Patent application number | Description | Published |
20140085282 | SEE-THROUGH OPTICAL IMAGE PROCESSING - Systems and methods for performing optical image processing via a transparent display are disclosed. In one example approach, a method comprises determining a position of incident light on a see-through display device, determining a direction of the incident light relative to the see-through display device, and modulating, with the see-through display device, a transmission of the incident light through the see-through display device based on the determined position and determined direction of the incident light. | 03-27-2014 |
20140168034 | NEAR-EYE PARALLAX BARRIER DISPLAYS - In embodiments of the invention, an apparatus may include a display comprising a plurality of pixels and a computer system coupled with the display and operable to instruct the display to display images. The apparatus may further include an SLM array located adjacent to the display and comprising a plurality of SLMs, wherein the SLM array is operable to produce a light field by altering light emitted by the display to simulate an object that is in focus to an observer while the display and the SLM array are located within a near-eye range of the observer. | 06-19-2014 |
20140168035 | NEAR-EYE OPTICAL DECONVOLUTION DISPLAYS - In embodiments of the invention, an apparatus may include a display comprising a plurality of pixels. The apparatus may further include a computer system coupled with the display and operable to instruct the display to display a deconvolved image corresponding to a target image, wherein when the display displays the deconvolved image while located within a near-eye range of an observer, the target image may be perceived in focus by the observer. | 06-19-2014 |
20140168783 | NEAR-EYE MICROLENS ARRAY DISPLAYS - In embodiments of the invention, an apparatus may include a display comprising a plurality of pixels and a computer system coupled with the display and operable to instruct the display to display images. The apparatus may further include a microlens array located adjacent to the display and comprising a plurality of microlenses, wherein the microlens array is operable to produce a light field by altering light emitted by the display to simulate an object that is in focus to an observer while the display and the microlens array are located within a near-eye range of the observer. | 06-19-2014 |
20150049390 | HYBRID OPTICS FOR NEAR-EYE DISPLAYS - A method for displaying a near-eye light field display (NELD) image is disclosed. The method comprises determining a pre-filtered image to be displayed, wherein the pre-filtered image corresponds to a target image. It further comprises displaying the pre-filtered image on a display. Subsequently, it comprises producing a near-eye light field after the pre-filtered image travels through a microlens array adjacent to the display, wherein the near-eye light field is operable to simulate a light field corresponding to the target image. Finally, it comprises altering the near-eye light field using at least one converging lens, wherein the altering allows a user to focus on the target image at an increased depth of field at an increased distance from an eye of the user and wherein the altering increases spatial resolution of said target image. | 02-19-2015 |
20150228226 | POWER-EFFICIENT STEERABLE DISPLAYS - A method for angularly varying backlight illumination of a backlit display device. The method comprises determining at least one subject position and angularly varying a backlight illumination of a displayed image. The backlight illumination is angularly varied based upon and directed towards a determined position of the at least one subject. The angularly varied backlight illumination of the displayed image reduces the backlight illumination of the displayed image that is visible outside of the determined position of the at least one subject. | 08-13-2015 |
20150310789 | SUPERRESOLUTION DISPLAY USING CASCADED PANELS - System and method of displaying images in spatial/temporal superresolution by multiplicative superposition of cascaded display layers integrated in a display device. Using an original image with a target spatial/temporal resolution as a priori, a factorization process is performed to derive respective image data for presentation on each display layer. The cascaded display layers may be progressive and laterally shifted with each other, resulting in an effective spatial resolution exceeding the native display resolutions of the display layers. Factorized images may be refreshed on respective display layers in synchronization or out of synchronization. | 10-29-2015 |
20150310798 | SUPERRESOLUTION DISPLAY USING CASCADED PANELS - System and method of displaying images in temporal superresolution by multiplicative superposition of cascaded display layers integrated in a display device. Using an original video with a target temporal resolution as a priori, a factorization process is performed to derive respective image data for presentation on each display layer. The multiple layers are refreshed in staggered intervals to synthesize a video with an effective refresh rate exceeding that of each individual display layer, e.g., by a factor equal to the number of layers. Further optically averaging neighboring pixels can minimize artifacts. | 10-29-2015 |