Patent application number | Description | Published |
20120313839 | ADVANCED PEPPER'S GHOST PROJECTION SYSTEM WITH A MULTIVIEW AND MULTIPLANAR DISPLAY - An apparatus for displaying virtual objects within a physical set or scene. The apparatus includes a set assembly including at least one physical object, e.g., a background prop. A virtual object display assembly is provided with: a display element with a screen operable to display an image of an object; a beam splitter positioned at an angle between the screen and the set assembly; and a mask display element positioned within the set assembly at an image plane associated with the displayed image. The mask display element operates, when the display element operates to display the displayed image, to display a mask corresponding to the displayed image. The beam splitter is transmissive and reflective of light. The mask display element is positioned between the beam splitter and the physical object, and the displayed mask occludes a portion of the physical object and casts a shadow within the set assembly. | 12-13-2012 |
20130002815 | 3D DRAWING SYSTEM FOR PROVIDING A REAL TIME, PERSONALIZED, AND IMMERSIVE ARTISTIC EXPERIENCE - A method for providing a three dimensional (3D) drawing experience. The method includes capturing a 3D image of a participant and then processing this image to key the participant's image from a background. The keyed participant's image is mixed with a 3D background image such as frames or scenes from a 3D movie, and the mixed 3D image is projected on a projection screen. For example, left and right eye images may be projected from a pair of projectors with polarization films over the lenses, and the projection screen may be a polarization-maintaining surface such as a silver screen. The user moves a drawing instrument in space in front of the projection screen, and spatial tracking performed to generate a locus of 3D positions. These 3D positions are used to create a 3D drawing image that is projected with the 3D background and participant images in real time. | 01-03-2013 |
20130069933 | TRANSPARENT MULTI-VIEW MASK FOR 3D DISPLAY SYSTEMS - A multi-view mask apparatus for creating a three-dimensional (3D) display. The apparatus includes a relay lens assembly that is non-inverting of images passed through the relay lens assembly including images of background objects. The apparatus includes a mask display device concurrently displaying first and second mask content via the relay lens assembly. The first mask content is viewable from a first point of view (POV) and the second mask content is viewable from a second POV or the first mask content is apparent from a first light source direction and the second mask content is apparent from a second light source direction. The relay lens assembly includes four lenticular sheets arranged into first and second pairs with adjacent back sides. The mask display device is disposed in one pair between two lenticular sheets and operated to display the first and second mask content as interlaced images under the lenticules. | 03-21-2013 |
20130082905 | MULTI-LAYER PLENOPTIC DISPLAYS THAT COMBINE MULTIPLE EMISSIVE AND LIGHT MODULATING PLANES - A multi-planar plenoptic display assembly with multiple spatially-varying light emitting and modulating planes. The display assembly includes at least one light emitting device and may include a modulating device used in conjunction according to display methods taught herein to display light field data. A display assembly controller may be used to render a light field with depth into a multi-planar plenoptic display assembly by assigning decomposed portions of the light field to the display assembly for display or presentation by differing ones of the emitting elements and by operating a modulating device to provide a parallax barrier. In one embodiment, a projector is used with bi-state screens. In another embodiment, two automultiscopic displays (either parallax barrier or lenticular lenses) are overlaid with a beam splitter. In a further embodiment, an oscillating mirror is used to temporally and optically move one automultiscopic layer (either parallax barrier or lenses) through space. | 04-04-2013 |
20130083291 | AUTOSTEREOSCOPIC DISPLAY SYSTEM WITH ONE DIMENSIONAL (1D) RETROREFLECTIVE SCREEN - An autostereoscopic apparatus for providing a 3D image to a viewer at a range of vertical eye locations. The apparatus includes a projection screen with a light receiving surface that is horizontally retroreflective and vertically diffusive. The apparatus includes a projector assembly including at least two projectors arranged side-by-side such that projection lenses of the projectors are horizontally aligned in a row. The apparatus includes a controller selectively operating the projectors to project at least two differing point-of-view images. The projection screen may take a number of useful embodiments to implement the autostereoscopic apparatus. For example, the projection screen may include a bottom layer including a retroreflective film that is retroreflective at least in the horizontal direction such as a brightness enhancement film and a top layer formed of a transparent sheet of lenticular material arranged for vertical diffusing. | 04-04-2013 |
