a display apparatus to be improved in visibility of its display screen as viewed from a plurality of predetermined directions other than the directly forward direction. The optical member includes a lenticular lens member (3) having a plurality of convex lenses (2) and a light-reflecting layer (5) disposed on the back surface of the lenticular lens member. The light-reflecting layer (5) is provided with optical windows (6) each at a position corresponding to a midpoint between the apexes of mutually adjacent convex lenses. Light emitted from a planar light source, passed through each optical window (6), and configured to enter the mutually adjacent convex lenses (2) corresponding to the optical window is directed in mutually different directions by the mutually adjacent convex lenses, respectively.
Owner:CITIZEN ELECTRONICS CO LTD

Input and output device and terminal device

A lenticular lens is provided in front of a liquid crystal panel composed of a plurality of pixels. In this case, the lenticular lens is arranged so that one cylindrical lens corresponds to two pixels adjacent to each other. Then, light rays outgoing from two pixels are refracted by this one cylindrical lens and intersect with each other at a point positioned on the surface of a tablet, and then reach the right eye and the left eye of a user, respectively.
Owner:NEC LCD TECH CORP

Backlight unit and 2d/3d switchable image display device employing the backlight unit

A 2D / 3D switchable image display device is provided. The device includes an image panel, a backlight unit arranged at the rear side of the image panel, and a lenticular lens sheet arranged between the image panel and the backlight unit. The backlight unit includes a plurality of segment light sources for a left eye vision range which emit a light for a left eye vision range, and a plurality of segment light sources for a right eye vision range which emit a light for a right eye vision range. The segment light sources for the left eye vision range and the segment light sources for the right eye vision range are alternately arranged to form a surface light source. The lenticular lens sheet includes a plurality of semi-cylindrical lenses arranged in a direction perpendicular to a viewing direction of both eyes of a viewer.
Owner:SAMSUNG ELECTRONICS CO LTD

Method of watermark with hybrid halftone dots

A method of watermark with hybrid halftone dots that is suitable for a printed shadow image. The watermark patterns that are composed of amplitude modulation (AM) and frequency modulation (FM) halftone dots (their concentration has been calibrated) cannot be perceived beyond a certain distance by the human eye. This is done through outputting the density calibration chart to choose the proper density parameters, which are applied to the manufacture process of the watermark with hybrid halftone dots. The hidden patterns of a watermark need to be pre-processed first, and thereby making the image blocks of AM and FM halftone dots to be combined smoothly. The copy machine, the lenticular lens and the optical scanner can detect the hidden watermark in the printed shadow image. Each secured document possesses a different serial number to achieve the document-version control.
Owner:NATIONAL TAIWAN NORMAL UNIVERSITY
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