VUZIX CORPORATION Patent applications |
Patent application number | Title | Published |
20140300966 | CONTROLLABLE WAVEGUIDE FOR NEAR-EYE DISPLAY APPLICATIONS - A near-eye display includes an image generator that generates angularly related beams over a range of angles for forming a virtual image and a waveguide that propagates the angularly related beams over a limited range of angles. An input aperture of the waveguide includes a plurality of controllable components that are selectively operable as diffractive optics for injecting subsets of the angularly related beams into the waveguide. An output aperture of the waveguide includes a plurality of controllable components that selectively operable as diffractive optics for ejecting corresponding subsets of the angularly related beams out of the waveguide toward an eyebox. A controller synchronizes operation of the controllable components of the output aperture with the propagation of different subsets of angularly related beams along the waveguide for ejecting the subsets of angularly related beams out of the waveguide for presenting the virtual image within the eyebox. | 10-09-2014 |
20130128334 | Beam Steering Device - An electrically variable lens comprising a variable Fresnel lens and a variable phase corrector plate. A liquid crystal variable Fresnel lens and liquid crystal phase corrector plate are varied in concert to compensate for wavefront discontinuities that would otherwise be produced by the Fresnel lens. The same principle is also used to provide a device capable of imposing an arbitrary spatial and temporal phase modulation on a wavefront. | 05-23-2013 |
20130051730 | DYNAMIC APERTURED WAVEGUIDE FOR NEAR-EYE DISPLAY - A near-eye display of a type having an image generator for generating a succession of angularly related beams and waveguide for propagating the angularly related beams to an eyebox within which a virtual image is visible includes a controllable output aperture for such purposes as reconstructing a better defined pupil within the eyebox while also preserving the possibility for viewing the ambient environment from the eyebox through the controllable output aperture. | 02-28-2013 |
20120069413 | NEAR-EYE DISPLAY WITH ON-AXIS SYMMETRY - A near-eye display projects virtual images from an image generator to an eyebox within which the virtual images can be seen by a viewer. A first optical path conveys image-bearing light from the image generator to a selectively reflective powered optic and a second optical path conveys the image-bearing light along a line of sight from the selectively reflective powered optic to the eyebox. First and second selectively reflective surfaces fold the first optical path with respect to the second optical path to locate the image generator out of the line of sight to the eyebox. The image generator is effectively inclined to the line of sight to the eyebox for reducing a thickness of the near-eye display. The selectively reflective powered optic is oriented normal to local overlapping portions of the first and second optical paths at the selectively reflective powered optic. | 03-22-2012 |
20120062998 | PRISMATIC MULTIPLE WAVEGUIDE FOR NEAR-EYE DISPLAY - A near-eye display includes a compound waveguide for presenting viewers with virtual images visible within an eyebox at a limited relief distance from the compound waveguide. The compound waveguide is assembled from a plurality of waveguides that are at least partially optically isolated for conveying different portions of the virtual image. An input couple injects the different portions of the virtual image into predetermined combinations of the waveguides, and an output coupling ejects the different portions of the virtual image from the waveguides toward the eyebox in a form that at least partially constructs a pupil within the eyebox. | 03-15-2012 |
20110286063 | AGILE OPTICAL PHASED ARRAY DEVICE AND APPLICATIONS - A device that provides light beam switching, agile steering of the light beam over a range of angles, and generation of arbitrary wavefront shapes with high spatial and temporal resolution. The agile device can include a volume diffractive structure comprising Bragg planes having one refractive index and the Bragg planes separated by regions containing an active optical medium. Electrodes (which may be the Bragg planes themselves, or may be arrayed adjacent to the active optical medium) are used to control the electric field intensity and direction across the structure, and thereby control the diffraction efficiency of the structure and the local phase delay imposed on a diffracted wavefront. Means are provided for addressing the many thousands of electrodes required for precise and rapid wavefront control. Applications include free-space atmospheric optical communications, near-eye displays, direct-view 3D displays, optical switching, and a host of other applications. | 11-24-2011 |
20110134017 | COMPACT NEAR EYE DISPLAY WITH SCANNED IMAGE GENERATION - A compact near eye display generates image segments for a first dimension of an intended image. Each of the image segments is transformed into angularly distinguished beamlets that converge through a first dimension pupil within an eyebox. A scanning optic angularly separates the angularly distinguished beamlets of different image segments for creating a second dimension pupil. The angularly distinguished and separated beamlets propagate along a waveguide in a form that minimizes the thickness of the display in front of a viewer's eye and limits the overall size of the optics required to support the projection of virtual images into the viewer's eye. | 06-09-2011 |
20100254018 | BEAM SEGMENTOR FOR ENLARGING VIEWING APERTURE OF MICRODISPLAY - A display platform orients a virtual image in alignment with a viewer's eye. A transmissive plate receives a light beam conveying the virtual image into the transmissive plate for propagation by internal reflection between inner and outer surfaces of the transmissive plate along the length of the transmissive plate. A plurality of reflective facets progressively interrupt the propagation of the light beam along the length of the transmissive plate for reflecting successive portions of the light beam in a direction for rendering the virtual image visible to the viewer. | 10-07-2010 |
20100141905 | CONTROLLABLE LIGHT ARRAY FOR PROJECTION IMAGE DISPLAY - Projection image displays for projecting virtual images into viewers' eyes include an array of separately activatable light sources located conjugate to a pupil of the displays. Illumination patterns produced within the arrays are symmetrically replicated within viewing eyeboxes of the displays. The illumination patterns can be varied to alter the size or position of the pupil within the eyeboxes. | 06-10-2010 |
20090174728 | METHODS OF AND SYSTEMS FOR DISPLAYING SELECTED PORTIONS OF SPLIT SCREEN DISPLAYS - A system for manipulating the appearance of a video signal includes an input, a user interface, and a processor. The input receives a video signal displayable as a video image in an active video field. The video image includes a plurality of sections. The user interface accepts a user input to select one of the plurality of sections. The processor manipulates the video signal to display the selected one or more of the plurality of sections of the video image on a display associated with the user. | 07-09-2009 |
20080239420 | AGILE HOLOGRAPHIC OPTICAL PHASED ARRAY DEVICE AND APPLICATIONS - A device that provides light beam switching, agile steering of the light beam over a range of angles, and generation of arbitrary wavefront shapes with high spatial and temporal resolution. The agile device can include a volume diffractive structure comprising Bragg planes having one refractive index and the Bragg planes separated by regions containing an active optical medium. Electrodes (which may be the Bragg planes themselves, or may be arrayed adjacent to the active optical medium) are used to control the electric field intensity and direction across the structure, and thereby control the diffraction efficiency of the structure and the local phase delay imposed on a diffracted wavefront. Means are provided for addressing the many thousands of electrodes required for precise and rapid wavefront control. Applications include free-space atmospheric optical communications, near-eye displays, direct-view 3D displays, optical switching, and a host of other applications. | 10-02-2008 |