38th week of 2014 patent applcation highlights part 88 |
Patent application number | Title | Published |
20140267965 | OPTICAL DEFLECTOR - An optical deflector includes: a first element substrate ( | 2014-09-18 |
20140267966 | LIQUID CRYSTAL DISPLAY AND METHOD OF MANUFACTURING THE SAME - A liquid crystal display includes a substrate; a thin film transistor on the substrate; a pixel electrode connected to the thin film transistor; a first insulating layer facing the pixel electrode; a plurality of microcavities each defined between the pixel electrode and the first insulating layer and including a liquid crystal injection hole exposing an inside of the microcavity; a liquid crystal layer including liquid crystal molecules, in the microcavities; a light blocking layer between adjacent microcavities; and a passivation layer member enclosing the light blocking layer. | 2014-09-18 |
20140267967 | LIQUID CRYSTAL DISPLAY - A liquid crystal display includes: a display area including: a first data line between a first pixel electrode and a second pixel electrode in a same pixel row, and connected to a first thin film transistor (“TFT”) and a second TFT, respectively; and a peripheral area including: a first parasitic capacitor capacity measuring unit including first gate capacity units and first data capacity units; a second parasitic capacitor capacity measuring unit including second gate capacity units and second data capacity units, where a relative arrangement between the first gate and data capacity units is the same as a relative arrangement between the gate and drain electrodes of the first TFT, and a relative arrangement between the second gate and data capacity units is the same as a relative arrangement between the gate and drain electrodes of the second TFT. | 2014-09-18 |
20140267968 | DISPLAY DEVICE, AND ELECTRONIC DEVICE AND ORNAMENTAL PRODUCT INCORPORATING SAME - Disclosed is a display device for use of a surface display of an arbitrary shape, including a plural number of display element units, each made up of a circuit that forms a single stage of a scanning circuit and a pixel circuit connected to an output of the scanning circuit, are arranged in a unicursal fashion on a display substrate. | 2014-09-18 |
20140267969 | TFT ARRAY SUBSTRATE, AND LIQUID CRYSTAL DISPLAY PANEL - An embodiment of the present invention provides a TFT array substrate, in which TFT elements and pixel electrodes being correspondingly connected with the TFT elements are arrayed in matrix on an insulating substrate, the TFT array substrate including: gate bus lines made from a first metal material; source bus lines made from a second metal material; pixel electrodes made from a third metal material; a clock wiring made from the first metal material; a branch wiring made from the second metal material; and a connection conductor made from the third metal material, the connection conductor connecting the clock wiring and the branch wiring at a connection part in a periphery area, the connection part having a branch-wiring via hole, which exposes the branch wiring which is covered with the connection conductor, and overlaps the clock wiring at least partly in a plane view. | 2014-09-18 |
20140267970 | LIQUID CRYSTAL DISPLAY DEVICE, ELECTRONIC APPARATUS, AND METHOD FOR MANUFACTURING LIQUID CRYSTAL DISPLAY DEVICE - According to an aspect, a liquid crystal display device includes: a first substrate on which a metallic layer and an insulating layer are laminated; a second substrate having a color filter and a protection layer laminated thereon; a liquid crystal; a seal material provided so as to seal the liquid crystal; a liquid crystal injection inlet formed on an outer circumference of the seal material; a first protrusion formed of at least one of the metallic layer and the insulating layer in the vicinity of each side of the liquid crystal injection inlet on the first substrate; and a second protrusion formed of at least one of the color filter and the protection layer on a position facing the first protrusion on the second substrate. | 2014-09-18 |
20140267971 | LIQUID CRYSTAL DISPLAY DEVICE - According to one embodiment, a light guide plate includes a light guide plate main body disposed with one end side thereof opposed to a light source and convex portions provided on the both lateral portions in positions separate from the both end portions toward the center of the light guide plate main body. A frame includes fitted portions recessed in positions corresponding to the respective convex portions, into which the convex portions are to be fitted. A bonding member bonds the fitted portions and the convex portions fitted into the respective fitted portions and serves as a light-blocking member covering the interior of the fitted portions and the exterior of the convex portions. | 2014-09-18 |
20140267972 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes a liquid crystal display panel and a backlight device. The backlight device includes: a light guide for emitting a planar light beam, a first optical sheet disposed on a back side of the light guide, and an optical sheet group disposed on an irradiation-surface side of the light guide and including a plurality of optical sheets arranged in stacked relation. Periphery parts of the first optical sheet and at least one second optical sheet of the optical sheet group are bonded together to form a bag shape, and the light guide and the other optical sheets are retained in the bag-like body formed of the first optical sheet and the second optical sheet. | 2014-09-18 |
20140267973 | DISPLAY MODULE - A display module includes a display panel configured to display an image on a display surface, a frame having a shape configured to surround an outer edge of the display panel and having an opening formed in a region overlapping the display surface, and a holding member having an inner region that is a region closer to a center of the display panel and an outer region that is a region farther from the center of the display panel, the inner region being connected to the display panel, the outer region being connected to the frame, and the inner region being separated from the outer region in a view projected from a direction orthogonal to the display surface. | 2014-09-18 |
20140267974 | DISPLAY APPARATUS - A display apparatus includes a liquid crystal display apparatus, a housing, and a protection plate. The protection plate includes glass and a resin member. The resin member is bonded to the glass. The resin member of the protection plate is removably fixed to the housing. | 2014-09-18 |
20140267975 | INTEGRATED LIGHTING FIXTURE AND MESSAGE BOARD - A message board lighting fixture has semiconductor based lighting elements for illumination and an integrated electronic message board display for displaying content to occupants of a transit vehicle or other area. The lighting fixture may include a concave fixture frame having a reflective interior, with lighting elements positioned along the length of the frame to provide area illumination. The electronic display may be mounted on a projecting frame substantially centrally within the cavity of the concave fixture frame, and may be augmented with additional semiconductor based lighting elements for backlighting. A detachable lens cover may have a diffusive portion and a separate transparent region over the electronic display area. | 2014-09-18 |
20140267976 | LCD ASSEMBLY STRUCTURE OF METER FOR AUTOMOBILE - An LCD assembly structure of a meter for automobile includes a liquid crystal plate; a liquid-crystal plate accommodating recess formed in a liquid crystal holder; a bottom-wall elastic pressing piece configured to bias a back surface of the liquid crystal plate from the bottom wall in a direction of separation; corner fixing pieces configured to extend outward parallel to a front surface of the liquid crystal holder at a pair of corners adjoining the liquid-crystal plate accommodating recess, and abut against a front surface of the liquid crystal plate; extension pieces configured to extend outward parallel to the holder front surface of the liquid crystal holder at a pair of corners opposite to the corner fixing pieces, and abut against the front surface of the liquid crystal plate; and first elastic pressing pieces configured to press and bias one edge face of the liquid crystal plate toward the extension pieces. | 2014-09-18 |
20140267977 | DISPLAY DEVICE USING MICROPILLARS AND METHOD THEREFOR - In one aspect, a display device includes a light source for supplying light energy and a light modulation layer including a plurality of micropillars that each have a fixed end and a free end. An activation layer is configured to activate the micropillars to modulate light energy from the light source passing through the micropillars. | 2014-09-18 |
