A computing device associated with a user obtains contextual data associated with the user. The contextual data includes information indicating a current location of the user relative to the computing device. The computing device selects one or more applications provided by the computing device based on results of an analysis of the contextual data, and projects one or more holographic objects representing the one or more applications into a viewable area located a predetermined distance from the user.

Various implementations directed to price time priority queue for virtual power plant and connected grid aggregation are provided. In one implementation, a method may include receiving origin location data and destination location data. The method may also include generating nodal power networks based on the optimized origin location data and the destination location data. The method may further include determining virtual power plant hubs along the transmission route and network, where the virtual hubs include a first virtual hub based on the origin location data and a second virtual hub based on the destination location data. The method may additionally include receiving power device data for the geolocation exchange units. In addition, the method may include receiving market depth data for a geolocation exchange for the geolocation exchange units based on the virtual power plant nodal sequences.

Various implementations directed to price time priority queue for a multi-dimension map tile device repository are provided. In one implementation, a method may include receiving origin location data and destination location data. The method may also include generating data networks based on the optimized origin location data and the destination location data. The method may further include determining data hubs along the transmission or transit route and network, where the virtual hubs include a first virtual hub based on the origin location data and a second virtual hub based on the destination location data. The method may additionally include receiving IoT device data for the geolocation exchange units. In addition, the method may include receiving market depth data for a geolocation exchange for the geolocation exchange units based on the multi-dimension map tile repository nodal sequences.

Methods and systems are described for improved techniques for consuming and interacting with media content. Specifically, a media guidance application may present a holographic structure using a holographic interface. Moreover, the media guidance application may monitor the user and/or area about the holographic interface for user interactions that may cause the media guidance application to alter the holographic structure based on a user interaction. The media guidance application may also after altering the holographic structure, generate for display a media asset associated with the holographic structure.

A system for displaying a holographic image of an object behind a real object surface, including a computing unit for computing data for displaying a three-dimensional image of an object, a location measurement unit for measuring a location of a surface of a real object, a display for displaying the three dimensional image of the object, wherein the computing unit is adapted to compute data to display the three-dimensional image of the object at least partly behind the surface of the real object. Related apparatus and methods are also described.

One or more signals are received from one or more sensors. Based at least in part on the one or more signals, a location of a person relative to one or more locations of an autonomous self-moving device is determined. Based at least in part on the one or more signals, data indicative that the autonomous self-moving device has detected a presence and location of the person is generated. Based at least in part on the one or more signals, a location of a person relative to a location of the autonomous self-moving device is determined. A planned path for the autonomous self-moving device is determined. Based at least in part on the one or more signals, data indicative of the planned path is generated.

Implementations of various computer methods to couple a computerized ball device which acts as a mobile computing device to record the users environment and project light towards waveguide eyeglasses or contacts which then allows a user to view imbedded light structure holograms in the waveguide while viewing the actual world. The computer ball device additionally has the ability to be docked in a drone cradle which creates a database map of the user's environment while not being utilized by the user for an immediate task. The device may also attach to a wrist band for mobility. The device also has the ability to couple the projected light structures so that a plurality of users may view the same light structure content to build an environment of trust. The device decouples the traditional design of head mounted virtual and mixed reality that place together the camera with the head mounted device.

A system for displaying a holographic image of an object behind a real object surface, including a computing unit for computing data for displaying a three-dimensional image of an object, a location measurement unit for measuring a location of a surface of a real object, a display for displaying the three dimensional image of the object, wherein the computing unit is adapted to compute data to display the three-dimensional image of the object at least partly behind the surface of the real object. Related apparatus and methods are also described.

Aspects of the subject disclosure may include, for example, obtaining a first request for a first virtual object, obtaining first data regarding the first virtual object responsive to the obtaining of the first request, analyzing the first data to identify a first plurality of characteristics for the first virtual object, wherein the first plurality of characteristics include a first visual aspect of the first virtual object, a first auditory aspect of the first virtual object, a first scent aspect of the first virtual object, and a first haptic aspect of the first virtual object, and responsive to the analyzing of the first data, enabling at least a first sensory unit of a plurality of sensory units to render the first virtual object in accordance with the first plurality of characteristics. Other embodiments are disclosed.

A light field display system is implemented in a consumer device to present the user of the consumer device with holographic content, providing the user with an immersive operational experience. The system generates and presents holographic content for the user. The system receives a command from the user. In some embodiments, the presented holographic content may comprise a holographic user interface that is used by the system to receive the commands from the user. Subsequently, the system recognizes the received commands, determines one or more computational commands for execution by the system, and executes the determined computational command.