Patent application number | Description | Published |
20100199229 | MAPPING A NATURAL INPUT DEVICE TO A LEGACY SYSTEM - Systems and methods for mapping natural input devices to legacy system inputs are disclosed. One example system may include a computing device having an algorithmic preprocessing module configured to receive input data containing a natural user input and to identify the natural user input in the input data. The computing device may further include a gesture module coupled to the algorithmic preprocessing module, the gesture module being configured to associate the natural user input to a gesture in a gesture library. The computing device may also include a mapping module to map the gesture to a legacy controller input, and to send the legacy controller input to a legacy system in response to the natural user input. | 08-05-2010 |
20100281439 | Method to Control Perspective for a Camera-Controlled Computer - Systems, methods and computer readable media are disclosed for controlling perspective of a camera-controlled computer. A capture device captures user gestures and sends corresponding data to a recognizer engine. The recognizer engine analyzes the data with a plurality of filters, each filter corresponding to a gesture. Based on the output of those filters, a perspective control is determined, and a display device displays a new perspective corresponding to the perspective control. | 11-04-2010 |
20100306261 | Localized Gesture Aggregation - Systems, methods and computer readable media are disclosed for a localized gesture aggregation. In a system where user movement is captured by a capture device to provide gesture input to the system, demographic information regarding users as well as data corresponding to how those users respectively make various gestures is gathered. When a new user begins to use the system, his demographic information is analyzed to determine a most likely way that he will attempt to make or find it easy to make a given gesture. That most likely way is then used to process the new user's gesture input. | 12-02-2010 |
20100306712 | Gesture Coach - A capture device may capture a user's motion and a display device may display a model that maps to the user's motion, including gestures that are applicable for control. A user may be unfamiliar with a system that maps the user's motions or not know what gestures are applicable for an executing application. A user may not understand or know how to perform gestures that are applicable for the executing application. User motion data and/or outputs of filters corresponding to gestures may be analyzed to determine those cases where assistance to the user on performing the gesture is appropriate. | 12-02-2010 |
20100306713 | Gesture Tool - Systems, methods and computer readable media are disclosed for a gesture tool. A capture device captures user movement and provides corresponding data to a gesture recognizer engine and an application. From that, the data is parsed to determine whether it satisfies one or more gesture filters, each filter corresponding to user-performed gesture. The data and the information about the filters is also sent to a gesture tool, which displays aspects of the data and filters. In response to user input corresponding to a change in a filter, the gesture tool sends an indication of such to the gesture recognizer engine and application, where that change occurs. | 12-02-2010 |
20100306714 | Gesture Shortcuts - Systems, methods and computer readable media are disclosed for gesture shortcuts. A user's movement or body position is captured by a capture device of a system, and is used as input to control the system. For a system-recognized gesture, there may be a full version of the gesture and a shortcut of the gesture. Where the system recognizes that either the full version of the gesture or the shortcut of the gesture has been performed, it sends an indication that the system-recognized gesture was observed to a corresponding application. Where the shortcut comprises a subset of the full version of the gesture, and both the shortcut and the full version of the gesture are recognized as the user performs the full version of the gesture, the system recognizes that only a single performance of the gesture has occurred, and indicates to the application as such. | 12-02-2010 |
20100306715 | Gestures Beyond Skeletal - Systems, methods and computer readable media are disclosed for gesture input beyond skeletal. A user's movement or body position is captured by a capture device of a system. Further, non-user-position data is received by the system, such as controller input by the user, an item that the user is wearing, a prop under the control of the user, or a second user's movement or body position. The system incorporates both the user-position data and the non-user-position data to determine one or more inputs the user made to the system. | 12-02-2010 |
20110299728 | AUTOMATIC DEPTH CAMERA AIMING - Automatic depth camera aiming is provided by a method which includes receiving from the depth camera one or more observed depth images of a scene. The method further includes, if a point of interest of a target is found within the scene, determining if the point of interest is within a far range relative to the depth camera. The method further includes, if the point of interest of the target is within the far range, operating the depth camera with a far logic, or if the point of interest of the target is not within the far range, operating the depth camera with a near logic. | 12-08-2011 |
20110304632 | INTERACTING WITH USER INTERFACE VIA AVATAR - Embodiments are disclosed that relate to interacting with a user interface via feedback provided by an avatar. One embodiment provides a method comprising receiving depth data, locating a person in the depth data, and mapping a physical space in front of the person to a screen space of a display device. The method further comprises forming an image of an avatar representing the person, outputting to a display an image of a user interface comprising an interactive user interface control, and outputting to the display device the image of the avatar such that the avatar faces the user interface control. The method further comprises detecting a motion of the person via the depth data, forming an animated representation of the avatar interacting with the user interface control based upon the motion of the person, and outputting the animated representation of the avatar interacting with the control. | 12-15-2011 |
20110304774 | CONTEXTUAL TAGGING OF RECORDED DATA - Embodiments are disclosed that relate to the automatic tagging of recorded content. For example, one disclosed embodiment provides a computing device comprising a processor and memory having instructions executable by the processor to receive input data comprising one or more of a depth data, video data, and directional audio data, identify a content-based input signal in the input data, and apply one or more filters to the input signal to determine whether the input signal comprises a recognized input. Further, if the input signal comprises a recognized input, then the instructions are executable to tag the input data with the contextual tag associated with the recognized input and record the contextual tag with the input data. | 12-15-2011 |
20120154618 | MODELING AN OBJECT FROM IMAGE DATA - A method for modeling an object from image data comprises identifying in an image from the video a set of reference points on the object, and, for each reference point identified, observing a displacement of that reference point in response to a motion of the object. The method further comprises grouping together those reference points for which a common translational or rotational motion of the object results in the observed displacement, and fitting the grouped-together reference points to a shape. | 06-21-2012 |
20120155705 | FIRST PERSON SHOOTER CONTROL WITH VIRTUAL SKELETON - A virtual skeleton includes a plurality of joints and provides a machine readable representation of a human target observed with a three dimensional depth camera. A relative position of a hand joint of the virtual skeleton is translated as a gestured aiming vector control, and a virtual weapon is aimed in proportion to the gestured aiming vector control. | 06-21-2012 |
20120157198 | DRIVING SIMULATOR CONTROL WITH VIRTUAL SKELETON - Depth-image analysis is performed with a device that analyzes a human target within an observed scene by capturing depth-images that include depth information from the observed scene. The human target is modeled with a virtual skeleton including a plurality of joints. The virtual skeleton is used as an input for controlling a driving simulation. | 06-21-2012 |
20120157200 | INTELLIGENT GAMEPLAY PHOTO CAPTURE - Implementations for identifying, capturing, and presenting high-quality photo-representations of acts occurring during play of a game that employs motion tracking input technology are disclosed. As one example, a method is disclosed that includes capturing via an optical interface, a plurality of photographs of a player in a capture volume during play of the electronic game. The method further includes for each captured photograph of the plurality of captured photographs, comparing an event-based scoring parameter to an event depicted by or corresponding to the captured photograph. The method further includes assigning respective scores to the plurality of captured photographs based, at least in part, on the comparison to the even-based scoring parameter. The method further includes associating the captured photographs at an electronic storage media with the respective scores assigned to the captured photographs. | 06-21-2012 |
20120157203 | SKELETAL CONTROL OF THREE-DIMENSIONAL VIRTUAL WORLD - A virtual skeleton includes a plurality of joints and provides a machine readable representation of a human target observed with a three-dimensional depth camera. A relative position of a hand joint of the virtual skeleton is translated as a gestured control, and a three-dimensional virtual world is controlled responsive to the gestured control. | 06-21-2012 |
20120309534 | AUTOMATED SENSOR DRIVEN MATCH-MAKING - A method of matching a player of a multi-player game with a remote participant includes recognizing the player, automatically identifying an observer within a threshold proximity to the player, using an identity of the observer to find one or more candidates to play as the remote participant of the multi-player game, and when selecting the remote participant, choosing a candidate from the one or more candidates above a non-candidate if the candidate satisfies a matching criteria. | 12-06-2012 |
20120311031 | AUTOMATED SENSOR DRIVEN FRIENDING - A method of finding a new social network service friend for a player belonging to a social network service and having a friend group including one or more player-accepted friends includes recognizing the player, automatically identifying an observer within a threshold proximity to the player, and adding the observer to the friend group of the player in the social network service if the observer satisfies a friending criteria of the player. | 12-06-2012 |
