A wearable electronic device includes a sensor module, a processor, a display controller, and a display, where the sensor is configured to: collect data, generate a sensor signal that represents a feature of data of currently collected data, and send the sensor signal to the processor, the processor is configured to: determine, according to the received sensor signal, a manner to display that is corresponding to the feature of data represented by the sensor signal and is of the display, generate a display control signal, and send the display control signal to the display controller, and the display controller is configured to control, according to the display control signal, the display to display.

A wearable electronic device includes a sensor module, a processor, a display controller, and a display, where the sensor is configured to: collect data, generate a sensor signal that represents a feature of data of currently collected data, and send the sensor signal to the processor, the processor is configured to: determine, according to the received sensor signal, a manner to display that is corresponding to the feature of data represented by the sensor signal and is of the display, generate a display control signal, and send the display control signal to the display controller, and the display controller is configured to control, according to the display control signal, the display to display.

Gestures allow selection and alteration of media files. A video file is graphically illustrated on a touch sensitive display. A gesture input is received at a point of contact on the touch sensitive display and ends with disengagement of the touch sensitive display. A vector is determined from the point of contact to the disengagement of the touch sensitive display. The video file is then modified in response to the vector.

The disclosed computer-implemented method may include (i) associating a planar element within a virtual environment with an alternate virtual environment and (ii) rendering the virtual environment such that (A) the alternate virtual environment is framed within the planar element, (B) at least one rendered element of the alternate virtual environment renders at a distal depth beyond a proximal depth of the planar element within the virtual environment, and (C) altering a viewpoint within the virtual environment relative to a position of the planar element within the virtual environment produces a parallax effect between the virtual environment and the rendered element of the alternate virtual environment due at least in part to the rendered element of the alternate virtual environment being rendered at the distal depth beyond the proximal depth of the planar element within the virtual environment. Various other methods, systems, and computer-readable media are also disclosed.

The disclosed computer-implemented method may include (i) associating a planar element within a virtual environment with an alternate virtual environment and (ii) rendering the virtual environment such that (A) the alternate virtual environment is framed within the planar element, (B) at least one rendered element of the alternate virtual environment renders at a distal depth beyond a proximal depth of the planar element within the virtual environment, and (C) altering a viewpoint within the virtual environment relative to a position of the planar element within the virtual environment produces a parallax effect between the virtual environment and the rendered element of the alternate virtual environment due at least in part to the rendered element of the alternate virtual environment being rendered at the distal depth beyond the proximal depth of the planar element within the virtual environment. Various other methods, systems, and computer-readable media are also disclosed.

The present disclosure generally relates to methods and user interfaces for providing clock user interfaces. In some embodiments, methods and user interfaces for providing clock user interfaces displaying simulated emitted light, methods and user interfaces for displaying clock user interfaces including astronomical object, methods and user interfaces for displaying clock user interfaces that include adjustable time indications, methods and user interfaces for displaying clock user interfaces that include multiple calendar systems, methods and user interfaces for displaying clock user interfaces including animated numerals, methods and user interfaces for displaying clock user interfaces with colors that are based on a selected color, and/or methods and user interfaces for displaying clock user interfaces including animated lines are described.

There is provided a system for modulating a graphical user interface (GUI). The system comprising a user device and a system controller in communication therewith. The user device comprises a device controller and a display interface for displaying the GUI. Execution of processor executable code stored in the system controller or provided for storage in the user device by the system controller or by the device controller or by the combination thereof synergistically provides for the system controller or the device controller or the combination thereof with performing computer-implementable steps. The computer implementable steps comprise splitting the GUI into two or more sub-GUI portions positioned within the GUI frame boundary and providing for the two or more sub-GUI portions to simultaneously display respective content stored within the user device and/or hosted by the system controller and/or a same or different remote host controllers in communication with the user device.

There is provided a system for modulating a graphical user interface (GUI). The system comprising a user device and a system controller in communication therewith. The user device comprises a device controller and a display interface for displaying the GUI. Execution of processor executable code stored in the system controller or provided for storage in the user device by the system controller or by the device controller or by the combination thereof synergistically provides for the system controller or the device controller or the combination thereof with performing computer-implementable steps. The computer implementable steps comprise splitting the GUI into two or more sub-GUI portions positioned within the GUI frame boundary and providing for the two or more sub-GUI portions to simultaneously display respective content stored within the user device and/or hosted by the system controller and/or a same or different remote host controllers in communication with the user device.

The disclosure relates to tools and methods for creating synthetic images with photo-realistic images. The disclosed face generation technology focuses on photo-realistic results by leveraging analysis of a pool of pre-selected images based on a user selection and preferences. The tools and methods as described herein include limiting the pool of pre-selected images by one or more criteria, including, for example, but not limited to gender, age, skin color, expression, etc. The pre-selection of a more curated pool of images allows a user to include a desired set of criteria and specifications that the user would want in a generated synthetic image or images.

The disclosure relates to tools and methods for creating synthetic images with photo-realistic images. The disclosed face generation technology focuses on photo-realistic results by leveraging analysis of a pool of pre-selected images based on a user selection and preferences. The tools and methods as described herein include limiting the pool of pre-selected images by one or more criteria, including, for example, but not limited to gender, age, skin color, expression, etc. The pre-selection of a more curated pool of images allows a user to include a desired set of criteria and specifications that the user would want in a generated synthetic image or images.