20140267978 | SYSTEM AND METHOD FOR ZONAL SWITCHING FOR LIGHT STEERING TO PRODUCE AN IMAGE HAVING HIGH DYNAMIC RANGE - A method and system for zonal switching for light steering to produce an image having high dynamic range is described. The system comprises: a light source for providing light along an optical path; a spatial light modulator for directing portions of the light to off-state and on-state light paths, thereby producing an image, the spatial light modulator having a plurality of illumination zones corresponding to the image; and a set of sequentially-arranged optical elements in the optical path for steering at least some of the light from a first subset of the plurality of illumination zones to a second subset of the plurality of illumination zones to increase the dynamic range of the image. The dwell time of the one or more sequentially arranged optical elements can be modified to steer light. | 2014-09-18 |
20140267979 | Panel Display Device - A panel display device is provided, which includes: a transparent back panel having a first surface and a second surface, where the first surface is adapted for reflecting incident lights from the outside, and the second surface is adapted for transmitting lights from the outside; a backlight source, disposed at one side of the second surface of the transparent back panel, which is adapted for emitting lights to the transparent back panel; a polarized grating, disposed at one side of the first surface of the transparent back panel, which includes a plurality of grating strips with gaps formed between neighbouring grating strips, where the polarized grating enables the incident lights from the transparent back panel to be polarized and then pass through the gaps; a semiconductor switch array; and a transmission light valve array. The panel display device of the disclosure increase the utilization efficiency of lights. | 2014-09-18 |
20140267980 | DISPLAY DEVICE - Disclosed is a display device. The display device includes a liquid crystal panel, a backlight unit configured to include a light source that supplies light to the liquid crystal panel, and an optical member adhered to the liquid crystal panel. The optical member is formed to extend in an outer direction of the liquid crystal panel, and surrounds at least one of an outside of the liquid crystal panel and an outside of the backlight unit. | 2014-09-18 |
20140267981 | BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY DEVICE HAVING THE SAME - A backlight module and a liquid crystal display device having the same are provided. The backlight module includes a light guide plate, a light source, a shading sheet and at least one reflecting sheet. The light guide plate has a first face, a second face corresponding to the first face and a lateral face connected to the first face and the second face, and a light gathering structure is formed at least on the first face. The light source includes a light emitting device and two power source legs, and the light emitting device is detachably attached to the light guide plate. The shading sheet is attached to the first face. The at least one reflecting sheet is attached to the lateral face. | 2014-09-18 |
20140267982 | LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC APPARATUS PROVIDED THEREWITH - A liquid crystal display device includes a first substrate provided with a reflective electrode, a second substrate provided with a transparent electrode oppositely disposed to the reflective electrode, a liquid crystal layer disposed between the first second substrates, a polarization plate oppositely disposed to the first substrate with an interposition of the second substrate, and an anisotropic scattering member disposed between the second substrate and the polarization plate. A main view angle direction is set as a predetermined direction intersecting a display surface. The anisotropic scattering member has a scattering center and scatters light traveling along a scattering axis direction which is a direction having a predetermined angle range centered around the scattering center. The scattering axis direction coincides with the main view angle direction. | 2014-09-18 |
20140267983 | SWITCHABLE GLASS PATCH, SWITCHABLE GLASS, AND MANUFACTURING METHOD THEREOF - A switchable glass patch is provided, which includes a first glass layer, a first transparent conductive film, a second glass layer, a second transparent conductive film, and a liquid crystal layer. The first glass layer and the second glass layer have the thickness less than 0.3 mm and are flexible. The first transparent conductive film is formed on a first side the first glass layer, and the second transparent conductive film is formed on a first side of the second glass layer. The liquid crystal layer is arranged between the first transparent conductive film and the second transparent conductive film, so that the first transparent conductive film and the second transparent conductive film face each other. | 2014-09-18 |
20140267984 | LIQUID CRYSTAL DISPLAY AND MANUFACTURING METHOD THEREOF - A manufacturing method of a liquid crystal display includes: providing a pixel electrode on an insulation substrate; providing a sacrificial layer on the pixel electrode; providing a common electrode on the sacrificial layer; providing a photoresist layer on the common electrode; exposing a portion of the photoresist layer, common electrode and the sacrificial layer with light; developing the portion of the photoresist layer exposed with the light; etching a layer between the photoresist layer and the sacrificial layer using the developed photoresist layer as a mask to expose the portion of the sacrificial layer exposed with the light; removing the portion of the sacrificial layer exposed with the light; providing a roof layer on the insulation substrate and etching the roof layer to form a liquid crystal injection hole therein; and removing the sacrificial layer exposed through the liquid crystal injection hole to form a microcavity. | 2014-09-18 |
20140267985 | DISPLAY DEVICE AND LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes a first substrate, a partition layer provided on the first substrate and defining plural pixel regions, colored layers of plural colors constituting color filters in the plural pixel regions, a second substrate opposite to the first substrate, and a liquid crystal material arranged between the first and second substrates. The partition layer includes a longitudinal light-shielding part made of a light-shielding resin and extending in a longitudinal direction, a lateral light-shielding part made of the light-shielding resin and extending in a lateral direction, and a light reducing part in which the colored layers including two or more of the colors overlap each other. At least one of the longitudinal light-shielding part and the lateral light-shielding part has a space to avoid contact with the other. The light reducing part fills the space between the longitudinal light-shielding part and the lateral light-shielding part. | 2014-09-18 |
20140267986 | LIQUID CRYSTAL DISPLAY DEVICE - The black matrix has a shape in which a plurality of horizontal line portions which extend in the horizontal direction, and are aligned in the vertical direction, and a plurality of vertical line portions which extend in the vertical direction, and are aligned in the horizontal direction cross each other. The opening has a shape in which the convex portion is formed on one side, and a concave portion is formed on the other side in the horizontal direction. The spacer is arranged at an intersection portion of the vertical line portion and the horizontal line portion, by avoiding an intersection portion of the vertical line portion which is close to the convex portion of the opening at which a colored layer of a color having the highest transmittance is arranged and the plurality of horizontal line portions. | 2014-09-18 |
20140267987 | Display Device - A display device comprising a Spatial Light Modulator assembly including active display elements for displaying an image, a patterned color layer including at least one color pixel array, a reflector for reflecting ambient incident light, and a light absorbing layer, wherein the color pixel array comprises a first pixel group including at least three contiguously arranged pixels capable of transmitting a first color, and a second pixel group including at least three contiguously arranged pixels capable of transmitting a second color. | 2014-09-18 |
20140267988 | DISPLAY DEVICE, ELECTRONIC APPARATUS, AND METHOD FOR MANUFACTURING DISPLAY DEVICE - According to an aspect, a display device includes a first substrate, a second substrate, and light shielding layer. The first substrate is a plate-like member and is provided with a switching element for each of pixels arranged in a matrix and a wiring coupled to the switching element. The second substrate is a plate-like member facing the first substrate and having a smaller thickness than the thickness of the first substrate. The second substrate has an outer edge that faces a portion of the first substrate to which the wiring is not led out and that is positioned inside an outer edge of the first substrate when viewed from a direction orthogonal to a substrate surface of the first substrate. | 2014-09-18 |