20130007013 | MATCHING USERS OVER A NETWORK - Various embodiments are disclosed that relate to negatively matching users over a network. For example, one disclosed embodiment provides a method including storing a plurality of user profiles corresponding to a plurality of users, each user profile in the plurality of user profiles including one or more user attributes, and receiving a request from a user for a list of one or more suggested negatively matched other users. In response to the request, the method further includes ranking each of a plurality of other users based on a magnitude of a difference between one or more user attributes of the user and corresponding one or more user attributes of the other user, and sending a list of one or more negatively matched users to the exclusion of more positively matched users based on the ranking. | 01-03-2013 |
20130127994 | VIDEO COMPRESSION USING VIRTUAL SKELETON - Optical sensor information captured via one or more optical sensors imaging a scene that includes a human subject is received by a computing device. The optical sensor information is processed by the computing device to model the human subject with a virtual skeleton, and to obtain surface information representing the human subject. The virtual skeleton is transmitted by the computing device to a remote computing device at a higher frame rate than the surface information. Virtual skeleton frames are used by the remote computing device to estimate surface information for frames that have not been transmitted by the computing device. | 05-23-2013 |
20130135180 | SHARED COLLABORATION USING HEAD-MOUNTED DISPLAY - Various embodiments are provided for a shared collaboration system and related methods for enabling an active user to interact with one or more additional users and with collaboration items. In one embodiment a head-mounted display device is operatively connected to a computing device that includes a collaboration engine program. The program receives observation information of a physical space from the head-mounted display device along with a collaboration item. The program visually augments an appearance of the physical space as seen through the head-mounted display device to include an active user collaboration item representation of the collaboration item. The program populates the active user collaboration item representation with additional user collaboration item input from an additional user. | 05-30-2013 |
20130141419 | AUGMENTED REALITY WITH REALISTIC OCCLUSION - A head-mounted display device is configured to visually augment an observed physical space to a user. The head-mounted display device includes a see-through display and is configured to receive augmented display information, such as a virtual object with occlusion relative to a real world object from a perspective of the see-through display. | 06-06-2013 |
20130141421 | AUGMENTED REALITY VIRTUAL MONITOR - A head-mounted display includes a see-through display and a virtual reality engine. The see-through display is configured to visually augment an appearance of a physical space to a user viewing the physical space through the see-through display. The virtual reality engine is configured to cause the see-through display to visually present a virtual monitor that appears to be integrated with the physical space to a user viewing the physical space through the see-through display. | 06-06-2013 |
20130169682 | TOUCH AND SOCIAL CUES AS INPUTS INTO A COMPUTER - A system for automatically displaying virtual objects within a mixed reality environment is described. In some embodiments, a see-through head-mounted display device (HMD) identifies a real object (e.g., a person or book) within a field of view of the HMD, detects one or more interactions associated with real object, and automatically displays virtual objects associated with the real object if the one or more interactions involve touching or satisfy one or more social rules stored in a social rules database. The one or more social rules may be used to infer a particular social relationship by considering the distance to another person, the type of environment (e.g., at home or work), and particular physical interactions (e.g., handshakes or hugs). The virtual objects displayed on the HMD may depend on the particular social relationship inferred (e.g., a friend or acquaintance). | 07-04-2013 |
20130174213 | IMPLICIT SHARING AND PRIVACY CONTROL THROUGH PHYSICAL BEHAVIORS USING SENSOR-RICH DEVICES - A system for automatically sharing virtual objects between different mixed reality environments is described. In some embodiments, a see-through head-mounted display device (HMD) automatically determines a privacy setting associated with another HMD by inferring a particular social relationship with a person associated with the other HMD (e.g., inferring that the person is a friend or acquaintance). The particular social relationship may be inferred by considering the distance to the person associated with the other HMD, the type of environment (e.g., at home or work), and particular physical interactions involving the person (e.g., handshakes or hugs). The HMD may subsequently transmit one or more virtual objects associated with the privacy setting to the other HMD. The HMD may also receive and display one or more other virtual objects from the other HMD based on the privacy setting. | 07-04-2013 |
20130187835 | RECOGNITION OF IMAGE ON EXTERNAL DISPLAY - Embodiments are disclosed that relate to the recognition via a see-through display system of an object displayed on an external display device at which a user of the see-through display system is gazing. For example, one embodiment provides a method of operating a see-through display system comprising acquiring an image of an external display screen located in the background scene via an outward facing image sensor, determining via a gaze detection subsystem a location on the external display screen at which the user is gazing, obtaining an identity of an object displayed on the external display screen at the location determined, and performing an action based upon the identity of the object. | 07-25-2013 |
20130194164 | EXECUTABLE VIRTUAL OBJECTS ASSOCIATED WITH REAL OBJECTS - Embodiments for interacting with an executable virtual object associated with a real object are disclosed. In one example, a method for interacting with an executable virtual object associated with a real object includes receiving sensor input from one or more sensors attached to the portable see-through display device, and obtaining information regarding a location of the user based on the sensor input. The method also includes, if the location includes a real object comprising an associated executable virtual object, then determining an intent of the user to interact with the executable virtual object, and if the intent to interact is determined, then interacting with the executable object. | 08-01-2013 |
20130194259 | VIRTUAL ENVIRONMENT GENERATING SYSTEM - A system and related methods for visually augmenting an appearance of a physical environment as seen by a user through a head-mounted display device are provided. In one embodiment, a virtual environment generating program receives eye-tracking information, lighting information, and depth information from the head-mounted display. The program generates a virtual environment that models the physical environment and is based on the lighting information and the distance of a real-world object from the head-mounted display. The program visually augments a virtual object representation in the virtual environment based on the eye-tracking information, and renders the virtual object representation on a transparent display of the head-mounted display device. | 08-01-2013 |
20130194304 | COORDINATE-SYSTEM SHARING FOR AUGMENTED REALITY - A method for presenting real and virtual images correctly positioned with respect to each other. The method includes, in a first field of view, receiving a first real image of an object and displaying a first virtual image. The method also includes, in a second field of view oriented independently relative to the first field of view, receiving a second real image of the object and displaying a second virtual image, the first and second virtual images positioned coincidently within a coordinate system. | 08-01-2013 |
20130194389 | HEAD-MOUNTED DISPLAY DEVICE TO MEASURE ATTENTIVENESS - A method for assessing a attentiveness to visual stimuli received through a head-mounted display device. The method employs first and second detectors arranged in the head-mounted display device. An ocular state of the wearer of the head-mounted display device is detected with the first detector while the wearer is receiving a visual stimulus. With the second detector, the visual stimulus received by the wearer is detected. The ocular state is then correlated to the wearer's attentiveness to the visual stimulus. | 08-01-2013 |
20130196757 | MULTIPLAYER GAMING WITH HEAD-MOUNTED DISPLAY - A system and related methods for inviting a potential player to participate in a multiplayer game via a user head-mounted display device are provided. In one example, a potential player invitation program receives user voice data and determines that the user voice data is an invitation to participate in a multiplayer game. The program receives eye-tracking information, depth information, facial recognition information, potential player head-mounted display device information, and/or potential player voice data. The program associates the invitation with the potential player using the eye-tracking information, the depth information, the facial recognition information, the potential player head-mounted display device information, and/or the potential player voice data. The program matches a potential player account with the potential player. The program receives an acceptance response from the potential player, and joins the potential player account with a user account in participating in the multiplayer game. | 08-01-2013 |
20130196772 | MATCHING PHYSICAL LOCATIONS FOR SHARED VIRTUAL EXPERIENCE - Embodiments for matching participants in a virtual multiplayer entertainment experience are provided. For example, one embodiment provides a method including receiving from each user of a plurality of users a request to join the virtual multiplayer entertainment experience, receiving from each user of the plurality of users information regarding characteristics of a physical space in which each user is located, and matching two or more users of the plurality of users for participation in the virtual multiplayer entertainment experience based on the characteristics of the physical space of each of the two or more users. | 08-01-2013 |
20130208014 | DISPLAY WITH BLOCKING IMAGE GENERATION - A blocking image generating system including a head-mounted display device having an opacity layer and related methods are disclosed. A method may include receiving a virtual image to be presented by display optics in the head-mounted display device. Lighting information and an eye-position parameter may be received from an optical sensor system in the head-mounted display device. A blocking image may be generated in the opacity layer of the head-mounted display device based on the lighting information and the virtual image. The location of the blocking image in the opacity layer may be adjusted based on the eye-position parameter. | 08-15-2013 |
