Systems and methods are described for power control in a media receiver device having a plurality of electronic components, using a trained model. Input signals are received from at least one electronic component. An alertness state of the device is determined using a machine learning based determiner trained to process the received input signals and predict a subsequent alertness state identifying at least one additional component or device. Power consumption by the identified components and devices is controlled based on the predicted alertness state.

A network element and a method for execution by such network element. The method comprises processing a plurality of information streams transiting the network element to identify a particular data stream as a suspected bearer of encrypted media, the particular data stream established between a first node and a second node. The method also comprises establishing a first control stream with the first node and a second control stream with the second node, wherein the first control stream is established using credentials associated with the second node. The method further comprises obtaining a cryptographic key sent by the first node over the first control stream and destined for the second node, sending the cryptographic key to the second node over the second control stream, obtaining encrypted media sent by the second node and destined for the first node and decrypting the encrypted media based on the cryptographic key.

In some implementations, a method includes: determining a complexity value for first image data associated with of a physical environment that corresponds to a first time period; determining an estimated composite setup time based on the complexity value for the first image data and virtual content for compositing with the first image data; in accordance with a determination that the estimated composite setup time exceeds the threshold time: forgoing rendering the virtual content from the perspective that corresponds to the camera pose of the device relative to the physical environment during the first time period; and compositing a previous render of the virtual content for a previous time period with the first image data to generate the graphical environment for the first time period.

Systems and methods for enhancing user experience in accessing media of a certain content type by outputting the media on a nearby device that is better suited for access. For example, a media guidance application may determine that a user is accessing, on his/her smartphone, a digital page (e.g., a website, a newsfeed, etc.) that features embedded content (e.g., photos, movies, music, etc.). In response to determining that the user has navigated to an embedded content, such as a video clip, the media guidance application may determine a device in the vicinity of the user that is better suited than the user's smartphone for playback of the video clip. For example, a nearby smart television may have a larger screen, better sound output, and a better display resolution than the smartphone. As a result, the media guidance application may cause the smart television to output the video clip.

An electronic device, computer program product, and method manage presenting and pausing of media content in response to locally detected visual and aural interruptions. The electronic device is configured to determine, using one or more sensors from among: (i) an image capturing device positioned to have a field of view of a monitored area and (ii) a microphone positioned to detect sounds in or near the monitored area. A consumer is in the monitored area during presenting of media content by a media output device. The electronic device is configured to monitor the one or more sensors to determine whether an interruption is occurring that can degrade consumer experience relative to the presenting of the media content. In response to determining that the interruption is occurring, the electronic device is configured to pause the presenting of the media content on the media output device.

Systems, methods, and software for submitting video evidence. A request is received from a user of a security device to submit an identified video clip as video evidence to an agency, and the identified video clip and corresponding metadata is retrieved from a database of video clips. Additional information about content of the video clip is interactively collected from the owner and a digital signature is received from the owner. A video evidence file is generated to include the content of the identified video clip, information regarding capture of the video clip based upon the metadata, the additional information, and the digital signature. The video evidence file is then communicated to the agency.

Systems, methods, and software for submitting video evidence. A request is received from a user of a security device to submit an identified video clip as video evidence to an agency, and the identified video clip and corresponding metadata is retrieved from a database of video clips. Additional information about content of the video clip is interactively collected from the owner and a digital signature is received from the owner. A video evidence file is generated to include the content of the identified video clip, information regarding capture of the video clip based upon the metadata, the additional information, and the digital signature. The video evidence file is then communicated to the agency.

Certain exemplary embodiments relate to entertainment systems that interact with users to provide access to media appropriate to and/or customized for a particular user using the entertainment system, the location at which the entertainment system is being accessed, and/or a predefined event. For example, in certain exemplary embodiments, an entertainment system in a location is configured to provide jukebox-related and entertainment system mediated services that are accessible from within and from the outside of the location, and provide (1) attract or flight media operations, (2) browsing services, and/or (3) search screens appropriate to and/or customized for a particular user using the entertainment system, the location at which the entertainment system is being accessed, and/or a predefined event. Such screens may be provided with a three-dimensional look-and-feel in certain exemplary embodiments.

Certain exemplary embodiments relate to entertainment systems that interact with users to provide access to media appropriate to and/or customized for a particular user using the entertainment system, the location at which the entertainment system is being accessed, and/or a predefined event. For example, in certain exemplary embodiments, an entertainment system in a location is configured to provide jukebox-related and entertainment system mediated services that are accessible from within and from the outside of the location, and provide (1) attract or flight media operations, (2) browsing services, and/or (3) search screens appropriate to and/or customized for a particular user using the entertainment system, the location at which the entertainment system is being accessed, and/or a predefined event. Such screens may be provided with a three-dimensional look-and-feel in certain exemplary embodiments.

A system and method for transmitting still images and a video feed from an unmanned aerial vehicle to a ground station is disclosed. The system includes an aircraft including a digital video camera to capture still images and video frames of an object. A video encoder is coupled to the camera to provide a video output including video packets. A file server is coupled to the camera to provide a still image output including image data packets. A multiplexer is coupled to the video output and the still image output. The multiplexer produces a data transmission including the video packets and the image data packets. A transmitter sends the data transmission to the ground station. The ground station receives the data transmission and demultiplexes the packets into separate video and image data packets. The ground control station may select the ratio the video stream images in relation to the still image to be transmitted from the aircraft.