20140267989 | DISPLAY DEVICE - A display device includes: a display panel, a protective plate provided in a front surface of the display panel to protect the display panel; and a light shielding film. The protective plate is fixed to the display panel by a transparent adhesive applied to an area between the display panel and the protective plate. The light shielding film is formed so as to surround a display area of the display panel, including a first light shielding film formed in a frame shape, and a second light shielding film deposited on the first light shielding film. The second light shielding film has a cut-out area where the second light shielding is not formed in at least one or more corner portions of the protective plate. A concave portion is formed in the corner portion of the light shielding film from an inner peripheral edge to an outer peripheral edge. | 2014-09-18 |
20140267990 | ELECTRONIC DEVICE HAVING DISPLAY MODULE - An electronic device is provided comprising a display module comprising a display area and a peripheral area abutting on a side of the display area, wherein the display module comprises a glass layer extending across the display area and the peripheral area, and wherein the glass layer comprises a first recess positioned over the peripheral area. | 2014-09-18 |
20140267991 | LIQUID CRYSTAL DISPLAY PANEL - A conductive film ( | 2014-09-18 |
20140267992 | Liquid Crystal Display Device and Method of Manufacturing That - A liquid crystal display device includes a first substrate, a first alignment film formed over the first substrate, a second substrate, a second alignment film formed over the second substrate, a liquid crystal layer sandwiched between the first alignment film and the second alignment film, and a projecting portion formed over the second substrate. The first alignment film is a photo alignment film, and a thickness “d2” of the second alignment film over the projecting portion and a film thickness “d1” of a portion of the first alignment film facing the projecting portion satisfy formula (1) and (2): | 2014-09-18 |
20140267993 | LIQUID CRYSTAL DEVICE AND ELECTRONIC APPARATUS - According to an aspect, a liquid crystal device includes: a first substrate that is a transparent substrate; a second substrate that is a transparent substrate facing the first substrate; a liquid crystal layer that contains liquid crystal molecules and is provided between the first substrate and the second substrate; a first orientation film that orients the liquid crystal molecules and is provided above a surface on the liquid crystal layer side of the first substrate; and a second orientation film that orients the liquid crystal molecules and is provided above a surface on the liquid crystal layer side of the second substrate. A difference in an amount of angle exists between a pre-tilt angle given by the first orientation film to liquid crystal molecules near the first orientation film and a pre-tilt angle given by the second orientation film to liquid crystal molecules near the second orientation film. | 2014-09-18 |
20140267994 | LIQUID CRYSTAL DISPLAY - The present invention relates to a liquid crystal display including: a lower electrode including a unit pixel electrode; an upper electrode including an upper unit electrode facing the unit pixel electrode; and a liquid crystal layer between the lower electrode and the upper electrode and including a plurality of liquid crystal molecules aligned approximately perpendicular to the surfaces of the lower electrode and the upper electrode in the absence of an electric field, wherein the unit pixel electrode includes a stem forming a boundary between a plurality of sub-regions and a plurality of minute branches extending in different directions in two different sub-regions, the upper unit electrode includes an opening facing the stem and extending parallel to the stem, any alignment aid to pretilt the liquid crystal molecules is absent, and a length of the minute branches is equal to or less than about 53 μm. | 2014-09-18 |
20140267995 | PIXEL STRUCTURE - A pixel structure disposed on a substrate is provided. The pixel structure includes an active device, a first electrode, a second electrode and an alignment layer. The active device is disposed on the substrate. The first electrode is disposed on the substrate and has a plurality of slits. A thickness of the first electrode is from 20 Å to 100 Å. The second electrode is disposed on the substrate and electrically independent from the first electrode. A portion of the area of the second electrode is located inside the first slits. One of the first electrode and the second electrode is electrically connected to the active device. The alignment layer covers at least the first electrode and the first slits. | 2014-09-18 |
20140267996 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes: a first substrate; a second substrate disposed opposite to the first substrate; a liquid crystal layer disposed between the first substrate and the second substrate and including liquid crystal molecules vertically aligned when an electric field is not generated in the liquid crystal layer; and pixels, each of which includes a first subpixel and a second subpixel, where each of the first subpixel and the second subpixel includes: a first electrode disposed on the first substrate and having a planar shape; a second electrode disposed opposite to and spaced apart from the first electrode and including a linear electrode; and a third electrode disposed on the second substrate and having a planar shape, and a voltage applied to the second electrode of the first subpixel and a voltage applied to the second electrode of the second subpixel are different from each other. | 2014-09-18 |
20140267997 | LIQUID CRYSTAL DISPLAY DEVICE - According to one embodiment, a liquid crystal display device includes a first common electrode including a first sub-common electrode extending along a gate line on a first interlayer insulation film, a pixel electrode which includes a first main pixel electrode extending in a second direction on a second interlayer insulation film, and a second common electrode which includes a second sub-common electrode extending in parallel to the first sub-common electrode on the second interlayer insulation film and has the same potential as the first common electrode. The first sub-common electrode is located on the pixel electrode side of a position overlapping the gate line. The second sub-common electrode is opposed to the gate line. | 2014-09-18 |
20140267998 | FLEXIBLE CABLE AND LIQUID CRYSTAL DISPLAY APPARATUS HAVING THE SAME - A flexible cable includes a base film including an insulation material; a plurality of conductive lines on a first surface of the base film and spaced apart from one another; a cover film on the first surface of the base film and overlapping the conductive lines; and a handling member on a second surface of the base film opposite to the first surface. A first portion of the handling member is rounded and a second portion of the handling member is bonded to the base film. | 2014-09-18 |
20140267999 | LIQUID CRYSTAL DISPLAY AND MANUFACTURING METHOD THEREOF - A liquid crystal display includes a first substrate, gate lines and data lines disposed on a display area of the first substrate, a common voltage line disposed on a peripheral area of the first substrate, a common voltage transmission unit extending from the common voltage line, an organic layer disposed on the common voltage transmission unit and the common voltage line, a connecting member disposed on the organic layer disposed on the peripheral area, a first insulating layer disposed on the pixel electrode and the connecting member, a common electrode disposed on the first insulating layer, and a short point connecting the connecting member and the common electrode to each other. The common electrode and the first insulating layer include a plurality of cutouts in the peripheral region and display region of the first substrate which have substantially a same plane shape as each other. | 2014-09-18 |
20140268000 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes a substrate, a cover layer which defines a tunnel-shaped cavity on the substrate, a support part which extends from the cover layer and corresponds to an edge of the tunnel-shaped cavity, a liquid crystal layer in the tunnel-shaped cavity, first and second electrode which apply an electric field to the liquid crystal layer, and a sealant layer which seals the tunnel-shaped cavity. | 2014-09-18 |
