A sound identification system is used for identifying a sound associated with a client user. The sound identification system can receive information from a network device in a network that is associated with the client user. The sound identification system determines one or more context parameters based on the information. A client user can output a sound. This sound can be received as a sound input by the sound identification system. The sound identification system can determine one or more identified sound signatures associated with the client user based on one or more sound signatures. The sound identification system can determine an identified sound based on the one or more identified sound signatures and the one or more context parameters. In this way, a client user is monitored using context-aware sound identification.

A monitoring system can provide a sound profile to a network device. The monitoring system can identify a type of location associated with the network device that is located in a network. The monitoring system can determine a sound profile based on the type of location. The monitoring system can provide the sound profile to the network device. The sound profile relates to one or more sounds associated with the location so that the network device need not store and/or process all sounds but rather only those sounds that would typically be received or made at the location. The sound profile can be based or updated based on user sensor data received from the network device. In this way, the network device, the monitoring system, any other network resource, or any combination thereof uses context-aware sound identification to monitor a client user.

A method for scheduling feature operations on a remote server to modify a behavior of at least one communication device of a plurality of communication devices includes receiving, by the remote server, an entry for at least one feature operation for the at least one communication device of the plurality of communication devices registered with a same extension. The entry includes a scheduled date and a scheduled time for the at least one feature operation. The method also includes processing, by the remote server, entry to determine how to handle an incoming call during the scheduled date and the scheduled time for the at least one feature operation. The method further includes generating, by the remote server, a scheduled feature operation for the entry and modifying, by the remote server, the behavior of the at least one communication device based on the scheduled feature operation.

A method for scheduling feature operations on a remote server to modify a behavior of at least one communication device of a plurality of communication devices includes receiving, by the remote server, an entry for at least one feature operation for the at least one communication device of the plurality of communication devices registered with a same extension. The entry includes a scheduled date and a scheduled time for the at least one feature operation. The method also includes processing, by the remote server, entry to determine how to handle an incoming call during the scheduled date and the scheduled time for the at least one feature operation. The method further includes generating, by the remote server, a scheduled feature operation for the entry and modifying, by the remote server, the behavior of the at least one communication device based on the scheduled feature operation.

A server version of an interactive application executed by a processing device of a first mobile device communicatively connected to a main video rendering device collects first data generated by a first client version of the interactive application executed by the processing device. The server version of the interactive application generates first displayable content relating to the first client version of the interactive application based on the first data, wherein the first displayable content is rendered on a display of the first mobile device. The server version of the interactive application generates second displayable content based in part on the first data and additional data relating to the server version of the interactive application, wherein the first displayable content is different from the second displayable content. The server version of the interactive application, transmits the second displayable content to the main video rendering device to be rendered on a main video display.

A server version of an interactive application executed by a processing device of a first mobile device communicatively connected to a main video rendering device collects first data generated by a first client version of the interactive application executed by the processing device. The server version of the interactive application generates first displayable content relating to the first client version of the interactive application based on the first data, wherein the first displayable content is rendered on a display of the first mobile device. The server version of the interactive application generates second displayable content based in part on the first data and additional data relating to the server version of the interactive application, wherein the first displayable content is different from the second displayable content. The server version of the interactive application, transmits the second displayable content to the main video rendering device to be rendered on a main video display.

A server version of an interactive application executed by a processing device of a first mobile device communicatively connected to a main video rendering device collects first data generated by a first client version of the interactive application executed by the processing device. The server version of the interactive application generates first displayable content relating to the first client version of the interactive application based on the first data, wherein the first displayable content is rendered on a display of the first mobile device. The server version of the interactive application generates second displayable content based in part on the first data and additional data relating to the server version of the interactive application, wherein the first displayable content is different from the second displayable content. The server version of the interactive application, transmits the second displayable content to the main video rendering device to be rendered on a main video display.

A server version of an interactive application executed by a processing device of a first mobile device communicatively connected to a main video rendering device collects first data generated by a first client version of the interactive application executed by the processing device. The server version of the interactive application generates first displayable content relating to the first client version of the interactive application based on the first data, wherein the first displayable content is rendered on a display of the first mobile device. The server version of the interactive application generates second displayable content based in part on the first data and additional data relating to the server version of the interactive application, wherein the first displayable content is different from the second displayable content. The server version of the interactive application, transmits the second displayable content to the main video rendering device to be rendered on a main video display.

A method performed by a programmed processor of an in-ear headphone that is to be worn by a user. The method obtains, over a wireless communication link and via a first wireless connection that uses an accessory profile, a first request, from an audio source device, to start a measurement process. In response to obtaining the request, the method 1) establishes, over the link, a second wireless connection that uses an audio distribution profile between the headphone and the source device, 2) obtains, via the second wireless connection, an audio signal for driving a speaker of the headphone to output sound, 3) responsive to the outputted sound, determining a fit parameter, and 4) transmitting the fit parameter to the source device via the first wireless connection.

A data communication method, apparatus, and device, a computer-readable storage medium, and a computer program product. The method includes: generating a communication request in response to a trigger operation for a communication control in an embedded subroutine, the communication request being used for requesting to communicate with a target user associated with the embedded subroutine, invoking a communication service plug-in according to the communication request, and communicating with the target user in the embedded subroutine through a first service function provided by the communication service plug-in, and performing, in response to a trigger operation for a second service function provided by the communication service plug-in, service interaction with the target user in the embedded subroutine through the second service function in a process of communicating with the target user.