Abstract: A near-eye display for conveying virtual images within a real-world view includes a projector having an illuminator with an extended light source including a plurality of cells, each containing light sources, and a partial homogenizer for partially overlapping light from the plurality of cells at an illumination plane of a spatial light modulator. A controller adjusts the outputs of the plurality of cells to alter a distribution of the light over the illumination plane.

Abstract: A head-mounted near-eye display system for controlling a network-connected device, including an image light guide operable to convey image-bearing light beams from an image source to an eyebox within which a virtual image can be viewed, the image source operable to form a reticle within the virtual image. A user input mechanism operable to control the reticle such that the reticle may be visually superimposed over the network-connected device, wherein the network-connected device is operable to receive commands to change state over the network, and wherein the user input mechanism is operable to select the network-connected device when the reticle is visually superimposed over the network-connected device, whereby the state of the network-connected device is operable to be changed.

Abstract: A near-eye display for conveying virtual images within a real-world view includes a projector arranged to compensate for undesirable color gradients in the virtual images. The projector includes an illuminator with an extended light source having a plurality of cells each containing different color light sources and a partial homogenizer for partially overlapping light from the plurality of cells at an illumination plane of a spatial light modulator. A controller adjusts the color outputs of the cells to provide a color distribution over the illumination plane to compensate for the color gradients within the virtual images.

Abstract: A head-mounted display system, including an image source operable to generate image-bearing light, a near-eye display operable to convey the image-bearing light beams to an eyebox within which a virtual image can be viewed, a camera located adjacent to the near-eye display, wherein the camera has a center of focus, and a processing unit operable to output signals to the image source, wherein the processing unit is operable form a reticle within the virtual image via the image source and dynamically position the reticle at the camera center of focus.

Abstract: A near-eye display system including an optics module having a projector operable to generate angularly encoded light beams and a camera operable to capture images of an environment, wherein the optics module is operable to convey at least a portion of the light beams to an eyebox. An electronics module having a controller in electrical connection with the optics module, a mounting module located between the electronics module and the optics module, wherein the electronics module is coupled with the optics module via the mounting module, and a first pivot located between the optics module and the electronics module, wherein the optics module is rotatable relative to the electronics module about a first axis. Wherein at least a portion of the optics module is rotatable relative to the electronics module about a second axis oriented transverse to the first axis.

Abstract: A wearable display apparatus has a support that mounts the display apparatus against the head of a viewer; a ball joint that is fitted within the support and coupled to a clamp that extends from the support; a slide that is translatable within the clamp in a first direction and that holds a display module for forming the display image; and a display coupled to the display module and rotatable in a first arc about a vertical axis that extends in a second direction that is orthogonal to the first direction and further rotatable in a second arc about a horizontal axis that is substantially orthogonal to the vertical axis.

Abstract: A near-eye display system including an optics module coupled with an electronics module having a controller. Wherein the optics module includes a planar waveguide operable to display virtual images, and a camera operable to capture pictures and videos. The planar waveguide coupled with the camera via the optics module, whereby a first view through the planar waveguide is oriented to be the same as a second view by the camera.

Abstract: An image light guide for conveying a virtual image has a waveguide that conveys image-bearing light, formed as a flat plate having an in-coupling diffractive optic with a first grating vector diffracting an image-bearing light beam into the waveguide and directing diffracted light. An out-coupling diffractive optic is formed as a plurality of overlapping diffraction gratings including a first grating pattern having first grating vector k1 and a second grating pattern having a second grating vector k2 for expanding and ejecting the expanded image bearing beams from the waveguide into an expanded eyebox within which the virtual image can be seen.

Abstract: A head-mounted display system, including an image source operable to generate image-bearing light, a near-eye display operable to convey the image-bearing light beams to an eyebox within which a virtual image can be viewed, a camera located adjacent to the near-eye display, wherein the camera has a center of focus, and a processing unit operable to output signals to the image source, wherein the processing unit is operable form a reticle within the virtual image via the image source and dynamically position the reticle at the camera center of focus.

Abstract: A method of real-time communication, including providing a first electronic communications device in signal communication with a network, wherein the first electronic communications device includes a processing unit, and providing a second electronic communications device in signal communication with the network. Initiating a communications session between the first and second electronic communications devices, tracking a duration of the communications session, and ending the communications session between the first and second communications devices. Generating billing data as a function of the duration of the communication session and automatically transmitting the billing data to a billing agency.