20140268001 | LIQUID CRYSTAL DISPLAY DEVICE - To suppress generation of low temperature impact bubbles and a damage in an electrode, etc. on a wall structure in manufacturing process, the liquid crystal display device according to the present invention includes a first substrate; a second substrate which is provided so as to face the first substrate; a liquid crystal layer which is provided between the first substrate and the second substrate; a wall structure which is formed on the first substrate; a pixel electrode which is provided at least on a side surface of the wall structure; a common electrode which is formed on the first substrate; and a plurality of pixels which include the pixel electrode and the common electrode, in which a high portion is provided at a portion of the wall structure, and the first substrate comes into contact with the second substrate at the high portion. | 2014-09-18 |
20140268002 | PATTERNED PHASE DIFFERENCE FILM AND METHOD FOR MANUFACTURING SAME - A pattern phase difference film is manufactured by a process including a laminate body formation step of applying a pattern alignment layer composition on a substrate to form a laminate body, a heat-drying layer formation step of heat-drying the composition to form a heat-dried layer, a pattern alignment layer formation step of irradiating a polarization pattern onto the heat-dried layer to form a pattern alignment layer, and a phase difference layer formation step of forming a phase difference layer including a rod-shaped compound on the pattern alignment layer. During the steps between the heat-drying layer formation step and the phase difference layer formation step, the heat-dried layer and the pattern alignment layer are exposed to the air for four hours or less. | 2014-09-18 |
20140268003 | OCULAR PRODUCT CUSTOMIZATION - A device is comprised of a first portion shaped like an ocular product frame and designed to substantially cover the ocular product frame. The cover has a second portion substantially shaped like an ocular product leg and designed to substantially cover the ocular product leg. The second portion of the cover couples to the first portion of the cover. | 2014-09-18 |
20140268004 | METHODS AND STRUCTURE FOR AFFIXING FRAMES ELEMENTS TO EYEGLASS LENSES - Eyeglass frame elements may include a bridge and temples, and for an accessory attached to eyeglasses, one or more clips. Each of these elements includes an attachment point to the lens. For this attachment point a terminal portion of a metal wire is received through a first of two apertures formed through a lens adjacent an edge thereof. A remaining portion of the metal wire is received through a second of the two apertures. A first bend in the metal wire between the terminal portion and the remaining portion located is formed between the two apertures. This first bend is adjacent to a surface of the lens. A second bend in the metal wire is formed adjacent the second of the two apertures so that at least part of the terminal portion is adjacent an outside edge of the lens. | 2014-09-18 |
20140268005 | COLLAPSIBLE EYEGLASSES - Collapsible eyeglasses allow the user to pivot or rotate the lenses relative to each other to reduce the overall size of the eyeglasses for storage in a collapsed configuration. The eyeglass frames with lenses could rotate relative to each other about a pivot point positioned on or about the bridge of the eyeglasses. The eyeglass frames with lenses could hinge relative to each other about a point on or about the bridge of the eyeglasses. The eyeglass frames with lenses could be separated from each other. The invention provides eyeglasses that are more easily stored, are more convenient to carry, and more convenient to use. | 2014-09-18 |
20140268006 | EYEGLASSES WITH ROTATIONALLY SECURED CIRCULAR LENSES, LENS JIG AND METHOD OF JIG USE - Eyeglasses with rotationally secured circular lenses, lens rigs, and methods of use are provided herein. A pair of eyeglasses may include a circular first lens and a circular second lens, each having a lens peripheral surface. At least one of said first lens and said second lens has a line of astigmatism with a prescribed rotational position relative to a wearer eye. The glasses also have a frame having a circular first frame opening into which the first lens is mounted and a circular second frame opening into which the second lens is mounted, each frame opening having an inward frame opening peripheral surface. A lens rotational securing means for securing each of the lenses against rotation relative to said frame, such that the line of astigmatism is prevented from moving out of its prescribed rotational position within its frame opening. | 2014-09-18 |
20140268007 | METHOD AND APPARATUS FOR DESIGN AND FABRICATION OF CUSTOMIZED EYEWEAR - Eyewear can include lenses having perimeters that are customized for an intended wearer. The perimeter of the lenses can be determined based on anatomical features of the wearer's face, the wearer's field of vision, or other parameters specific to that individual. Determination of the lens perimeters can involve developing a three-dimensional model of a wearer's face and/or head, demarcating a lens perimeter over an obtained image of a user's face, or delineating the boundary of a wearer's peripheral vision. A provisional lens perimeter obtained by any of these methods may be modified in curvature and/or size to arrive at a desired final lens perimeter. Customized lenses can be fabricated based on the determined lens perimeters. The customized lenses can be assembled into completed eyewear that is customized for a wearer, for example having shapes, sizes, and designs not otherwise possible. | 2014-09-18 |
20140268008 | EYEWEAR WITH TOUCH-SENSITIVE INPUT SURFACE - In one embodiment, an eyewear for a user includes an eyewear frame, electrical circuitry at least partially in the eyewear frame, and a touch sensitive input surface on the eyewear frame configured to provide an input to the electrical circuitry to perform a function via touching the touch sensitive input surface. In another embodiment, the eyewear includes a switch with at least two operational states. The operational states of the switch can be configured to be changed by sliding a finger across the touch sensitive input surface of the frame. | 2014-09-18 |
20140268009 | EYE-LENS DEVICE - An eye-lens device includes a frame, two temples, at least one lens and an airflow-guiding element. The temples are respectively disposed to two ends of the frame. The lens is fixed to the frame. The airflow-guiding element is fixed to the frame, and an airflow-guiding channel is formed between the frame and the airflow-guiding element. | 2014-09-18 |
20140268010 | FRAMELESS EYEGLASSES - A pair of frameless eyeglasses includes a lens having two holes defined therethrough. Two temples each have a connection unit and the connection unit has a slot at a front end thereof. Two sides of the lens are engaged with the two respective slots. A resilient member has one end connected to the connection unit and the other end of the resilient member separates from the connection unit and extends toward the slot. A block is formed on the second end of each of the resilient member and engaged with the hole of the lens corresponding thereto. The temple can be easily separated from the lens by pushing the block out from the hole of the lens. | 2014-09-18 |
20140268011 | MAGNETICALLY-BIASED EYEGLASSES - This disclosure provides a mechanism for magnetically biasing a pair of eyeglasses between open and closed configurations. Magnetic material on the frame front and magnetic material on the temples create a magnetic interaction that biases the eyeglasses toward an open or closed configuration. The magnetic interaction may be attractive, repulsive, or a combination of the two. The mechanism may provide a bias in all eyeglass configurations or only in select ranges of configurations. | 2014-09-18 |
20140268012 | IMMERSIVE ENVIRONMENT SYSTEM HAVING MARKED CONTACT LENSES COORDINATED WITH VIEWING STATIONS - An immersive environment system having marked contact lenses coordinated with images is provided. The system comprises: a display system configured to display multiplexed images comprising at least a first set of images and a second set of images optically-separable from the first set; a first pair of contact lenses marked as associated with the first set of images and configured to demultiplex the first set from the second set; and, a second pair of contact lenses marked as associated with the second set of images and configured to demultiplex the second set from the first set. | 2014-09-18 |
20140268013 | EYEWEAR WITH PRINTED CIRCUIT BOARD - In one embodiment, an eyeglass frame includes a lens holder, a first temple with a first end close to the lens holder and a second end, a second temple, an electrical connector and a printed circuit board. The printed circuit board with at least one electrical component can be in the first temple. The connector can be close to the first end of the first temple, facing downward, and electrically connected to the at least one electrical component. In another embodiment, an eyeglass frame includes a first printed circuit board, with at least one electrical component. The first printed circuit board can be connected to an electrical component at the frame via a second printed circuit board. | 2014-09-18 |
