Patent application number | Description | Published |
20140240351 | MIXED REALITY AUGMENTATION - Embodiments that relate to providing motion amplification to a virtual environment are disclosed. For example, in one disclosed embodiment a mixed reality augmentation program receives from a head-mounted display device motion data that corresponds to motion of a user in a physical environment. The program presents via the display device the virtual environment in motion in a principal direction, with the principal direction motion being amplified by a first multiplier as compared to the motion of the user in a corresponding principal direction. The program also presents the virtual environment in motion in a secondary direction, where the secondary direction motion is amplified by a second multiplier as compared to the motion of the user in a corresponding secondary direction, and the second multiplier is less than the first multiplier. | 08-28-2014 |
20140375683 | INDICATING OUT-OF-VIEW AUGMENTED REALITY IMAGES - Embodiments are disclosed that relate to operating a user interface on an augmented reality computing device comprising a see-through display system. For example, one disclosed embodiment includes identifying one or more objects located outside a field of view of a user, and for each object of the one or more objects, providing to the user an indication of positional information associated with the object. | 12-25-2014 |
20150116354 | MIXED REALITY SPOTLIGHT - Various embodiments relating to creating a virtual shadow of an object in an image displayed with a see-through display are provided. In one embodiment, an image of a virtual object may be displayed with the see-through display. The virtual object may appear in front of a real-world background when viewed through the see-through display. A relative brightness of the real-world background around a virtual shadow of the virtual object may be increased when viewed through the see-through display. The virtual shadow may appear to result from a spotlight that is fixed relative to a vantage point of the see-through display. | 04-30-2015 |
20150205494 | GAZE SWIPE SELECTION - Methods for enabling hands-free selection of virtual objects are described. In some embodiments, a gaze swipe gesture may be used to select a virtual object. The gaze swipe gesture may involve an end user of a head-mounted display device (HMD) performing head movements that are tracked by the HMD to detect whether a virtual pointer controlled by the end user has swiped across two or more edges of the virtual object. In some cases, the gaze swipe gesture may comprise the end user using their head movements to move the virtual pointer through two edges of the virtual object while the end user gazes at the virtual object. In response to detecting the gaze swipe gesture, the HMD may determine a second virtual object to be displayed on the HMD based on a speed of the gaze swipe gesture and a size of the virtual object. | 07-23-2015 |
20150206321 | AUTOMATED CONTENT SCROLLING - Methods for controlling the display of content as the content is being viewed by an end user of a head-mounted display device (HMD) are described. In some embodiments, an HMD may display the content using a virtual content reader for reading the content. The content may comprise text and/or images, such as text or images associated with an electronic book, an electronic magazine, a word processing document, a webpage, or an email. The virtual content reader may provide automated content scrolling based on a rate at which the end user reads a portion of the displayed content on the virtual content reader. In one embodiment, an HMD may combine automatic scrolling of content displayed on the virtual content reader with user controlled scrolling (e.g., via head tracking of the end user of the HMD). | 07-23-2015 |
20150261318 | GESTURE PARAMETER TUNING - Embodiments are disclosed herein that relate to tuning gesture recognition characteristics for a device configured to receive gesture-based user inputs. For example, one disclosed embodiment provides a head-mounted display device including a plurality of sensors, a display configured to present a user interface, a logic machine, and a storage machine that holds instructions executable by the logic machine to detect a gesture based upon information received from a first sensor of the plurality of sensors, perform an action in response to detecting the gesture, and determine whether the gesture matches an intended gesture input. The instructions are further executable to update a gesture parameter that defines the intended gesture input if it is determined that the gesture detected does not match the intended gesture input. | 09-17-2015 |
20150262425 | ASSESSING AUGMENTED REALITY USAGE AND PRODUCTIVITY - An augmented reality system includes a see-through display, a sensor array including one or more sensors, a logic machine, and a storage machine. The storage machine holds instructions executable by the logic machine to display via the see-through display an activity report. The activity report includes an assessment and a classification of a plurality of tasks performed by a wearer of the see-through display over a period of time. The assessment and the classification of the plurality of tasks is derived from sensor data collected from the one or more sensors over the period of time. | 09-17-2015 |
20150325054 | INDICATING OUT-OF-VIEW AUGMENTED REALITY IMAGES - Embodiments are disclosed that relate to operating a user interface on an augmented reality computing device comprising a see-through display system. For example, one disclosed embodiment includes identifying one or more objects located outside a field of view of a user, and for each object of the one or more objects, providing to the user an indication of positional information associated with the object. | 11-12-2015 |