Systems, methods, and non-transitory, machine-readable media to facilitate updating media devices in a local network with a client-server architecture are disclosed. A primary media device may be configured to operate as a server in a local network, receive audio/video (A/V) content via an Internet connection and/or a satellite network connection, serve the A/V content to a set of one or more secondary media devices for display with at least one television of a set of one or more televisions, and receive a set of one or more software updates via the Internet connection, a Universal Serial Bus (USB) connection, and/or the satellite network connection. One or more software updates of the set of one or more software updates may be specified for, and may be transferred to, the set of one or more secondary media devices.

Systems, methods, and non-transitory, machine-readable media to facilitate streaming in a local network are disclosed. A primary media device may be configured to: operate as a server in a local network, receive audio/video (A/V) content, and provide the A/V content to a first display. A secondary media device may be communicatively connected to the primary media device and may be configured to: operate as a client with respect to the primary media device in the local network, receive the A/V content from the primary media device, and provide the A/V content to a second display. The primary media device and the secondary media device may use multiple subnets in the local network. The primary media device and/or the secondary media device may select a first subnet of the multiple subnets to use based at least in part on a type of content to communicate via the first subnet.

New systems and methods allow for transmission of multiple types of content protocols over a unidirectional content delivery network, such as a television broadcast. Hardware and/or software used at the network transmission location (such as a television broadcast station) and hardware and/or software located at an endpoint (such as a home television, car infotainment system, or first responder location) allow for a native ATSC 1.0 signal to have embedded within it additional content that is not encoded as ATSC 1.0 content. The non-ATSC 1.0 content can be detected and segregated from ATSC 1.0 content so that the endpoint devices (such as a television receiver) will not attempt to render the non-ATSC 1.0 content (such as, e.g., ATSC 3.0 content or application specific content) as normal ATSC 1.0 programming. Instead, the non-ATSC 1.0 content will be separately decoded, assembled, and processed to allow for multiple types of content to be used and displayed by the endpoint, even though the broadcast signal was transmitted only as an ATSC 1.0 signal.

A system and method are disclosed for identifying a media item to be provided to a group of users of a content sharing platform, wherein the media item is associated with a category, and wherein each user in the group of users is associated with a weight indicating a probability of a correspondence between a respective user and the category associated with the media item, receiving a request to change a size of the group of users from a first level to a second level, the first level corresponding to a first weight threshold for the group of users, and calculating, based a value indicating a difference between the first level and the second level, a second weight threshold for the group of users corresponding to the second level, the second weight threshold to be subsequently used to determine whether the media item is to be provided to a user requesting content from the content sharing platform.

According to an example implementation, a method may include transmitting, by a user device to a base station in a wireless network, a system information request for on-demand system information during a random access procedure, where the system information request is a request for one or more parameters that enable the user device to communicate in the wireless network, receiving, by the user device from the base station, an indication of a wait period in which the user device waits before obtaining the on-demand system information, waiting, by the user device, a time duration during the wait period, and monitoring, by the user device after expiration of the wait period, a system information window in which a system information message having the on-demand system information is broadcasted by the base station.

Disclosed are a transmitting method, a receiving method, a transmitting device and a receiving device for high-definition video data. The transmitting method comprises the follows. High-definition video data with different color space formats is obtained by a transmitting device via an input interface. processing, by the transmitting device, the high-definition video data into a data packet; transmitting, by the transmitting device, the data packet to a first communication module with the transmission rate not less than a first threshold. The first communication module is configured to transmit the data packet. By the adoption of the disclosure, the transmitting device can transmit the high-definition video data to a receiving device through the first communication module and based on a network cable or an optical fiber, so that lossless high-definition video transmission with ultra-low latency can be realized.

Techniques are described for expanding and/or improving the Advanced Television Systems Committee (ATSC) 3.0 television protocol in robustly delivering the next generation broadcast television services. A receiver, to automatically switch from presenting a service on a first frequency to a second frequency such as when a mobile receiver is moving through a boundary region between two broadcasters, can consider not just signal strength and error rates of two frequencies carrying the same service to select which frequency to tune to, but also relative location and direction of motion of the receiver with respect to each broadcaster.

The present invention provides a control method applied to an electronic device is disclosed, wherein the electronic device includes a processor and a wireless network module, and the control method includes the steps of: generating a determination result by determining if the wireless network module needs to transmit a packet; and when the determination result indicates that the wireless network module needs to transmit the packet, reducing a frequency of a clock signal used by the processor during a packet transmission.

Techniques are described for expanding and/or improving the Advanced Television Systems Committee (ATSC) 3.0 television protocol in robustly delivering the next generation broadcast television services. A receiver, to automatically switch from presenting a service on a first frequency to a second frequency such as when a mobile receiver is moving through a boundary region between two broadcasters, can consider not just signal strength and error rates of two frequencies carrying the same service to select which frequency to tune to, but also relative location and direction of motion of the receiver with respect to each broadcaster.

Various arrangements for facilitating smart television content receivers in a local network are provided. A primary television receiver executing a first operating system can receive audio data including human voice from a voice enabled remote control. The primary television receiver can transmit the audio data to a secondary television receiver executing a second operating system and that includes a voice command component. The secondary television receiver can convert the audio data into voice command data and transmit the voice command data to the primary television receiver. The primary television receiver can transmit the voice command data to a voice processing server via the Internet and receive, in response, a command generated based on the voice command data. The primary television receiver can transmit the command to the secondary television receiver. The voice command component can then control an operation of the secondary television receiver based on the command.