20130335404 | DEPTH OF FIELD CONTROL FOR SEE-THRU DISPLAY - One embodiment provides a method for controlling a virtual depth of field perceived by a wearer of a see-thru display device. The method includes estimating the ocular depth of field of the wearer and projecting virtual imagery with a specified amount of blur. The amount of blur is determined as a function of the ocular depth of field. Another embodiment provides a method for controlling an ocular depth of field of a wearer of a see-thru display device. This method includes computing a target value for the depth of field and increasing the pixel brightness of the virtual imagery presented to the wearer. The increase in pixel brightness contracts the wearer's pupils and thereby deepens the depth of field to the target value. | 12-19-2013 |
20130335435 | COLOR VISION DEFICIT CORRECTION - Embodiments related to improving a color-resolving ability of a user of a see-thru display device are disclosed. For example, one disclosed embodiment includes, on a see-thru display device, constructing and displaying virtual imagery to superpose onto real imagery sighted by the user through the see-thru display device. The virtual imagery is configured to accentuate a locus of the real imagery of a color poorly distinguishable by the user. Such virtual imagery is then displayed by superposing it onto the real imagery, in registry with the real imagery, in a field of view of the user. | 12-19-2013 |
20130335442 | LOCAL RENDERING OF TEXT IN IMAGE - Various embodiments are disclosed that relate to enhancing the display of images comprising text on various computing device displays. For example, one disclosed embodiment provides, on a computing device, a method of displaying an image, the method including receiving from a remote computing device image data representing a non-text portion of the image, receiving from the remote computing device unrendered text data representing a text portion of the image, rendering the unrendered text data based upon local contextual rendering information to form locally rendered text data, compositing the locally rendered text data and the image data to form a composited image, and providing the composited image to a display. | 12-19-2013 |
20130342568 | LOW LIGHT SCENE AUGMENTATION - Embodiments related to providing low light scene augmentation are disclosed. One embodiment provides, on a computing device comprising a see-through display device, a method including recognizing, from image data received from an image sensor, a background scene of an environment viewable through the see-through display device, the environment comprising a physical object. The method further includes identifying one or more geometrical features of the physical object and displaying, on the see through display device, an image augmenting the one or more geometrical features. | 12-26-2013 |
20140043433 | AUGMENTED REALITY DISPLAY OF SCENE BEHIND SURFACE - Embodiments are disclosed that relate to augmenting an appearance of a surface via a see-through display device. For example, one disclosed embodiment provides, on a computing device comprising a see-through display device, a method of augmenting an appearance of a surface. The method includes acquiring, via an outward-facing image sensor, image data of a first scene viewable through the display. The method further includes recognizing a surface viewable through the display based on the image data and, in response to recognizing the surface, acquiring a representation of a second scene comprising one or more of a scene located physically behind the surface viewable through the display and a scene located behind a surface contextually related to the surface viewable through the display. The method further includes displaying the representation via the see-through display. | 02-13-2014 |
20140044305 | OBJECT TRACKING - Embodiments are disclosed herein that relate to the automatic tracking of objects. For example, one disclosed embodiment provides a method of operating a mobile computing device having an image sensor. The method includes acquiring image data, identifying an inanimate moveable object in the image data, determining whether the inanimate moveable object is a tracked object, ate moveable object is a tracked object, then storing information regarding a state of the inanimate moveable object, detecting a trigger to provide a notification of the state of the inanimate moveable object, and providing an output of the notification of the state of the inanimate moveable object. | 02-13-2014 |
20140049558 | AUGMENTED REALITY OVERLAY FOR CONTROL DEVICES - Embodiments for providing instructional information for control devices are disclosed. In one example, a method on a see-through display device comprising a see-through display and an outward-facing image sensor includes acquiring an image of a scene viewable through the see-through display and detecting a control device in the scene. The method also includes retrieving information pertaining to a function of an interactive element of the control device and displaying an image on the see-through display augmenting an appearance of the interactive element of the control device with image data related to the function of the interactive element. | 02-20-2014 |
20140049559 | MIXED REALITY HOLOGRAPHIC OBJECT DEVELOPMENT - Systems and related methods for presenting a holographic object that self-adapts to a mixed reality environment are provided. In one example, a holographic object presentation program captures physical environment data from a destination physical environment and creates a model of the environment including physical objects having associated properties. The program identifies a holographic object for display on a display of a display device, the holographic object including one or more rules linking a detected environmental condition and/or properties of the physical objects with a display mode of the holographic object. The program applies the one or more rules to select the display mode for the holographic object based on the detected environmental condition and/or the properties of the physical objects. | 02-20-2014 |
20140125574 | USER AUTHENTICATION ON DISPLAY DEVICE - Embodiments are disclosed that relate to authenticating a user of a display device. For example, one disclosed embodiment includes displaying one or more virtual images on the display device, wherein the one or more virtual images include a set of augmented reality features. The method further includes identifying one or more movements of the user via data received from a sensor of the display device, and comparing the identified movements of the user to a predefined set of authentication information for the user that links user authentication to a predefined order of the augmented reality features. If the identified movements indicate that the user selected the augmented reality features in the predefined order, then the user is authenticated, and if the identified movements indicate that the user did not select the augmented reality features in the predefined order, then the user is not authenticated. | 05-08-2014 |
20140125668 | CONSTRUCTING AUGMENTED REALITY ENVIRONMENT WITH PRE-COMPUTED LIGHTING - Embodiments related to efficiently constructing an augmented reality environment with global illumination effects are disclosed. For example, one disclosed embodiment provides a method of displaying an augmented reality image via a display device. The method includes receiving image data, the image data capturing an image of a local environment of the display device, and identifying a physical feature of the local environment via the image data. The method further includes constructing an augmented reality image of a virtual structure for display over the physical feature in spatial registration with the physical feature from a viewpoint of a user, the augmented reality image comprising a plurality of modular virtual structure segments arranged in adjacent locations to form the virtual structure feature, each modular virtual structure segment comprising a pre-computed global illumination effect, and outputting the augmented reality image to the display device. | 05-08-2014 |
20140125698 | MIXED-REALITY ARENA - A computing system comprises a see-through display device, a logic subsystem, and a storage subsystem storing instructions. When executed by the logic subsystem, the instructions display on the see-through display device a virtual arena, a user-controlled avatar, and an opponent avatar. The virtual arena appears to be integrated within a physical space when the physical space is viewed through the see-through display device. In response to receiving a user input, the instructions may also display on the see-through display device an updated user-controlled avatar. | 05-08-2014 |
20140128161 | CROSS-PLATFORM AUGMENTED REALITY EXPERIENCE - A plurality of game sessions are hosted at a server system. A first computing device of a first user is joined to a first multiplayer gaming session, the first computing device including a see-through display. Augmentation information is sent to the first computing device for the first multiplayer gaming session to provide an augmented reality experience to the first user. A second computing device of a second user is joined to the first multiplayer gaming session. Experience information is sent to the second computing device for the first multiplayer gaming session to provide a cross-platform representation of the augmented reality experience to the second user. | 05-08-2014 |
20140145914 | HEAD-MOUNTED DISPLAY RESOURCE MANAGEMENT - A system and related methods for a resource management in a head-mounted display device are provided. In one example, the head-mounted display device includes a plurality of sensors and a display system for presenting holographic objects. A resource management program is configured to operate a selected sensor in a default power mode to achieve a selected fidelity. The program receives user-related information from one or more of the sensors, and determines whether target information is detected. Where target information is detected, the program adjusts the selected sensor to operate in a reduced power mode that uses less power than the default power mode. | 05-29-2014 |
20140168075 | Method to Control Perspective for a Camera-Controlled Computer - Systems, methods and computer readable media are disclosed for controlling perspective of a camera-controlled computer. A capture device captures user gestures and sends corresponding data to a recognizer engine. The recognizer engine analyzes the data with a plurality of filters, each filter corresponding to a gesture. Based on the output of those filters, a perspective control is determined, and a display device displays a new perspective corresponding to the perspective control. | 06-19-2014 |
20140192084 | MIXED REALITY DISPLAY ACCOMMODATION - A mixed reality accommodation system and related methods are provided. In one example, a head-mounted display device includes a plurality of sensors and a display system for presenting holographic objects. A mixed reality safety program is configured to receive a holographic object and associated content provider ID from a source. The program assigns a trust level to the object based on the content provider ID. If the trust level is less than a threshold, the object is displayed according to a first set of safety rules that provide a protective level of display restrictions. If the trust level is greater than or equal to the threshold, the object is displayed according to a second set of safety rules that provide a permissive level of display restrictions that are less than the protective level of display restrictions. | 07-10-2014 |
