A speech-processing system may provide access to one or more skills via spoken commands and/or responses in the form of synthesized speech. The system may be capable of keeping one or more skills active in the background while a user interacts (e.g., provides inputs to and/or receives outputs from) with a skill running in the foreground. A background skill may receive some trigger data, and determine to request the system to return the background skill to the foreground to, for example, request a user input regarding an action previously requested by the user. In some cases, the user may invoke a background skill to continue a previous interaction. The system may return the background skill to the foreground. The resumed skill may continue a previous interaction to, for example, to query the user for instructions, provide an update or alert, or continue a previous output.

Listeners to media programs provide feedback to creators or other entities associated with the media programs in the form of one or more spoken utterances. When a listener to a media program speaks one or more words to a microphone or other system, the words are captured and processed to determine an emotion of the listener, or to determine whether the words include any objectionable content. Data including the spoken words is captured and stored, and presented to the creator of the media program. Notifications of the utterances are provided to the creator, who may identify one of the utterances, and include the utterance in the media program, or invite the listener who provided the utterances to participate in the media program.

Disclosed are three-dimensional (“3D”) graphical user interface (“GUI”) elements for improving user interactions with a digital environment or a device by simplifying access to different data, functionality, and operations of the digital environment or the device. A 3D GUI element may include first visual information at a first position and second visual information at a second position within the 3D space represented by the 3D GUI element. In response to first input directed to the first visual information, the 3D GUI or system may perform a first action that is mapped to the first input and the first visual information within the 3D GUI element. In response to second input directed to the second visual information, the 3D GUI or system may perform a second action that is mapped to the second input and the second visual information within the 3D GUI element.

Persistent storage may contain an input discovery payload that contains entries representing configuration items and relationships therebetween, wherein the configuration items contain attributes defining devices, components, or applications on a network. One or more processors may be configured to: provide, for display, a graphical user interface containing a representation of the input discovery payload and a button; provide the input discovery payload to an identification and reconciliation engine (IRE) software application; receive, from the IRE software application, an output discovery payload that includes a log generated from execution of the IRE software application on the input discovery payload, wherein the log indicates, for the configuration items and the relationships in the input discovery payload, how a configuration management database (CMDB) would be updated by the IRE software application; and provide, for display, a further graphical user interface containing a further representation of the output discovery payload.

Persistent storage may contain an input discovery payload that contains entries representing configuration items and relationships therebetween, wherein the configuration items contain attributes defining devices, components, or applications on a network. One or more processors may be configured to: provide, for display, a graphical user interface containing a representation of the input discovery payload and a button; provide the input discovery payload to an identification and reconciliation engine (IRE) software application; receive, from the IRE software application, an output discovery payload that includes a log generated from execution of the IRE software application on the input discovery payload, wherein the log indicates, for the configuration items and the relationships in the input discovery payload, how a configuration management database (CMDB) would be updated by the IRE software application; and provide, for display, a further graphical user interface containing a further representation of the output discovery payload.

A head-worn device system includes one or more cameras, one or more display devices and one or more processors. The system also includes a memory storing instructions that, when executed by the one or more processors, configure the system to generate a virtual object, generate a virtual object collider for the virtual object, determine a conic collider for the virtual object, provide the virtual object to a user, detect a landmark on the user's hand in the real-world, generate a landmark collider for the landmark, and determine a selection of the first virtual object by the user based on detecting a collision between the landmark collider with the conic collider and with the virtual object collider.

Exemplary embodiments may perform feasibility analysis to determine whether it is possible to generate a lookup table that conforms to an error tolerance given a specification of a function or a set of data points that the lookup table attempts to approximate, an indication of breakpoint positions, and a specification of a data type for table values. Where it is determined that it is feasible to generate the lookup table, the lookup table may be automatically programmatically generated. Suggestions of how to modify the breakpoint positions and/or error tolerance may be provided. In addition, a visualization of approximation error and error tolerance, such as a visualization showing a feasibility margin, may be output. New data points may be processed to update table values for an already generated lookup table.

Methods and apparatus provide for: generating image data for an application to be displayed on an output device; recording the image data generated by the image generating unit; and receiving operation information from an input device, where the recording includes storing the image data for an application for a predetermined period of time up to the point in time at which operation information is received during the receiving operation information from a specific input unit provided in the input device while displaying an application image.

Provided are methods, systems, and computer readable media for user interaction with database methods and systems. In an aspect, a user interface can be generated to permit dynamic display generation to view data. The system can comprise a visualization component to dynamically generate one or more visual representations of the data to present in the state space.

Provided are methods, systems, and computer readable media for user interaction with database methods and systems. In an aspect, a user interface can be generated to permit dynamic display generation to view data. The system can comprise a visualization component to dynamically generate one or more visual representations of the data to present in the state space.