20140028663 | VOLUMETRIC DISPLAY WITH RIM-DRIVEN, VARIFOCAL BEAMSPLITTER AND HIGH-SPEED, ADDRESSABLE BACKLIGHT - An apparatus for generating volumetric images viewable without 3D eyewear. The apparatus includes an image display assembly displaying a first image at a first display time and a second image at a second display time (e.g., a number of planar or 2D images on a display screen/surface). The apparatus includes a flexible two-way mirror element (a varifocal beamsplitter). During operations, the first and second images from the display assembly are directed toward and then reflected from the back side of the mirror element. The apparatus also includes a hoop-shaped frame supporting a peripheral edge of the mirror element. A driver shakes the frame to resonate the mirror element between convex and concave shapes while it is used for reflecting the first and second images. The apparatus also includes a concave mirror positioned relative to the mirror element to receive the reflected first and second images. | 01-30-2014 |
20140118336 | TRANSPARENT DISPLAY WITH DYNAMIC MASK - A transparent display with a dynamic mask for generating three dimensional (3D) imagery. The display or apparatus includes a display element that is transmissive and that is selectively operable to display an image on the display element. The apparatus includes a dynamic mask element that is transmissive to light and that is positioned adjacent to the display element. The dynamic mask element is selectively operable to provide a mask with a shape and a size corresponding to the displayed image. The mask is positioned on the dynamic mask element so as to be adjacent to the first location, e.g., to be behind the displayed image, and, typically, the mask includes portions that are semi-transparent or opaque to block light from passing from the background through the displayed image and from passing through the display element at the location of the displayed image into the background to avoid double imaging. | 05-01-2014 |
20140168051 | LARGE AUDIENCE 3D DISPLAY SYSTEM WITHOUT GLASSES - A three dimensional (3D) display apparatus for without 3D glasses. The display apparatus includes a display element operated to display left and right eye images. A back light assembly back lights the display element and includes light bars with a row of infrared (IR) light receivers that are each paired to a white light emitting diode (LED). Viewers in seats in tiered rows such that their heads are in known viewing locations. Left and right side illuminators illuminate the left and right sides of the faces of the viewers with IR light. The IR light is synchronized with display of the left and right eye images. IR reflected from viewers' faces pass through the display element and is focused onto IR light receivers, which causes LEDs to emit light onto the display element and provide left or right eye images to the viewers at their left or right eyes. | 06-19-2014 |
20140293385 | COURSE INTEGRAL HOLOGRAPHIC DISPLAY - A holographic display system for generating a super hologram with full parallax in different fields of view in the horizontal and vertical directions. The system includes an array of holographic display devices, e.g., spatial light modulators (SLMs), operable to provide a plurality of holographic images of a scene from differing viewpoints of the scene. Each SLM is operated concurrently to output a narrow field of view, elemental hologram. The system includes coarse integral optics combining the holographic images into a single hologram (“super hologram”) viewable in a hologram image plane a distance from the course integral optics. The coarse integral optics combine the holographic images by providing angular tiling of the holographic images, e.g., bending the axes of parallel lenses. In this manner, the field of view, in one direction, of the super hologram is based on the number of holographic display devices provided in the array in one direction. | 10-02-2014 |
20150201188 | LIGHT-BASED CAUSTIC SURFACE CALIBRATION - A method for performing light-based calibration of optics with caustic surfaces. The method includes mapping a light detecting device to a programmable light source. Then, the method includes operating a calibration light source to direct light onto one or more caustic surfaces of an optical assembly, e.g., an assembly of one or more lenses, facets, lenticules, and lenslets. The method may then involve, with the light detecting device, capturing an image of a projection surface of the optical assembly, which is opposite the one or more caustic surfaces in the optical assembly, as the projection surface is illuminated by the light from the light source. Further, the method includes processing the captured image, along with the mapping of the light detecting device to the programmable light source, to generate a calibration map of the optical assembly including the caustic surfaces. | 07-16-2015 |
Patent application number | Description | Published |
20140192281 | SWITCHING DUAL LAYER DISPLAY WITH INDEPENDENT LAYER CONTENT AND A DYNAMIC MASK - A dual layer display system for generating dimensional imagery. The system includes a first display device and a second display device with a light source. The second display device is arranged to be spaced apart from the first display device and to project output light onto a back surface of the first display device. The system alternatively operates the display devices in a first mode in which the first display device is transparent and the second display device displays back layer content and in a second mode in which the first display device displays front layer content and the second display device operates as a backlight to the first display device. In the first mode, the first display device displays a mask for the front layer content such as with gray-to-black pixels mapped to an object in the front layer content to block back layer content at this location. | 07-10-2014 |