20140268014 | OPHTHALMIC DEVICES INCORPORATING PHOTONIC ELEMENTS - This invention describes Ophthalmic Devices with media inserts that have photonic elements upon or within them. In some embodiments passive ophthalmic devices of various kinds may be formed. Methods and devices for active ophthalmic devices based on photonic based projection systems may also be formed. | 2014-09-18 |
20140268015 | OPHTHALMIC LENSES WITH COLORANT PATTERNED INSERTS - This invention discloses methods and apparatus for patterning Multi-piece ophthalmic Insert and Ophthalmic lenses comprising Inserts. In some embodiments, an ophthalmic lens is cast molded from a silicone hydrogel and the lens includes a sealed and encapsulated Multi-piece ophthalmic Insert portion which has been patterned. | 2014-09-18 |
20140268016 | EYEWEAR SPECTACLE WITH AUDIO SPEAKER IN THE TEMPLE - Audio eyewear includes a front frame and at least one side frame member secured to the front frame for engaging a user's ear. The side frame members have speakers therein that are oriented to direct an audio port of the speaker face downwardly at an angle away from at least one side frame member, thereby directing sound downwardly and rearwardly into the users ear generally along the vertical plane. Embodiments of the invention include microphones for use in, for example, noise cancellation. | 2014-09-18 |
20140268017 | ELECTRONIC EYEWEAR AND DISPLAY - Novel eyewear apparatuses including a display are disclosed. In one embodiment, the apparatus also includes a frame. The frame includes a side region that includes an extendable arm. The first end of the extendable arm is attached to the frame and a second end of the extendable arm is attached to the display. The side region includes a cavity, where the extendable arm is adapted to retract back. The extendable arm is further adapted to extend out of the cavity and orient the display to be visually observable by a user of the eyewear apparatus. In another embodiment, the apparatus includes a concave reflective and an image source. The image source and the concave reflective surface are oriented to enable a user of the eyewear apparatus to view at least an image from the image source as reflected by the concave reflective surface. | 2014-09-18 |
20140268018 | EYEGLASSES - Eyeglasses, in particular for reading, includes integrated lighting means and corresponding means for activation and de-activation of the lighting means which comprise a gyroscopic sensor of the micro-electromechanical type provided for fading automatically an intensity of the light emitted by the lighting means when, in use, the eyeglasses are moved angularly upwards with respect to a reference position. | 2014-09-18 |
20140268019 | Hydrogel Lens Having Raised Portions For Improved Oxygen Transmission and Tear Flow - An ophthalmic device having improved oxygen transmissibility is provided. The ophthalmic device includes a hydrogel lens wherein the peripheral zone of the hydrogel lens includes a plurality of raised portions on the surface of the lens proximal to the ocular surface. | 2014-09-18 |
20140268020 | METHOD AND APPARATUS FOR ENCAPSULATING A RIGID INSERT IN A CONTACT LENS FOR CORRRECTING VISION IN ASTIGMATIC PATIENTS - The present invention, as described above and as further defined by the claims below, provides methods for forming an Ophthalmic Lens that encapsulates a Rigid Insert, wherein the Rigid Insert may be tailored to correct specific astigmatic characteristics of an eye and apparatus for implementing such methods, as well as Ophthalmic Lenses formed with the Rigid Inserts. | 2014-09-18 |
20140268021 | METHOD AND APPARATUS FOR ENCAPSULATING A RIGID INSERT IN A CONTACT LENS FOR CORRRECTING VISION IN ASTIGMATIC PATIENTS - The present invention, as described above and as further defined by the claims below, provides methods for forming an Ophthalmic Lens that encapsulates a Rigid Insert, wherein the Rigid Insert may be tailored to correct specific astigmatic characteristics of an eye and apparatus for implementing such methods, as well as Ophthalmic Lenses formed with the Rigid Inserts. | 2014-09-18 |
20140268022 | LAMINATED COMPOSITE LENS - A composite lens comprises an anterior rigid gas permeable layer, and an annulus of soft material bonded to a posterior surface of the anterior rigid gas permeable layer, wherein a central zone of the composite lens is rigid and without a soft layer, wherein a peripheral zone of the composite lens is generally rigid in its anterior aspect and soft in its posterior aspect. | 2014-09-18 |
20140268023 | THERMOFORMED OPHTHALMIC INSERT DEVICES - The present invention describes single-piece or multi-piece Rigid Inserts that may be included in an Ophthalmic Lenses or may comprise the Ophthalmic Lens, wherein the Rigid Insert may be formed through the processing of thin sheet material by thermoforming. Single piece annular Rigid Inserts may perform the function of providing a template for printed patterns to be included in Ophthalmic Lenses. Single piece full Rigid Inserts may perform the function of polarizing light or filtering light based on the properties of materials used to form the insert. Multi-piece Rigid Inserts may include activation and energization elements. The present invention also includes methods and apparatus for forming the Rigid Inserts. | 2014-09-18 |
20140268024 | OPHTHALMIC DEVICES WITH STABILIZATION FEATURES - This invention discloses methods and apparatus for forming Ophthalmic Lenses with Stabilizing Features, and more specifically, Ophthalmic Lenses that include an encapsulated Insert Device. | 2014-09-18 |
20140268025 | OPHTHALMIC EYEWEAR FOR VIEWING ELECTRONIC DISPLAYS - Ophthalmic eyewear is provided, comprising a frame and a spectacle lens having a filter and being disposed within the frame. The filter comprises a spectral characteristic that transmits red, green and blue light as mixed and emitted by an electronic display, while blocking substantially all broadband light other than the same bandwidths. Further ophthalmic eyewear is provided comprising a contact lens having a filter, wherein the filter comprises a spectral characteristic that transmits red, green and blue light as mixed and emitted by an electronic display, while blocking substantially all broadband light other than the same bandwidths. | 2014-09-18 |
20140268026 | OPHTHALMIC DEVICES WITH ORGANIC SEMICONDUCTOR TRANSISTORS - This invention discloses methods and apparatus to form organic semiconductor transistors upon three-dimensionally formed insert devices. In some embodiments, the present invention includes incorporating the three-dimensional surfaces with organic semiconductor-based thin film transistors, electrical interconnects, and energization elements into an insert for incorporation into ophthalmic lenses. In some embodiments, the formed insert may be directly used as an ophthalmic device or incorporated into an ophthalmic device. | 2014-09-18 |
20140268027 | HYDROGEL LENS INCLUDING A REMOVABLE MEDIA INSERT - An ophthalmic device includes a hydrogel lens and a media insert removably attached to the hydrogel lens. A method for removably attaching the media insert to the hydrogel lens includes receiving a first hydrogel lens including an annular opening, at least partially inserting a media insert into the annular opening of the first hydrogel lens, removing the media insert from the annular opening of the first hydrogel lens, receiving a second hydrogel lens including an annular opening, and at least partially inserting the removed media insert into the annular opening of the second hydrogel lens. | 2014-09-18 |
20140268028 | SILICONE-CONTAINING CONTACT LENS HAVING CLAY TREATMENT APPLIED THERETO - The present invention relates to a contact lens including at least one clay and at last one silicone component, wherein the at least one clay is applied to the surface of the contact lens and the contact lens does not include any diffusible material whose release from the contact lens is inhibited by the at least one clay. | 2014-09-18 |
20140268029 | METHOD AND OPHTHALMIC DEVICE FOR PROVIDING VISUAL REPRESENTATIONS TO A USER - An energized ophthalmic lens device is disclosed. The energized ophthalmic lens device can include one or more modulated photonic emitters, a media insert supporting a first processor and one or more light sources, and one or more antennas configured to communicate with the first processor and a second processor. The one or more light sources can be configured to generate light. At least a portion of the generated light from the one or more light sources can be emitted by the one or more photonic emitters. The first processor can be configured to receive, from a sensor, an indication to project a visual representation. The processor can further be configured to control, in response to the received indication, at least one of the one of more modulated photonic emitters and the one or more light sources based on one or more programmed parameters. | 2014-09-18 |