20140267311 | INTERACTING WITH USER INTERFACE VIA AVATAR - Embodiments are disclosed that relate to interacting with a user interface via feedback provided by an avatar. One embodiment provides a method comprising receiving depth data, locating a person in the depth data, and mapping a physical space in front of the person to a screen space of a display device. The method further comprises forming an image of an avatar representing the person, outputting to a display an image of a user interface comprising an interactive user interface control, and outputting to the display device the image of the avatar such that the avatar faces the user interface control. The method further comprises detecting a motion of the person via the depth data, forming an animated representation of the avatar interacting with the user interface control based upon the motion of the person, and outputting the animated representation of the avatar interacting with the control. | 09-18-2014 |
20140320389 | MIXED REALITY INTERACTIONS - Embodiments that relate to interacting with a physical object in a mixed reality environment via a head-mounted display are disclosed. In one embodiment a mixed reality interaction program identifies an object based on an image from captured by the display. An interaction context for the object is determined based on an aspect of the mixed reality environment. A profile for the physical object is queried to determine interaction modes for the object. A selected interaction mode is programmatically selected based on the interaction context. A user input directed at the object is received via the display and interpreted to correspond to a virtual action based on the selected interaction mode. The virtual action is executed with respect to a virtual object associated with the physical object to modify an appearance of the virtual object. The modified virtual object is then displayed via the display. | 10-30-2014 |
20140333665 | CALIBRATION OF EYE LOCATION - Embodiments are disclosed that relate to calibrating a predetermined eye location in a head-mounted display. For example, in one disclosed embodiment a method includes displaying a virtual marker visually alignable with a real world target at an alignment condition. At the alignment condition, image data is acquired to determine a location of the real world target. From the image data, an estimated eye location relative to a location of the head-mounted display is determined. Based upon the estimated eye location, the predetermined eye location is then calibrated. | 11-13-2014 |
20140347390 | BODY-LOCKED PLACEMENT OF AUGMENTED REALITY OBJECTS - Embodiments are disclosed that relate to placing virtual objects in an augmented reality environment. For example, one disclosed embodiment provides a method comprising receiving sensor data comprising one or more of motion data, location data, and orientation data from one or more sensors located on a head-mounted display device, and based upon the motion data, determining a body-locking direction vector that is based upon an estimated direction in which a body of a user is facing. The method further comprises positioning a displayed virtual object based on the body-locking direction vector. | 11-27-2014 |
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 |
20140380254 | GESTURE TOOL - Systems, methods and computer readable media are disclosed for a gesture tool. A capture device captures user movement and provides corresponding data to a gesture recognizer engine and an application. From that, the data is parsed to determine whether it satisfies one or more gesture filters, each filter corresponding to user-performed gesture. The data and the information about the filters is also sent to a gesture tool, which displays aspects of the data and filters. In response to user input corresponding to a change in a filter, the gesture tool sends an indication of such to the gesture recognizer engine and application, where that change occurs. | 12-25-2014 |
Patent application number | Description | Published |
20100194762 | Standard Gestures - Systems, methods and computer readable media are disclosed for grouping complementary sets of standard gestures into gesture libraries. The gestures may be complementary in that they are frequently used together in a context or in that their parameters are interrelated. Where a parameter of a gesture is set with a first value, all other parameters of the gesture and of other gestures in the gesture package that depend on the first value may be set with their own value which is determined using the first value. | 08-05-2010 |
20100199228 | Gesture Keyboarding - Systems, methods and computer readable media are disclosed for gesture keyboarding. A user makes a gesture by either making a pose or moving in a pre-defined way that is captured by a depth camera. The depth information provided by the depth camera is parsed to determine at least that part of the user that is making the gesture. When parsed, the character or action signified by this gesture is identified. | 08-05-2010 |
20100199230 | GESTURE RECOGNIZER SYSTEM ARCHITICTURE - Systems, methods and computer readable media are disclosed for a gesture recognizer system architecture. A recognizer engine is provided, which receives user motion data and provides that data to a plurality of filters. A filter corresponds to a gesture, that may then be tuned by an application receiving information from the gesture recognizer so that the specific parameters of the gesture—such as an arm acceleration for a throwing gesture—may be set on a per-application level, or multiple times within a single application. Each filter may output to an application using it a confidence level that the corresponding gesture occurred, as well as further details about the user motion data. | 08-05-2010 |
20100241998 | VIRTUAL OBJECT MANIPULATION - Systems, methods and computer readable media are disclosed for manipulating virtual objects. A user may utilize a controller, such as his hand, in physical space to associate with a cursor in a virtual environment. As the user manipulates the controller in physical space, this is captured by a depth camera. The image data from the depth camera is parsed to determine how the controller is manipulated, and a corresponding manipulation of the cursor is performed in virtual space. Where the cursor interacts with a virtual object in the virtual space, that virtual object is manipulated by the cursor. | 09-23-2010 |
20100281437 | MANAGING VIRTUAL PORTS - Techniques for managing virtual ports are disclosed herein. Each such virtual port may have different associated features such as, for example, privileges, rights or options. When one or more users are in a capture scene of a gesture based system, the system may associate virtual ports with the users and maintain the virtual ports. Also provided are techniques for disassociating virtual ports with users or swapping virtual ports between two or more users. | 11-04-2010 |
20100281438 | ALTERING A VIEW PERSPECTIVE WITHIN A DISPLAY ENVIRONMENT - Disclosed herein are systems and methods for altering a view perspective within a display environment. For example, gesture data corresponding to a plurality of inputs may be stored. The input may be input into a game or application implemented by a computing device. Images of a user of the game or application may be captured. For example, a suitable capture device may capture several images of the user over a period of time. The images may be analyzed and processed for detecting a user's gesture. Aspects of the user's gesture may be compared to the stored gesture data for determining an intended gesture input for the user. The comparison may be part of an analysis for determining inputs corresponding to the gesture data, where one or more of the inputs are input into the game or application and cause a view perspective within the display environment to be altered. | 11-04-2010 |
20110099476 | DECORATING A DISPLAY ENVIRONMENT - Disclosed herein are systems and methods for decorating a display environment. In one embodiment, a user may decorate a display environment by making one or more gestures, using voice commands, using a suitable interface device, and/or combinations thereof. A voice command can be detected for user selection of an artistic feature, such as, for example, a color, a texture, an object, and a visual effect for decorating in a display environment. The user can also gesture for selecting a portion of the display environment for decoration. Next, the selected portion of the display environment can be altered based on the selected artistic feature. The user's motions can be reflected in the display environment by an avatar. In addition, a virtual canvas or three-dimensional object can be displayed in the display environment for decoration by the user. | 04-28-2011 |
20110175801 | Directed Performance In Motion Capture System - Techniques for enhancing the use of a motion capture system are provided. A motion capture system tracks movement and audio inputs from a person in a physical space, and provides the inputs to an application, which displays a virtual space on a display. Bodily movements can be used to define traits of an avatar in the virtual space. The person can be directed to perform the movements by a coaching avatar, or visual or audio cues in the virtual space. The application can respond to the detected movements and voice commands or voice volume of the person to define avatar traits and initiate pre-scripted audio-visual events in the virtual space to provide an entertaining experience. A performance in the virtual space can be captured and played back with automatic modifications, such as alterations to the avatar's voice or appearance, or modifications made by another person. | 07-21-2011 |
20110175809 | Tracking Groups Of Users In Motion Capture System - In a motion capture system, a unitary input is provided to an application based on detected movement and/or location of a group of people. Audio information from the group can also be used as an input. The application can provide real-time feedback to the person or group via a display and audio output. The group can control the movement of an avatar in a virtual space based on the movement of each person in the group, such as in a steering or balancing game. To avoid a discontinuous or confusing output by the application, missing data can be generated for a person who is occluded or partially out of the field of view. A wait time can be set for activating a new person and deactivating a currently-active person. The wait time can be adaptive based on a first detected position or a last detected position of the person. | 07-21-2011 |
20110175810 | Recognizing User Intent In Motion Capture System - Techniques for facilitating interaction with an application in a motion capture system allow a person to easily begin interacting without manual setup. A depth camera system tracks a person in physical space and evaluates the person's intent to engage with the application. Factors such as location, stance, movement and voice data can be evaluated. Absolute location in a field of view of the depth camera, and location relative to another person, can be evaluated. Stance can include facing a depth camera, indicating a willingness to interact. Movements can include moving toward or away from a central area in the physical space, walking through the field of view, and movements which occur while standing generally in one location, such as moving one's arms around, gesturing, or shifting weight from one foot to another. Voice data can include volume as well as words which are detected by speech recognition. | 07-21-2011 |
