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:
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:
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 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.
摘要:
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.