20140268030 | Pinhole Glasses - Pinhole glasses which can be used to assist people with low to moderate myopia, hyperopia, and astigmatism, are invented. The present invention can be used for glasses which function as progressive glasses, distance glasses, computer glasses, reading glasses, and when tinted, sunglasses. The present invention provides the best balance of visual acuity, brightness and visual field with emphasis on acuity, through the system of axes and the pinholes in multiple sizes along the axes which are clinically and empirically proven to be effective. Especially, the placement of pinholes along the axes has clinically and empirically been determined depending on the seriousness of the astigmatism of the users in correcting the astigmatic refractive errors. The size, number, spacing, pattern, and axes of the pinhole apertures have been optimized through optical theories and extensive clinical and empirical testing. | 2014-09-18 |
20140268031 | EYEWEAR LENSES WITH CONTROLLED FILTERS FOR NIGHT DRIVING - The present invention is embodied in an eyewear lens with at least two controlled, limited visible light blocking filters that attenuate its transmittance spectrum. More specifically, in the present invention, the eyewear lens attenuates limited amounts of light in at least two visible wavelength regions via controlled, limited blocking filters, wherein the overall luminous transmittance is at least 75%. The at least two controlled, limited blocking filters have their peak blocking wavelengths in the region of 410-500 nm and 530-620 nm, respectively. In a preferred embodiment, the minimum transmittance that occurs within the 410-500 nm region is ≧55% and the minimum transmittance that occurs within the 530-620 nm region is ≧65%. In another preferred embodiment, the eyewear lens comprises an anti-reflective coating on its inner surface (the eye-side of the lens). | 2014-09-18 |
20140268032 | SYSTEM AND METHOD OF SURFACING A LENS, SUCH AS A LENS FOR USE WITH EYEGLASSES - A system and method of forming surfaces on eyeglass lenses is described. In some examples, the surface is a spherical, cylindrical or spherocylindrical surface at a center of the lens and an aspherical surface at a periphery of the lens. In some examples, forming the surface on the lens reduces the thickness of the lens at the periphery of the lens. | 2014-09-18 |
20140268033 | OPHTHALMIC DEVICES WITH STABILIZATION FEATURES - The present invention, as described above and as further defined by the claims below, provides methods for creating an Ophthalmic Lens with Stabilizing Features and a Rigid Insert, where the Stabilizing Features may orient the Ophthalmic Lens when placed on an eye. In some embodiment, the Stabilizing Features may be included as a unique Reactive Monomer Mixture with separate properties than the encapsulating RMM. Other embodiments may include Stabilizing Features comprising separate insert pieces. In alternate embodiments, the Rigid Insert may include the Stabilizing Features, such as, for example, through thermoforming techniques. | 2014-09-18 |
20140268034 | PRESBYOPIA LENS WITH PUPIL SIZE CORRECTION BASED ON LEVEL OF REFRACTIVE ERROR - Ophthalmic lenses for the treatment of presbyopia may be improved to enhance the visual experience of the patient. By adjusting the optical design of presbyopic lenses to account for changes in pupil size due to the degree of myopia or hyperopia, an enhanced visual experience may be achieved independent of the level of ametropia. | 2014-09-18 |
20140268035 | METHODS AND APPARATUS TO FORM OPHTHALMIC DEVICES INCORPORATING PHOTONIC ELEMENTS - This invention describes Ophthalmic Devices with media inserts that have photonic elements upon or within them. In some embodiments passive ophthalmic devices of various kinds may be formed. Methods and devices for active ophthalmic devices based on photonic based projection systems may also be formed. | 2014-09-18 |
20140268036 | METHODS FOR DIAGNOSING VITREO-RETINAL DISEASE - A quantitative method to analyze phase-resolved, raw backscatter echo data or the envelope of phase-resolved, raw backscatter echo data to characterize vitreous inhomogeneities as they relate to normal aging and vitreo-retinal disease. The technique can be applied to 2D or 3D data acquired from the vitreous. The approach provides an objective end value to characterize the vitreous and provide a tool for early diagnosis, monitoring and planning treatment of vitreo-retinal diseases. | 2014-09-18 |
20140268037 | INTELLIGENT HEADREST AND OPHTHALMIC EXAMINATION AND DATA MANAGEMENT SYSTEM - An automated ophthalmic diagnostic system includes a portable, hand-held ophthalmic instrument and a headrest detachably attachable to the ophthalmic instrument. The ophthalmic instrument has an RFID reader, a microprocessor, and a display. The headrest has a read/write RFID tag that stores patient identification information and sequential ophthalmic data and can transmit that information to the ophthalmic instrument through near-field communication. The microprocessor has a program that analyzes the sequential ophthalmic data and provides an output on the display, wherein a trend within the ophthalmic data is visually identifiable in the output. | 2014-09-18 |
20140268038 | SYSTEMS AND METHODS FOR VARIABLE DEPTH OPTICAL COHERENCE TOMOGRAPHY IMAGING - Systems and methods for variable depth optical coherence tomography (OCT) imaging with a swept laser source are presented. Swept-source OCT data acquired at two different spectral resolutions is resampled using information on the wavenumber nonlinearity of the source to generate OCT images at two different depths. | 2014-09-18 |
20140268039 | SYSTEMS AND METHODS FOR VARIABLE MODE OPTICAL COHERENCE TOMOGRAPHY IMAGING - Systems and methods for improvements to optical coherence tomography systems for operating in different imaging modes are presented. In one embodiment, a system for identifying the presence and type of an adjunct lens operably connected to the OCT instrument for changing between imaging modes in the system is described. In a second embodiment, a system for dynamically autofocusing the OCT system depending on the layer of interest is presented. In a third embodiment, the overall power of the system used for imaging can be adjusted depending on the location and type of scan desired while accounting for the safety standards for recommended light exposure. | 2014-09-18 |
20140268040 | Multimodal Ocular Imager - An imaging probe for imaging a sample includes at least one light source that provides light to a sample. The imaging probe also includes a first imaging objective that focuses a first light reflected from the sample and a second light reflected from the sample, such that the first light and the second light share at least a portion of an imaging path. The imaging probe also includes a first optical component that receives the first light and the second light from the first imaging objective, directs the first light towards an imaging camera to obtain a first image of the sample, and directs the second light toward an optical coherence tomography (OCT) imaging apparatus to obtain a second image of the sample. | 2014-09-18 |
20140268041 | SYSTEM AND METHOD FOR OCULAR TOMOGRAPHY USING PLENOPTIC IMAGING - Improved systems and methods for ocular tomography are provided. These systems and methods can be used to improve the effectiveness of a wide variety of different ophthalmic diagnostic procedures, and various surgical and non-surgical treatments. One embodiment provides a system and method for determining ocular tomography data for the eye using a plenoptic detector. For example, an ocular tomography system can comprise a set of light sources configured to illuminate an eye, a plenoptic detector configured to receive images of the light sources reflected from surfaces of the eye and generate plenoptic image data representing the images, and a processing system coupled to the plenoptic detector. The processing system is configured to analyze the plenoptic image data to determine tomography data for the eye. | 2014-09-18 |
20140268042 | SYSTEM AND METHOD FOR EYE ORIENTATION - Systems and methods for locating the center of a lens in the eye are provided. These systems and methods can be used to improve the effectiveness of a wide variety of different ophthalmic procedures. In one embodiment, a system and method is provided for determining the center of eye lens by illuminating the eye with a set of light sources, and measuring the resulting first image of the light sources reflected from an anterior surface of the lens and the resulting second image of the light sources reflected from a posterior surface of the lens. The location of the center of the lens of the eye is then determined using the measurements. In one embodiment, the center of the lens is determined by interpolating between the measures of the images. Such a determination provides an accurate location of the geometric center of the lens. | 2014-09-18 |