20110221755 | BIONIC MOTION - A camera that can sense motion of a user is connected to a computing system (e.g., video game apparatus or other type of computer). The computing system determines an action corresponding to the sensed motion of the user and determines a magnitude of the sensed motion of the user. The computing system creates and displays an animation of an object (e.g., an avatar in a video game) performing the action in a manner that is amplified in comparison to the sensed motion by a factor that is proportional to the determined magnitude. The computing system also creates and outputs audio/visual feedback in proportion to a magnitude of the sensed motion of the user. | 09-15-2011 |
20110223995 | INTERACTING WITH A COMPUTER BASED APPLICATION - A computing system runs an application (e.g., video game) that interacts with one or more actively engaged users. One or more physical properties of a group are sensed. The group may include the one or more actively engaged users and/or one or more entities not actively engaged with the application. The computing system will determine that the group (or the one or more entities not actively engaged with the application) have performed a predetermined action. A runtime condition of the application is changed in response to determining that the group (or the one or more entities not actively engaged with the computer based application) have performed the predetermined action. Examples of changing a runtime condition include moving an object, changing a score or changing an environmental condition of a video game. | 09-15-2011 |
20110246329 | MOTION-BASED INTERACTIVE SHOPPING ENVIRONMENT - An on-screen shopping application which reacts to a human target user's motions to provide a shopping experience to the user is provided. A tracking system captures user motions and executes a shopping application allowing a user to manipulate an on-screen representation the user. The on-screen representation has a likeness of the user or another individual and movements of the user in the on-screen interface allows the user to interact with virtual articles that represent real-world articles. User movements which are recognized as article manipulation or transaction control gestures are translated into commands for the shopping application. | 10-06-2011 |
20110285620 | GESTURE RECOGNIZER SYSTEM ARCHITECTURE - Systems, methods and computer readable media are disclosed for a gesture recognizer system architecture. A recognizer engine is provided, which receives user motion data and provides that data to a plurality of filters. A filter corresponds to a gesture, that may then be tuned by an application receiving information from the gesture recognizer so that the specific parameters of the gesture—such as an arm acceleration for a throwing gesture—may be set on a per-application level, or multiple times within a single application. Each filter may output to an application using it a confidence level that the corresponding gesture occurred, as well as further details about the user motion data. | 11-24-2011 |
20110285626 | GESTURE RECOGNIZER SYSTEM ARCHITECTURE - Systems, methods and computer readable media are disclosed for a gesture recognizer system architecture. A recognizer engine is provided, which receives user motion data and provides that data to a plurality of filters. A filter corresponds to a gesture, that may then be tuned by an application receiving information from the gesture recognizer so that the specific parameters of the gesture—such as an arm acceleration for a throwing gesture—may be set on a per-application level, or multiple times within a single application. Each filter may output to an application using it a confidence level that the corresponding gesture occurred, as well as further details about the user motion data. | 11-24-2011 |
20120144348 | Managing Virtual Ports - Techniques for managing virtual ports are disclosed herein. Each such virtual port may have different associated features such as, for example, privileges, rights or options. When one or more users are in a capture scene of a gesture based system, the system may associate virtual ports with the users and maintain the virtual ports. Also provided are techniques for disassociating virtual ports with users or swapping virtual ports between two or more users. | 06-07-2012 |
20120165096 | INTERACTING WITH A COMPUTER BASED APPLICATION - A computing system runs an application (e.g., video game) that interacts with one or more actively engaged users. One or more physical properties of a group are sensed. The group may include the one or more actively engaged users and/or one or more entities not actively engaged with the application. The computing system will determine that the group (or the one or more entities not actively engaged with the application) have performed a predetermined action. A runtime condition of the application is changed in response to determining that the group (or the one or more entities not actively engaged with the computer based application) have performed the predetermined action. Examples of changing a runtime condition include moving an object, changing a score or changing an environmental condition of a video game. | 06-28-2012 |
20120206452 | REALISTIC OCCLUSION FOR A HEAD MOUNTED AUGMENTED REALITY DISPLAY - Technology is described for providing realistic occlusion between a virtual object displayed by a head mounted, augmented reality display system and a real object visible to the user's eyes through the display. A spatial occlusion in a user field of view of the display is typically a three dimensional occlusion determined based on a three dimensional space mapping of real and virtual objects. An occlusion interface between a real object and a virtual object can be modeled at a level of detail determined based on criteria such as distance within the field of view, display size or position with respect to a point of gaze. Technology is also described for providing three dimensional audio occlusion based on an occlusion between a real object and a virtual object in the user environment. | 08-16-2012 |
20120302350 | COMMUNICATION BETWEEN AVATARS IN DIFFERENT GAMES - Synchronous and asynchronous communications between avatars is allowed. For synchronous communications, when multiple users are playing different games of the same game title and when the avatars of the multiple users are at the same location in their respective games they can communicate with one another, thus allowing the users of those avatars to communicate with one another. For asynchronous communications, an avatar of a particular user is left behind at a particular location in a game along with a recorded communication. When other users of other games are at that particular location, the avatar of that particular user is displayed and the recorded communication is presented to the other users. | 11-29-2012 |
20120302351 | AVATARS OF FRIENDS AS NON-PLAYER-CHARACTERS - In accordance with one or more aspects, for a particular user one or more other users associated with that particular user are identified based on a social graph of that particular user. An avatar of at least one of the other users is obtained and included as a non-player-character in a game being played by that particular user. The particular user can provide requests to interact with the avatar of the second user (e.g., calling out the name of the second user, tapping the avatar of the second user on the shoulder, etc.), these requests being invitations for the second user to join in a game with the first user. An indication of such an invitation is presented to the second user, which can, for example, accept the invitation to join in a game with the first user. | 11-29-2012 |
20120309538 | PHYSICAL CHARACTERISTICS BASED USER IDENTIFICATION FOR MATCHMAKING - One or more physical characteristics of each of multiple users are detected. These physical characteristics of a user can include physical attributes of the user (e.g., the user's height, length of the user's legs) and/or physical skills of the user (e.g., how high the user can jump). Based on these detected one or more physical characteristics of the users, two or more of the multiple users to share an online experience (e.g., play a multi-player game) are identified. | 12-06-2012 |
20120311032 | EMOTION-BASED USER IDENTIFICATION FOR ONLINE EXPERIENCES - Emotional response data of a particular user, when the particular user is interacting with each of multiple other users, is collected. Using the emotional response data, an emotion of the particular user when interacting with each of multiple other users is determined. Based on the determined emotions, one or more of the multiple other users are identified to share an online experience with the particular user. | 12-06-2012 |
20120326976 | Directed Performance In Motion Capture System - Techniques for enhancing the use of a motion capture system are provided. A motion capture system tracks movement and audio inputs from a person in a physical space, and provides the inputs to an application, which displays a virtual space on a display. Bodily movements can be used to define traits of an avatar in the virtual space. The person can be directed to perform the movements by a coaching avatar, or visual or audio cues in the virtual space. The application can respond to the detected movements and voice commands or voice volume of the person to define avatar traits and initiate pre-scripted audio-visual events in the virtual space to provide an entertaining experience. A performance in the virtual space can be captured and played back with automatic modifications, such as alterations to the avatar's voice or appearance, or modifications made by another person. | 12-27-2012 |
20130002813 | VIEWING WINDOWS FOR VIDEO STREAMS - Techniques are provided for viewing windows for video streams. A video stream from a video capture device is accessed. Data that describes movement or position of a person is accessed. A viewing window is placed in the video stream based on the data that describes movement or position of the person. The viewing window is provided to a display device in accordance with the placement of the viewing window in the video stream. Motion sensors can detect motion of the person carrying the video capture device in order to dampen the motion such that the video on the remote display does not suffer from motion artifacts. Sensors can also track the eye gaze of either the person carrying the mobile video capture device or the remote display device to enable control of the spatial region of the video stream shown at the display device. | 01-03-2013 |
20130013093 | PHYSICAL CHARACTERISTICS BASED USER IDENTIFICATION FOR MATCHMAKING - One or more physical characteristics of each of multiple users are detected. These physical characteristics of a user can include physical attributes of the user (e.g., the user's height, length of the user's legs) and/or physical skills of the user (e.g., how high the user can jump). Based on these detected one or more physical characteristics of the users, two or more of the multiple users to share an online experience (e.g., play a multi-player game) are identified. | 01-10-2013 |