20140268515 | MAGNETIC AND ELECTROSTATIC VIBRATION-DRIVEN HAPTIC TOUCHSCREEN - A system adapted for selectively attracting an object to and moving the object on a surface. The system includes an oscillating element including a contact surface such as a computer tablet with a touch screen or a table with a ferrous surface. The system includes a drive (or vibration inducing) assembly coupled to the oscillating element operable to oscillate the oscillating element to linearly move the contact surface first in a first direction and second in a second direction opposite the first direction (e.g., along an X-axis or Y-axis). The system further includes a preferential friction assembly operating to first create an attractive force between the contact surface and the object and second to modify the attractive force. This causes the object to move with the contact surface when the attractive force is created and the contact surface to move relative to the object when the attractive force is modified. | 09-18-2014 |
20140333899 | PROJECTABLE MASKS - A display assembly for displaying a virtual image of an object with occlusion and contrast. The display assembly includes a virtual object display selectively displaying an image at a virtual object plane. The display assembly includes a mask generation screen assembly with a screen element operable in a first state in which the screen element is transparent to visible light and in a second state in which a portion is opaque. The screen element is positioned proximate to the virtual object plane. The opaque portion of the screen element corresponds in size, shape, and location to the displayed virtual object image to provide a mask for the virtual image. The screen element may include a projectable mask screen opaque in regions exposed to a predefined type of non-visible light. The non-visible light may be ultraviolet (UV) light or infrared (IR) light selectively provided by a UV or IR projector. | 11-13-2014 |
20150103510 | SPECIAL EFFECTS SYSTEM USING RETROREFLECTIONS TO CREATE AN ILLUSION OF GLOWING TOYS AND PROPS - A special effects (FX) system for generating a penumbra or glow effect about an object. Briefly, the FX system includes at least one sheet of retroreflective material and a penumbra activator. The penumbra activator is designed to selectively direct light toward a reflective surface of the retroreflective material. For example, the penumbra activator may include an elongated core element extending from a hilt. The body of the core element may include strings or sets of direction light sources, which may be spaced apart along the length of external surfaces of the core element body. A controller is used to operate the light sources such as by sequentially illuminating the lights sources from an end near the base/hilt to an end near a tip/distal end of the core element body, with earlier lit sources remaining on in some cases to cause a light sword blade to grow out of the hilt. | 04-16-2015 |
20150116798 | SCALABLE AND TILEABLE HOLOGRAPHIC DISPLAYS - A holographic display system for generating a super hologram with full parallax in different fields of view in the horizontal and vertical directions. The display system includes assemblies or subsystems each adapted to combine holographic displays and coarse integral displays to produce or display a coarse integral hologram. The display system is adapted to combine such displays or display systems to add more detail or information. For example, the display system can be assembled as if it were made up of “holographic bricks” that can be stacked and combined to provide a unique image/output. Briefly, the display system described herein teaches techniques for combining coarse integral holographic (CIH) displays in a seamless and scalable manner, e.g., a display system where multiple spatial light modulators (SLMs) can be placed or provided behind coarse integral optics. | 04-30-2015 |
20150201186 | OPTICAL VORTEX 3D DISPLAYS - A method for generating three dimensional (3D) displays. The method includes displaying a hologram that combines three (or more) images encoded into three (or more) different OAM channels, and the method also includes reflecting light from the displayed hologram to create a multichannel light beam. Then, the method involves decoding the multichannel light beam to decode and display the three encoded images. The decoding step includes displaying the three encoded images in decoded form in three view zones, three focal planes, or on three spaced-apart planes. The decoding is performed by a single decoding screen using holograms used for generating the three encoded images or is performed by three decoding screens configured based on a differing one of the holograms used for generating the three encoded images. The displaying of the hologram step includes operating a spatial light modulator (SLM) to display the hologram on a screen of the SLM. | 07-16-2015 |