20140268043 | SYSTEM AND METHOD FOR CORNEAL PACHYMETRY USING PLENOPTIC IMAGING - Embodiments described herein provide improved systems and methods for corneal pachymetry. These systems and methods can be used to improve the accuracy of corneal measurements that are used for a wide variety of different ophthalmic procedures. One embodiment provides a system and method for corneal pachymetry using a plenoptic detector. For example, a corneal pachymetry system can comprise a light source, a plenoptic detector and a processing system coupled to the plenoptic detector. The light source is configured to illuminate the cornea of the eye, and the plenoptic detector is positioned at an angle relative to the eye. The plenoptic detector is configured to receive an image of the light source reflected from the cornea and generate plenoptic image data representing the images. The processing system is coupled to the plenoptic detector and is configured to analyze the plenoptic image data to accurately determine the corneal thickness of the eye. | 2014-09-18 |
20140268044 | SYSTEM AND METHOD FOR OCULAR ABERROMETRY AND TOPOGRAPHY USING PLENOPTIC IMAGING - Improved systems and methods for ocular topography and using a plenoptic detector are provided. For example, a multifunction ocular topography and aberrometry system can comprise a first set of light sources, a second light source, a plenoptic detector and a processing system coupled to the plenoptic detector. The first set of light sources and the second light source are configured to selectively illuminate an eye. The plenoptic detector is configured to selectively receive images of the first set of light sources reflected from a corneal surface of the eye and generate first plenoptic image data representing the images of the first set of light sources. The plenoptic detector is further configured receive images of the second light source reflected from a retina of the eye and generate second plenoptic image data representing the images of the second light source. | 2014-09-18 |
20140268045 | SYSTEMS AND METHODS FOR MEASURING POSITION AND BOUNDARY OF LENS CAPSULE AND IMPLANTED INTRAOCULAR LENS IN EYE IMAGING - Embodiments of this invention generally relate to systems and methods for eye imaging, and more particularly to measuring the size and position of the lens capsule and of the implanted intraocular lens. In one embodiment, a method for measuring the size and position of the lens capsule and of the implanted intraocular lens comprises generating and emitting one or more light beams at an angle adjacent to the eye, generating one or more eye images, and detecting the position and/or boundary of a lens capsule from its shadow casted by reflected light on the iris. | 2014-09-18 |
20140268046 | SYSTEMS AND METHODS FOR IMPROVED ACQUISITION OF OPHTHALMIC OPTICAL COHERENCE TOMOGRAPHY DATA - Systems and methods for improved acquisition of ophthalmic optical coherence tomography data are presented, allowing for enhanced ease of use and higher quality data and analysis functionality. Embodiments include automated triggering for detecting and initiating collection of OCT ophthalmic data, an automated technique for determining the optimal number of B-scans to be collected to create the highest quality image and optimize speckle reduction, automated review of fundus images collected with an adjunct imaging modality to guide the OCT data collection, a single scan protocol in which a large field of view is collected with HD B-scans embedded at different locations depending on automated analysis of either a fundus image or sparse OCT scan, and various scan configurations for imaging eyes with large axial depth range. | 2014-09-18 |
20140268047 | APPARATUS AND METHOD FOR ASSESSING EFFECTS OF DRUGS BY RECORDING OCULAR PARAMETERS - The invention is directed to quantification of the effects of drugs on a patient using pupillometric measures. Apparatus and processes for obtaining control and patient measures and deriving relationships from same are provided. The methods of the invention provide doctor quantitative feedback on patient symptoms and on the effects of a drug or dosage of same on a patient, as well as provide assessment capability to patients as and law enforcement | 2014-09-18 |
20140268048 | IMAGE PROCESSING DEVICE, IMAGE PROCESSING SYSTEM, IMAGE PROCESSING METHOD, AND PROGRAM - A new tomographic image is generated using a reverse image in which at least one portion of a tomographic image of a retina of an eye to be examined is reversed and the tomographic image so that the reverse image is located on a side on which the retinal layer in the tomographic image is in contact with an end of the tomographic image. | 2014-09-18 |
20140268049 | METHOD FOR DETECTING A DISEASE BY ANALYSIS OF RETINAL VASCULATURE - A method for detecting a disease such as Alzheimer's disease by analysis of retinal vasculature is disclosed. The method for detecting a disease by analysis of retinal vasculature may include applying a combination of optical retro mode illumination techniques to acquire a plurality of amyloid beta plaques and drusen images that are too small to be seen with other imaging modalities. The disease may also be detected with a non-transitory computer storage media having instructions stored thereon which, when executed, execute the method for detecting a disease by analysis of retinal vasculature. The method may track changes in lumen thickness, plaque, size, area and density of the disease by analysis of retinal vasculature over a predetermined period of time. | 2014-09-18 |
20140268050 | TUNABLE LASER ARRAY SYSTEM - A system for swept source optical coherence tomography, the system including a light source emitting multiplexed wavelength-swept radiation over a total wavelength range, the light source including N wavelength-swept vertical cavity lasers (VCL) emitting N tunable VCL outputs having N wavelength trajectories, a combiner for combining the N tunable VCL optical outputs into a common optical path to create the multiplexed wavelength-swept radiation, a splitter for splitting the multiplexed wavelength-swept radiation to a sample and a reference path, an optical detector for detecting an interference signal created by an optical interference between a reflection from the sample and light traversing the reference path, and a signal processing system which uses the interference signal to construct an image of the sample, wherein at least one of the N wavelength trajectories differs from another of the N wavelength trajectories with respect to at least one parameter. | 2014-09-18 |
20140268051 | STRABISMUS DETECTION - A method for detecting strabismus in at least one image comprising a subject's eyes, wherein the at least one image has been obtained using an apparatus comprising a light source and a target offset from the light source, the method comprising, for each of the subject's left and right eyes: determining, from the image, a reflection offset distance, being the distance between a reference point of the eye and a reflection of a light source on the eye; determining a difference between the reflection offset distance and a reference reflection offset distance for the corresponding left or right eye, wherein the reference reflection offset distance has been determined based on relative positions of the light source, the target and the subject's head; and determining whether the difference is less than a difference threshold value for determining whether the subject has a strabismus. | 2014-09-18 |
20140268052 | METHOD FOR DETECTING AMYLOID BETA PLAQUES AND DRUSEN - A method for detecting amyloid beta plaques and drusen is disclosed. The method for detecting amyloid beta plaques and drusen may include applying a combination of optical retro mode illumination techniques to acquire a plurality of amyloid beta plaques and drusen images that are too small to be seen with other imaging modalities. The amyloid beta plaques and drusen images may also be detected with a non-transitory computer storage media having instructions stored thereon which, when executed, execute the method for detecting amyloid beta plaques and drusen. The method may track changes in plaque, size, area and density of the amyloid beta plaques and drusen over a predetermined period of time. | 2014-09-18 |
20140268053 | Eye Imaging Apparatus - An optical device combination with a portable electronic device utilizes a user's autonomic response to truth/false or beneficial/non-beneficial stimulus and provides immediate feedback to the user in the context of an applied kinesiology exam. Through measurements of the pupils dilation or constriction and processing of the measurements by the portable electronic device, the response is obtained and feedback is provided that reflects the pupillary response. The device and method effectively eliminate the subjective components of prior art muscle testing response from the hands of the testing user as well as providing a simple convenient and portable attachment to a user's smart phone. | 2014-09-18 |