20130016033 | PROVIDING ELECTRONIC COMMUNICATIONS IN A PHYSICAL WORLDAANM Latta; Stephen G.AACI SeattleAAST WAAACO USAAGP Latta; Stephen G. Seattle WA USAANM Small; Sheridan MartinAACI SeattleAAST WAAACO USAAGP Small; Sheridan Martin Seattle WA USAANM Liu; James C.AACI BellevueAAST WAAACO USAAGP Liu; James C. Bellevue WA USAANM Vaught; Benjamin I.AACI SeattleAAST WAAACO USAAGP Vaught; Benjamin I. Seattle WA USAANM Bennett; DarrenAACI SeattleAAST WAAACO USAAGP Bennett; Darren Seattle WA US - Techniques are provided for displaying electronic communications using a head mounted display (HMD). Each electronic communication may be displayed to represent a physical object that indentifies it as a specific type or nature of electronic communication. Therefore, the user is able to process the electronic communications more efficiently. In some aspects, computer vision allows a user to interact with the representation of the physical objects. One embodiment includes accessing electronic communications, and determining physical objects that are representative of at least a subset of the electronic communications. A head mounted display (HMD) is instructed how to display a representation of the physical objects in this embodiment. | 01-17-2013 |
20130042296 | PHYSICAL INTERACTION WITH VIRTUAL OBJECTS FOR DRM - Technology is provided for transferring a right to a digital content item based on one or more physical actions detected in data captured by a see-through, augmented reality display device system. A digital content item may be represented by a three-dimensional ( | 02-14-2013 |
20130044129 | LOCATION BASED SKINS FOR MIXED REALITY DISPLAYS - The technology provides embodiments for providing a location-based skin for a see-through, mixed reality display device system. In many embodiments, a location-based skin includes a virtual object viewable by a see-through, mixed reality display device system which has been detected in a specific location. Some location-based skins implement an ambient effect. The see-through, mixed reality display device system is detected to be present in a location and receives and displays a skin while in the location in accordance with user settings. User data may be uploaded and displayed in a skin in accordance with user settings. A location may be a physical space at a fixed position and may also be a space defined relative to a position of a real object, for example, another see-through, mixed reality display device system. Furthermore, a location may be a location within another location. | 02-21-2013 |
20130044130 | PROVIDING CONTEXTUAL PERSONAL INFORMATION BY A MIXED REALITY DEVICE - The technology provides contextual personal information by a mixed reality display device system being worn by a user. A user inputs person selection criteria, and the display system sends a request for data identifying at least one person in a location of the user who satisfy the person selection criteria to a cloud based application with access to user profile data for multiple users. Upon receiving data identifying the at least one person, the display system outputs data identifying the person if he or she is within the field of view. An identifier and a position indicator of the person in the location is output if not. Directional sensors on the display device may also be used for determining a position of the person. Cloud based executing software can identify and track the positions of people based on image and non-image data from display devices in the location. | 02-21-2013 |
20130074002 | Recognizing User Intent In Motion Capture System - Techniques for facilitating interaction with an application in a motion capture system allow a person to easily begin interacting without manual setup. A depth camera system tracks a person in physical space and determines a probabilistic measure of the person's intent to engage of disengage with the application based on location, stance and movement. Absolute location in a field of view of the depth camera, and location relative to another person, can be evaluated. Stance can include facing a depth camera, indicating a willingness to interact. Movements can include moving toward or away from a central area in the physical space, walking through the field of view, and movements which occur while standing generally in one location, such as moving one's arms around, gesturing, or shifting weight from one foot to another. | 03-21-2013 |
20130083003 | PERSONAL AUDIO/VISUAL SYSTEM - The technology described herein incudes a see-through, near-eye, mixed reality display device for providing customized experiences for a user. The system can be used in various entertainment, sports, shopping and theme-park situations to provide a mixed reality experience. | 04-04-2013 |
20130083007 | CHANGING EXPERIENCE USING PERSONAL A/V SYSTEM - A system for generating an augmented reality environment in association with one or more attractions or exhibits is described. In some cases, a see-through head-mounted display device (HMD) may acquire one or more virtual objects from a supplemental information provider associated with a particular attraction. The one or more virtual objects may be based on whether an end user of the HMD is waiting in line for the particular attraction or is on (or in) the particular attraction. The supplemental information provider may vary the one or more virtual objects based on the end user's previous experiences with the particular attraction. The HMD may adapt the one or more virtual objects based on physiological feedback from the end user (e.g., if a child is scared). The supplemental information provider may also provide and automatically update a task list associated with the particular attraction. | 04-04-2013 |
20130083008 | ENRICHED EXPERIENCE USING PERSONAL A/V SYSTEM - A system for generating an augmented reality environment in association with one or more attractions or exhibits is described. In some cases, a see-through head-mounted display device (HMD) may acquire one or more virtual objects from a supplemental information provider associated with a particular attraction. The one or more virtual objects may be based on whether an end user of the HMD is waiting in line for the particular attraction or is on (or in) the particular attraction. The supplemental information provider may vary the one or more virtual objects based on the end user's previous experiences with the particular attraction. The HMD may adapt the one or more virtual objects based on physiological feedback from the end user (e.g., if a child is scared). The supplemental information provider may also provide and automatically update a task list associated with the particular attraction. | 04-04-2013 |
20130083009 | EXERCISING APPLICATIONS FOR PERSONAL AUDIO/VISUAL SYSTEM - The technology described herein includes a see-through, near-eye, mixed reality display device for providing customized experiences for a user. The personal A/V apparatus serves as an exercise program that is always with the user, provides motivation for the user, visually tells the user how to exercise, and lets the user exercise with other people who are not present. | 04-04-2013 |
20130083011 | REPRESENTING A LOCATION AT A PREVIOUS TIME PERIOD USING AN AUGMENTED REALITY DISPLAY - Technology is described for representing a physical location at a previous time period with three dimensional (3D) virtual data displayed by a near-eye, augmented reality display of a personal audiovisual (A/V) apparatus. The personal A/V apparatus is identified as being within the physical location, and one or more objects in a display field of view of the near-eye, augmented reality display are automatically identified based on a three dimensional mapping of objects in the physical location. User input, which may be natural user interface (NUI) input, indicates a previous time period, and one or more 3D virtual objects associated with the previous time period are displayed from a user perspective associated with the display field of view. An object may be erased from the display field of view, and a camera effect may be applied when changing between display fields of view. | 04-04-2013 |
20130083018 | PERSONAL AUDIO/VISUAL SYSTEM WITH HOLOGRAPHIC OBJECTS - A system for generating an augmented reality environment using state-based virtual objects is described. A state-based virtual object may be associated with a plurality of different states. Each state of the plurality of different states may correspond with a unique set of triggering events different from those of any other state. The set of triggering events associated with a particular state may be used to determine when a state change from the particular state is required. In some cases, each state of the plurality of different states may be associated with a different 3-D model or shape. The plurality of different states may be defined using a predetermined and standardized file format that supports state-based virtual objects. In some embodiments, one or more potential state changes from a particular state may be predicted based on one or more triggering probabilities associated with the set of triggering events. | 04-04-2013 |
20130083062 | PERSONAL A/V SYSTEM WITH CONTEXT RELEVANT INFORMATION - A system for generating an augmented reality environment in association with one or more attractions or exhibits is described. In some cases, a see-through head-mounted display device (HMD) may acquire one or more virtual objects from a supplemental information provider associated with a particular attraction. The one or more virtual objects may be based on whether an end user of the HMD is waiting in line for the particular attraction or is on (or in) the particular attraction. The supplemental information provider may vary the one or more virtual objects based on the end user's previous experiences with the particular attraction. The HMD may adapt the one or more virtual objects based on physiological feedback from the end user (e.g., if a child is scared). The supplemental information provider may also provide and automatically update a task list associated with the particular attraction. | 04-04-2013 |
20130083063 | Service Provision Using Personal Audio/Visual System - A collaborative on-demand system allows a user of a head-mounted display device (HMDD) to obtain assistance with an activity from a qualified service provider. In a session, the user and service provider exchange camera-captured images and augmented reality images. A gaze-detection capability of the HMDD allows the user to mark areas of interest in a scene. The service provider can similarly mark areas of the scene, as well as provide camera-captured images of the service provider's hand or arm pointing to or touching an object of the scene. The service provider can also select an animation or text to be displayed on the HMDD. A server can match user requests with qualified service providers which meet parameters regarding fee, location, rating and other preferences. Or, service providers can review open requests and self-select appropriate requests, initiating contact with a user. | 04-04-2013 |
