摘要:
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.
摘要:
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.
摘要:
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.
摘要:
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.
摘要:
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.
摘要:
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.
摘要:
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.
摘要:
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.
摘要:
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.
摘要:
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 (3D) virtual object displayed by the device system. A user can hold the virtual object in some examples, and transfer a right to the content item the object represents by handing the object to another user within a defined distance, who indicates acceptance of the right based upon one or more physical actions including taking hold of the transferred object. Other examples of physical actions performed by a body part of a user may also indicate offer and acceptance in the right transfer. Content may be transferred from display device to display device while rights data is communicated via a network with a service application executing remotely.