20140268054 | AUTOMATIC SCROLLING BASED ON GAZE DETECTION - Disclosed are various embodiments for automatic scrolling of content displayed on a display device in response to gaze detection. Content may be displayed in a window rendered on a display screen. Gaze detection components may be used to detect that a user is gazing at the displayed content and to determine a gaze point relative to the display screen. At least one applicable scroll zone relative to the display screen and a scroll action associated with each applicable scroll zone may be determined. In response to determining that the gaze point is within a first applicable scroll zone, an associated first scroll action may be initiated. The first scroll action causes the content to scroll within the window until at least one of: expiration of a defined period, determining that a portion of the content scrolls past a defined position within the window, determining that the gaze point is outside of the first scroll zone, and detecting an indicator that the user begins reading the content. | 2014-09-18 |
20140268055 | Eye/Gaze Tracker and Method of Tracking the Position of an Eye and/or a Gaze Point of a Subject - An eye/gaze tracker with first and second light sources each configured to illuminate an eye of a subject and controlled to selectively emit light towards the eye in such a manner that within an operation sequence the eye is illuminated by the first light source during at least one first interval and by the second light source during at least one second interval. An image sensor has a plurality of photodiodes each of which is associated with first and second charge storages configured to store electric charges based on an amount of light reaching the photodiode. At least one switch of the image sensor is controlled such that the electric charges are stored in the first charge storage as a result of the illumination during the at least one first interval and in the second charge storage as a result of the illumination during the at least one second interval. | 2014-09-18 |
20140268056 | WAVEFRONT INTERACTIVE REFRACTION DISPLAY - Embodiments of this invention generally relate to systems and methods for wavefront interactive refraction display and more particularly to systems and methods for capturing and displaying eye wavefront interactive refraction data based on the desired refractive state of the patient's eye. | 2014-09-18 |
20140268057 | DEVICE FOR SWEPT SOURCE OPTICAL COHERENCE DOMAIN REFLECTOMETRY - A device for swept-source optical coherence domain reflectometry (SS OCDR) on moveable samples, particularly human eyes, for obtaining A-scans, having a measuring range according to the sample length and having a laser light source which can be adjusted by a main wave number k | 2014-09-18 |
20140268058 | SYSTEM AND METHOD FOR REMOTELY SUPPLYING PRESCRIPTION EYEGLASSES - Disclosed, in one general aspect, is a sample eyeglass frame that includes a frame having a shape designed for everyday use. The frame includes a left temple having an left earpiece on one end and a left lens interface portion on the other, a right temple having a right earpiece on one end and a right lens interface portion on the other, and a bridge having left and right sides. A left lens interfaces with the left lens interface portion of the left temple and the left side of the bridge, and has a left set of optical measurement markings spanning at least part of the left lens. A right lens interfaces with the right lens interface portion of the right temple and the right side of the bridge, and has a right set of optical measurement markings spanning at least part of the right lens. | 2014-09-18 |
20140268059 | TRIAL FRAME - A trial frame is provided in which a trial lens can be moved close to, or moved away from the front of the patient's face, and includes: a main bar, one end of which is connected to a hinge, and another end is turnable forward and backward relative to a patient's face; a slide member that is slidably mounted on the main bar; a sub-bar that is provided at the lower part of the slide member to be at a right angle to the main bar; a support shaft and a support plate that are slidably hung from the sub-bar; a vertical shaft that is provided on the support plate; an angle-adjusting member, one end of which is supported by the support plate to rotate around the vertical shaft; and trial lenses, each of which is hung by a fork-shaped arm at the lower part of the angle-adjusting member. | 2014-09-18 |
20140268060 | COMPUTERIZED REFRACTION AND ASTIGMATISM DETERMINATION - The present disclosure relates generally to a system and method for determining the refractive error of a patient, more particularly determining the patient's refractive error by using a computerized screen, and providing the patient with a prescription for the patient's preferred type of corrective lenses. The system and method do not require the trip or expense of a doctor visit, and are optimized for convenience and cost effectiveness. In a general embodiment, the present disclosure provides a method for determining a corrective lenses prescription of a patient. The method includes, separately, for each eye of the patient, determining the astigmatism prescription of the patient via a computerized screen, and determining the power of the corrective lenses prescription of the patient via the computerized screen. | 2014-09-18 |
20140268061 | Method for selectively imparting a cinematic appearance to motion pictures photographed and exhibited at high frame rates - A method is disclosed whereby motion pictures photographed and exhibited at high frame rates, typically 48 frames-per-second, are modified to impart a cinematic appearance which tempers the level of motion detail inherent at such high frame rates. Motion pictures can be photographed either on film or by digital means. A controlled amount of motion blur is imparted selectively to certain scenes, sequences, frames or components of images. This can be accomplished by using different shuttle angles for digital photography, or by imparting motion blur in post-production. The result is a motion picture that retains a cinematic appearance, at least in part, while other parts of the same motion picture appear hyper-realistic, due to the high frame rate of photography and exhibition. | 2014-09-18 |
20140268062 | HOLOFORM 3D PROJECTION DISPLAY - A 3D projection apparatus comprises a projector, and an angular array of illumination optics coupled to an imager in the projector to create a plurality of views for an 3D image. An array of projection optics is coupled to the imager and a light source is coupled to the angular array of projection optics. | 2014-09-18 |
20140268063 | LIGHTING DEVICE AND PROJECTOR - A lighting device includes a light source that emits a first light flux of a first wavelength band, a fluorescence light emitting element including a phosphor layer which produces, when excited by light of the first wavelength band, light of a second wavelength band, a polarization separation element that has a polarization separation function for light of the first wavelength band and transmits or reflects light of the second wavelength band, a retardation film disposed in an optical path between the polarization separation element and the phosphor layer, a first reflector disposed in an optical path between the retardation film and the phosphor layer, and a second reflector that reflects the light produced by the phosphor layer. The first reflector reflects part of the first light flux toward the polarization separation element, and transmits the other part of the first light flux toward the phosphor layer. | 2014-09-18 |
20140268064 | METHOD AND APPARATUS FOR PROJECTION OF BIM INFORMATION - A system for projecting an image, including layout information, on a surface in a building under construction has a projector mounted on a moveable support for supporting a worker at a work position in the building. The projector projects an image on a surface above the moveable support in response to an image signal defining the image to be projected. The image indicates the location of connectors, anchors, and holes to be affixed to, or cut through, the surface. A system determines the two dimensional position of the projector in the building, and a distance measuring system for determines the distance from the projector to said surface. A processor, responsive to a memory having stored building plan images, provides an image signal to the projector adjusted for the two dimensional location of the projector and for the distance from the projector to the surface. | 2014-09-18 |