20130083064 | PERSONAL AUDIO/VISUAL APPARATUS PROVIDING RESOURCE MANAGEMENT - Technology is described for resource management based on data including image data of a resource captured by at least one capture device of at least one personal audiovisual (A/V) apparatus including a near-eye, augmented reality (AR) display. A resource is automatically identified from image data captured by at least one capture device of at least one personal A/V apparatus and object reference data. A location in which the resource is situated and a 3D space position or volume of the resource in the location is tracked. A property of the resource is also determined from the image data and tracked. A function of a resource may also be stored for determining whether the resource is usable for a task. Responsive to notification criteria for the resource being satisfied, image data related to the resource is displayed on the near-eye AR display. | 04-04-2013 |
20130083173 | VIRTUAL SPECTATOR EXPERIENCE WITH A PERSONAL AUDIO/VISUAL APPARATUS - Technology is described for providing a virtual spectator experience for a user of a personal A/V apparatus including a near-eye, augmented reality (AR) display. A position volume of an event object participating in an event in a first 3D coordinate system for a first location is received and mapped to a second position volume in a second 3D coordinate system at a second location remote from where the event is occurring. A display field of view of the near-eye AR display at the second location is determined, and real-time 3D virtual data representing the one or more event objects which are positioned within the display field of view are displayed in the near-eye AR display. A user may select a viewing position from which to view the event. Additionally, virtual data of a second user may be displayed at a position relative to a first user. | 04-04-2013 |
20130084970 | Sharing Games Using Personal Audio/Visual Apparatus - A game can be created, shared and played using a personal audio/visual apparatus such as a head-mounted display device (HMDD). Rules of the game, and a configuration of the game space, can be standard or custom. Boundary points of the game can be defined by a gaze direction of the HMDD, by the user's location, by a model of a physical game space such as an instrumented court or by a template. Players can be identified and notified of the availability of a game using a server push technology. For example, a user in a particular location may be notified of the availability of a game at that location. A server manages the game, including storing the rules, boundaries and a game state. The game state can identify players and their scores. Real world objects can be imaged and provided as virtual objects in the game space. | 04-04-2013 |
20130085345 | Personal Audio/Visual System Providing Allergy Awareness - A system provides a recommendation of food items to a user based on nutritional preferences of the user, using a head-mounted display device (HMDD) worn by the user. In a store, a forward-facing camera of the HMDD captures an image of a food item. The food item can be identified by the image, such as based on packaging of the food item. Nutritional parameters of the food item are compared to nutritional preferences of the user to determine whether the food item is recommended. The HMDD displays an augmented reality image to the user indicating whether the food item is recommended. If the food item is not recommended, a substitute food item can be identified. The nutritional preferences can indicate food allergies, preferences for low calorie foods and so forth. In a restaurant, the HMDD can recommend menu selections for a user. | 04-04-2013 |
20130093788 | USER CONTROLLED REAL OBJECT DISAPPEARANCE IN A MIXED REALITY DISPLAY - The technology causes disappearance of a real object in a field of view of a see-through, mixed reality display device system based on user disappearance criteria. Image data is tracked to the real object in the field of view of the see-through display for implementing an alteration technique on the real object causing its disappearance from the display. A real object may satisfy user disappearance criteria by being associated with subject matter that the user does not wish to see or by not satisfying relevance criteria for a current subject matter of interest to the user. In some embodiments, based on a 3D model of a location of the display device system, an alteration technique may be selected for a real object based on a visibility level associated with the position within the location. Image data for alteration may be prefetched based on a location of the display device system. | 04-18-2013 |
20130095924 | ENHANCING A SPORT USING AN AUGMENTED REALITY DISPLAY - Technology is described for providing a personalized sport performance experience with three dimensional (3D) virtual data displayed by a near-eye, augmented reality display of a personal audiovisual (A/V) apparatus. A physical movement recommendation is determined for the user performing a sport based on skills data for the user for the sport, physical characteristics of the user, and 3D space positions for at least one or more sport objects. 3D virtual data depicting one or more visual guides for assisting the user in performing the physical movement recommendation may be displayed from a user perspective associated with a display field of view of the near-eye AR display. An avatar may also be displayed by the near-eye AR display performing a sport. The avatar may perform the sport interactively with the user or be displayed performing a prior performance of an individual represented by the avatar. | 04-18-2013 |
20130114043 | SEE-THROUGH DISPLAY BRIGHTNESS CONTROL - The technology provides various embodiments for controlling brightness of a see-through, near-eye mixed display device based on light intensity of what the user is gazing at. The opacity of the display can be altered, such that external light is reduced if the wearer is looking at a bright object. The wearer's pupil size may be determined and used to adjust the brightness used to display images, as well as the opacity of the display. A suitable balance between opacity and brightness used to display images may be determined that allows real and virtual objects to be seen clearly, while not causing damage or discomfort to the wearer's eyes. | 05-09-2013 |
20130147686 | Connecting Head Mounted Displays To External Displays And Other Communication Networks - An audio and/or visual experience of a see-through head-mounted display (HMD) device, e.g., in the form of glasses, can be moved to target computing device such as a television, cell phone, or computer monitor to allow the user to seamlessly transition the content to the target computing device. For example, when the user enters a room in the home with a television, a movie which is playing on the HMD device can be transferred to the television and begin playing there without substantially interrupting the flow of the movie. The HMD device can inform the television of a network address for accessing the movie, for instance, and provide a current status in the form of a time stamp or packet identifier. Content can also be transferred in the reverse direction, to the HMD device. A transfer can occur based on location, preconfigured settings and user commands. | 06-13-2013 |
20130177296 | GENERATING METADATA FOR USER EXPERIENCES - A system and method for efficiently managing life experiences captured by one or more sensors (e.g., video or still camera, image sensors including RGB sensors and depth sensors). A “life recorder” is a recording device that continuously captures life experiences, including unanticipated life experiences, in image, video, and/or audio recordings. In some embodiments, video and/or audio recordings captured by a life recorder are automatically analyzed, tagged with a set of one or more metadata, indexed, and stored for future use. By tagging and indexing life recordings, a life recorder may search for and acquire life recordings generated by itself or another life recorder, thereby allowing life experiences to be shared minutes or even years later. | 07-11-2013 |
20130181953 | STYLUS COMPUTING ENVIRONMENT - A stylus computing environment is described. In one or more implementations, one or more inputs are detected using one or more sensors of a stylus. A user that has grasped the stylus, using fingers of the user's hand, is identified from the received one or more inputs. One or more actions are performed based on the identification of the user that was performed using the one or more inputs received from the one or more sensors of the stylus | 07-18-2013 |
20130187943 | WEARABLE DISPLAY DEVICE CALIBRATION - In embodiments of wearable display device calibration, a first display lens system forms an image of an environment viewed through the first display lens system. A second display lens system also forms the image of the environment viewed through the second display lens system. The first display lens system emits a first reference beam and the second display lens system emits a second reference beam. The first display lens system then captures a reflection image of the first and second reference beams. The second display lens system also captures a reflection image of the first and second reference beams. An imaging application is implemented to compare the reflection images to determine a misalignment between the first and second display lens systems, and then apply an alignment adjustment to align the image of the environment formed by each of the first and second display lens systems. | 07-25-2013 |
20130201095 | PRESENTATION TECHNIQUES - Techniques involving presentations are described. In one or more implementations, a user interface is output by a computing device that includes a slide of a presentation, the slide having an object that is output for display in three dimensions. Responsive to receipt of one or more inputs by the computing device, how the object in the slide is output for display in the three dimensions is altered. | 08-08-2013 |
20130201276 | INTEGRATED INTERACTIVE SPACE - Techniques for implementing an integrative interactive space are described. In implementations, video cameras that are positioned to capture video at different locations are synchronized such that aspects of the different locations can be used to generate an integrated interactive space. The integrated interactive space can enable users at the different locations to interact, such as via video interaction, audio interaction, and so on. In at least some embodiments, techniques can be implemented to adjust an image of a participant during a video session such that the participant appears to maintain eye contact with other video session participants at other locations. Techniques can also be implemented to provide a virtual shared space that can enable users to interact with the space, and can also enable users to interact with one another and/or objects that are displayed in the virtual shared space. | 08-08-2013 |
20130215454 | THREE-DIMENSIONAL PRINTING - Three-dimensional printing techniques are described. In one or more implementations, a system includes a three-dimensional printer and a computing device. The three-dimensional printer has a three-dimensional printing mechanism that is configured to form a physical object in three dimensions. The computing device is communicatively coupled to the three-dimensional printer and includes a three-dimensional printing module implemented at least partially in hardware to cause the three-dimensional printer to form the physical object in three dimensions as having functionality configured to communicate with a computing device. | 08-22-2013 |