Abstract: An imaging light guide has a waveguide and an in-coupling diffractive optic formed on the waveguide and disposed to direct image-bearing light beams into the waveguide. An array of two or more at least partially reflective surfaces are oriented in parallel and disposed to expand the image-bearing light beams from the in-coupling diffractive optic in a first dimension and to direct the expanded image-bearing light beams toward an out-coupling diffractive optic. The out-coupling diffractive optic is formed on the waveguide and disposed to expand the image-bearing light beams in a second dimension orthogonal to the first dimension and to direct the image-bearing light beams toward a viewer eyebox.

Abstract: A near-eye display system including an optics module coupled with an electronics module having a controller. Wherein the optics module includes a planar waveguide operable to display virtual images, and a camera operable to capture pictures and videos. The planar waveguide coupled with the camera via the optics module, whereby a first view through the planar waveguide is oriented to be the same as a second view by the camera.

Abstract: A wearable display apparatus has a support that mounts the display apparatus against the head of a viewer; a ball joint that is fitted within the support and coupled to a clamp that extends from the support; a slide that is translatable within the clamp in a first direction and that holds a display module for forming the display image; and a display coupled to the display module and rotatable in a first arc about a vertical axis that extends in a second direction that is orthogonal to the first direction and further rotatable in a second arc about a horizontal axis that is substantially orthogonal to the vertical axis.

Abstract: An imaging apparatus for forming dual virtual images includes a planar waveguide, an in-coupling diffractive optic that directs a set of image-bearing light beams into the waveguide, and an out-coupling diffractive optic that directs the set of image-bearing light beams from the waveguide toward a viewer eyebox. The out-coupling diffractive optic includes an array of contiguous diffractive zones, each of which has a set of diffractive features having at least one of a common orientation and a common pitch. A succession of the zones along one dimension of the array have respective sets of diffractive features that progressively vary in at least one of orientation and pitch in a stepwise manner. The out-coupling diffractive optic is arranged together with the array of contiguous diffractive zones for forming a virtual image that is viewable from the eyebox at a near focus distance.

Abstract: A parallel plate waveguide assembly for conveying an image bearing light from an in-coupling optic to an out-coupling optic is disclosed wherein the waveguide assembly includes at least a waveguide blank having a first surface and a second surface located a distance from the first surface to create a thickness of the blank. The waveguide assembly further includes a first coating applied to the first surface forming a third surface and a second coating applied to the second surface forming a fourth surface. The third and fourth surfaces are less than a quarter of a wavelength of an image bearing light beam in flatness.

Abstract: A wearable display apparatus has a support that mounts the display apparatus against the head of a viewer; a ball joint that is fitted within the support and coupled to a clamp that extends from the support; a slide that is translatable within the clamp in a first direction and that holds a display module for forming the display image; and a display coupled to the display module and rotatable in a first arc about a vertical axis that extends in a second direction that is orthogonal to the first direction and further rotatable in a second arc about a horizontal axis that is substantially orthogonal to the vertical axis.

Abstract: A near-eye display for conveying virtual images within a real-world view includes a projector arranged to compensate for undesirable color gradients in the virtual images. The projector includes an illuminator with an extended light source having a plurality of cells each containing different color light sources and a partial homogenizer for partially overlapping light from the plurality of cells at an illumination plane of a spatial light modulator. A controller adjusts the color outputs of the cells to provide a color distribution over the illumination plane to compensate for the color gradients within the virtual images.

Abstract: The present invention relates to a method and reagents for determining the presence of or the amount of an analyte in a sample.

Abstract: An imaging light guide has waveguide for conveying image-bearing light beams from an image source to an eyebox within which a virtual image can be viewed. First and second in-coupling diffractive optics direct first and second sets of the image-bearing light beams into the waveguide along different first and second paths. First and second turning diffractive optics disposed along the respective paths expand the image-bearing light beams of the first and second sets in a first dimension and direct the expanded image-bearing light beams of the first and second sets to first and second out-coupling diffractive optics. The first and second out-coupling diffractive optics further expand the image-bearing light beams of the two sets in a second dimension and direct the further expanded image-bearing light beams of the two sets from the waveguide toward the eyebox.

Abstract: A frame supports a display apparatus against the head of a viewer. A projector fitted within the frame generates a beam of image-bearing light. A light guide coupled to a forward section of the frame has a waveguide, an in-coupling diffractive optic formed on the waveguide for directing image-bearing light beams into the waveguide, a turning optic formed on the waveguide for expanding the respective image-bearing light beams from the in-coupling diffractive optic in a first dimension, and an out-coupling diffractive optic formed on the waveguide for expanding the respective image-bearing light beams in a second dimension orthogonal to the first dimension and forming a virtual image within a viewer eyebox. A mount supports the light guide in front of the viewer and provides a hinge for angular adjustment of the waveguide with respect to the projector.