20150237333 | LARGE AUDIENCE 3D DISPLAY SYSTEM WITHOUT GLASSES - A three dimensional (3D) display apparatus for without 3D glasses. The display apparatus includes a display element operated to display left and right eye images. A back light assembly back lights the display element and includes light bars with a row of infrared (IR) light receivers that are each paired to a white light emitting diode (LED). Viewers in seats in tiered rows such that their heads are in known viewing locations. Left and right side illuminators illuminate the left and right sides of the faces of the viewers with IR light. The IR light is synchronized with display of the left and right eye images. IR reflected from viewers' faces pass through the display element and is focused onto IR light receivers, which causes LEDs to emit light onto the display element and provide left or right eye images to the viewers at their left or right eyes. | 08-20-2015 |
20150241712 | SPINNING FAN MIRROR BEAM COMBINER FOR A BORDERLESS SELF-CONTAINED PEPPER'S GHOST - A 3D display apparatus for providing a Pepper's Ghost effect. The apparatus includes a background set spaced apart from a viewing space such that a viewer in the viewing space has a line of sight to the background set. The apparatus also includes a mirrored surfaces fan, which includes a motor, a hub rotatable by the motor, and a plurality of fan blades attached in a spaced apart manner to the hub to rotate with the hub. In some cases, each of the fan blades has a reflective region on a side facing away from the background set. The apparatus also includes a display device with a screen displaying an image of an object. The screen is positioned at an offset angle in the range of 40 to 60 degrees from a rotation plane for the sides of the fan blades. Often, the display device includes a 3D autostereoscopic device. | 08-27-2015 |
20150241960 | 3D DRAWING SYSTEM FOR PROVIDING A REAL TIME, PERSONALIZED, AND IMMERSIVE ARTISTIC EXPERIENCE - A method for providing a three dimensional (3D) drawing experience. The method includes capturing a 3D image of a participant and then processing this image to key the participant's image from a background. The keyed participant's image is mixed with a 3D background image such as frames or scenes from a 3D movie, and the mixed 3D image is projected on a projection screen. For example, left and right eye images may be projected from a pair of projectors with polarization films over the lenses, and the projection screen may be a polarization-maintaining surface such as a silver screen. The user moves a drawing instrument in space in front of the projection screen, and spatial tracking performed to generate a locus of 3D positions. These 3D positions are used to create a 3D drawing image that is projected with the 3D background and participant images in real time. | 08-27-2015 |
20150277378 | IMAGE BASED MULTIVIEW MULTILAYER HOLOGRAPHIC RENDERING ALGORITHM - Algorithms for improved and more efficient rendering of three-dimensional images for use with holographic display systems. These algorithms include creating layers orthogonal to a viewing direction, the separate layers representing different depths in the image. The layers are created based on knowing the color and depth of each point in the image. Each layer then goes through an FFT process until the information for each layer is represented as a diffraction pattern. A holographic lens is then applied to the diffraction pattern of each layer. This lens will cause that layer to appear, in a hologram based thereon, at a different depth than the other layers. The layers, each with their separate lenses, are then coherently summed up and when applied to a suitable portion of a holographic display system (e.g., an SLM), a hologram can be created for that view. A tiled array of such holograms can be combined together by the holographic display system. | 10-01-2015 |
Patent application number | Description | Published |
20080249369 | Compact scanning fiber device - Scanning fiber devices are disclosed. In one aspect, a scanning fiber device may include an actuator tube. The scanning fiber device may also include a cantilevered free end portion of an optical fiber. The cantilevered free end portion of the optical fiber may have an attached end that is coupled with the actuator tube. The cantilevered free end portion of the optical fiber may also have a free end to be moved by the actuator tube. At least a portion of a length of the cantilevered free end portion of the optical fiber may be disposed within the actuator tube. Methods of using scanning fiber devices are also disclosed. | 10-09-2008 |
20090040294 | Holographic video display system - A holographic video display comprises a monochromatic light source, a video signal generator, guided-wave acousto-optic modulators for diffracting light according to signals received from the video signal generator, a vertical scanning subsystem, and an optical path between the acousto-optic modulator and the vertical scanning subsystem. The optical path preferably comprises a Bravais lens system, first and second Fourier transform lens systems, and at least one holographic optical element or stationary mirror of continuous helical shape. In a method for generating a holographic image, monochromatic light is provided to at least one guided-wave acousto-optic modulator, the received light is diffracted according to a video signal, the guided-wave modulator aperture is scanned to produce a holo-line, the motion of the diffraction pattern is undone to render the holo-line stationary, the guided-wave modulator aperture is demagnified to create a wide field of view, and the holo-lines are tiled vertically to create the image. | 02-12-2009 |