20130286004 | DISPLAYING A COLLISION BETWEEN REAL AND VIRTUAL OBJECTS - Technology is described for displaying a collision between objects by an augmented reality display device system. A collision between a real object and a virtual object is identified based on three dimensional space position data of the objects. At least one effect on at least one physical property of the real object is determined based on physical properties of the real object, like a change in surface shape, and physical interaction characteristics of the collision. Simulation image data is generated and displayed simulating the effect on the real object by the augmented reality display. Virtual objects under control of different executing applications can also interact with one another in collisions. | 10-31-2013 |
20130286223 | PROXIMITY AND CONNECTION BASED PHOTO SHARING - Photos are shared among devices that are in close proximity to one another and for which there is a connection among the devices. The photos can be shared automatically, or alternatively based on various user inputs. Various different controls can also be placed on sharing photos to restrict the other devices with which photos can be shared, the manner in which photos can be shared, and/or how the photos are shared. | 10-31-2013 |
20130293468 | COLLABORATION ENVIRONMENT USING SEE THROUGH DISPLAYS - A see-through, near-eye, mixed reality display device and system for collaboration amongst various users of other such devices and personal audio/visual devices of more limited capabilities. One or more wearers of a see through head mounted display apparatus define a collaboration environment. For the collaboration environment, a selection of collaboration data and the scope of the environment are determined. Virtual representations of the collaboration data in the field of view of the wearer, and other device users are rendered. Persons in the wearer's field of view to be included in collaboration environment and who are entitled to share information in the collaboration environment are defined by the wearer. If allowed, input from other users in the collaboration environment on the virtual object may be received and allowed to manipulate a change in the virtual object. | 11-07-2013 |
20130293530 | PRODUCT AUGMENTATION AND ADVERTISING IN SEE THROUGH DISPLAYS - An augmented reality system that provides augmented product and environment information to a wearer of a see through head mounted display. The augmentation information may include advertising, inventory, pricing and other information about products a wearer may be interested in. Interest is determined from wearer actions and a wearer profile. The information may be used to incentivize purchases of real world products by a wearer, or allow the wearer to make better purchasing decisions. The augmentation information may enhance a wearer's shopping experience by allowing the wearer easy access to important product information while the wearer is shopping in a retail establishment. Through virtual rendering, a wearer may be provided with feedback on how an item would appear in a wearer environment, such as the wearer's home. | 11-07-2013 |
20130293577 | INTELLIGENT TRANSLATIONS IN PERSONAL SEE THROUGH DISPLAY - A see-through, near-eye, mixed reality display apparatus for providing translations of real world data for a user. A wearer's location and orientation with the apparatus is determined and input data for translation is selected using sensors of the apparatus. Input data can be audio or visual in nature, and selected by reference to the gaze of a wearer. The input data is translated for the user relative to user profile information bearing on accuracy of a translation and determining from the input data whether a linguistic translation, knowledge addition translation or context translation is useful. | 11-07-2013 |
20130321255 | NAVIGATING CONTENT IN AN HMD USING A PHYSICAL OBJECT - Technology is disclosed herein to help a user navigate through large amounts of content while wearing a see-through, near-eye, mixed reality display device such as a head mounted display (HMD). The user can use a physical object such as a book to navigate through content being presented in the HMD. In one embodiment, a book has markers on the pages that allow the system to organize the content. The book could have real content, but it could be blank other than the markers. As the user flips through the book, the system recognizes the markers and presents content associated with the respective marker in the HMD. | 12-05-2013 |
20130321390 | AUGMENTED BOOKS IN A MIXED REALITY ENVIRONMENT - A system and method are disclosed for augmenting a reading experience in a mixed reality environment. In response to predefined verbal or physical gestures, the mixed reality system is able to answer a user's questions or provide additional information relating to what the user is reading. Responses may be displayed to the user on virtual display slates in a border or around the reading material without obscuring text or interfering with the user's reading experience. | 12-05-2013 |
20130326364 | POSITION RELATIVE HOLOGRAM INTERACTIONS - A system and method are disclosed for positioning and sizing virtual objects in a mixed reality environment in a way that is optimal and most comfortable for a user to interact with the virtual objects. | 12-05-2013 |
20130328763 | MULTIPLE SENSOR GESTURE RECOGNITION - Methods for recognizing gestures using adaptive multi-sensor gesture recognition are described. In some embodiments, a gesture recognition system receives a plurality of sensor inputs from a plurality of sensor devices and a plurality of confidence thresholds associated with the plurality of sensor inputs. A confidence threshold specifies a minimum confidence value for which it is deemed that a particular gesture has occurred. Upon detection of a compensating event, such as excessive motion involving one of the plurality of sensor devices, the gesture recognition system may modify the plurality of confidence thresholds based on the compensating event. Subsequently, the gesture recognition system generates a multi-sensor confidence value based on whether at least a subset of the plurality of confidence thresholds has been satisfied. The gesture recognition system may also modify the plurality of confidence thresholds based on the plugging and unplugging of sensor inputs from the gesture recognition system. | 12-12-2013 |
20130328925 | OBJECT FOCUS IN A MIXED REALITY ENVIRONMENT - A system and method are disclosed for interpreting user focus on virtual objects in a mixed reality environment. Using inference, express gestures and heuristic rules, the present system determines which of the virtual objects the user is likely focused on and interacting with. At that point, the present system may emphasize the selected virtual object over other virtual objects, and interact with the selected virtual object in a variety of ways. | 12-12-2013 |
20130328927 | AUGMENTED REALITY PLAYSPACES WITH ADAPTIVE GAME RULES - A system for generating a virtual gaming environment based on features identified within a real-world environment, and adapting the virtual gaming environment over time as the features identified within the real-world environment change is described. Utilizing the technology described, a person wearing a head-mounted display device (HMD) may walk around a real-world environment and play a virtual game that is adapted to that real-world environment. For example, the HMD may identify environmental features within a real-world environment such as five grassy areas and two cars, and then spawn virtual monsters based on the location and type of the environmental features identified. The location and type of the environmental features identified may vary depending on the particular real-world environment in which the HMD exists and therefore each virtual game may look different depending on the particular real-world environment. | 12-12-2013 |
20130335405 | VIRTUAL OBJECT GENERATION WITHIN A VIRTUAL ENVIRONMENT - A system and method are disclosed for building and experiencing three-dimensional virtual objects from within a virtual environment in which they will be viewed upon completion. A virtual object may be created, edited and animated using a natural user interface while the object is displayed to the user in a three-dimensional virtual environment. | 12-19-2013 |
20130335594 | ENHANCING CAPTURED DATA - Captured data is obtained, including various types of captured or recorded data (e.g., image data, audio data, video data, etc.) and/or metadata describing various aspects of the capture device and/or the manner in which the data is captured. One or more elements of the captured data that can be replaced by one or more substitute elements are determined, the replaceable elements are removed from the captured data, and links to the substitute elements are associated with the captured data. Links to additional elements to enhance the captured data are also associated with the captured data. Enhanced content can subsequently be constructed based on the captured data as well as the links to the substitute elements and additional elements. | 12-19-2013 |
20130342572 | CONTROL OF DISPLAYED CONTENT IN VIRTUAL ENVIRONMENTS - A system and method are disclosed for controlling content displayed to a user in a virtual environment. The virtual environment may include virtual controls with which a user may interact using predefined gestures. Interacting with a virtual control may adjust an aspect of the displayed content, including for example one or more of fast forwarding of the content, rewinding of the content, pausing of the content, stopping the content, changing a volume of content, recording the content, changing a brightness of the content, changing a contrast of the content and changing the content from a first still image to a second still image. | 12-26-2013 |
20140306891 | HOLOGRAPHIC OBJECT FEEDBACK - Methods for providing real-time feedback to an end user of a mobile device as they are interacting with or manipulating one or more virtual objects within an augmented reality environment are described. The real-time feedback may comprise visual feedback, audio feedback, and/or haptic feedback. In some embodiments, a mobile device, such as a head-mounted display device (HMD), may determine an object classification associated with a virtual object within an augmented reality environment, detect an object manipulation gesture performed by an end user of the mobile device, detect an interaction with the virtual object based on the object manipulation gesture, determine a magnitude of a virtual force associated with the interaction, and provide real-time feedback to the end user of the mobile device based on the interaction, the magnitude of the virtual force applied to the virtual object, and the object classification associated with the virtual object. | 10-16-2014 |
20150049114 | EXERCISING APPLICATIONS FOR PERSONAL AUDIO/VISUAL SYSTEM - The technology described herein includes a see-through, near-eye, mixed reality display device for providing customized experiences for a user. The personal A/V apparatus serves as an exercise program that is always with the user, provides motivation for the user, visually tells the user how to exercise, and lets the user exercise with other people who are not present. | 02-19-2015 |