A control method, an electronic device, and a storage medium are provided. The method includes: obtaining a first screen projection instruction and determining a target display device to be projected; and switching a network to which an electronic device or the target display device is connected when the target display device and the electronic device executing the first screen projection instruction are not connected to a same network, such that output content of the electronic device is able to be display-outputted to the target display device.

The disclosure relates to content delivery systems such as gateways for use in locations where the services of many end user devices are provided by a common management entity, such as hospitality, dormitory, healthcare, or other enterprise settings. The disclosure includes methods of initializing a gateway configuration and operating a gateway by ingesting content from a variety of signals (satellite, broadcast, cable, and IP), processing the content to have additional desired features, and reassembling content in various forms for delivery to individual end user devices.

An automated test platform is disclosed for use in developing and troubleshooting customized software for multimedia content receivers. The automated test platform allows developers to script test cases that permit interaction with multiple content receivers at the same time. The test platform can be applied generally to any client-server system. The automated test platform is used to create scripts, run the scripts on multiple content receivers, and view test results. A graphical user interface (GUI) is provided that allows technicians without any programming experience to build and run complex interactive test sequences in a modular fashion. Such an automated test platform can be used to test cable and satellite television set top boxes, as well as DVD players, streaming media receivers, and game consoles.

Novel techniques are described for lock-free sharing of a circular buffer. Embodiments can provide shared, lock-free, constant-bitrate access by multiple consumer systems to a live stream of audiovisual information being recorded to a circular buffer by a producer. For example, when a producer system writes a data stream to the circular buffer, the producer system records shared metadata. When a consumer system desires to begin reading from the shared buffer at a particular time, the shared metadata is used to compute a predicted write pointer location and corresponding dirty region around the write pointer at the desired read time. A read pointer of the consumer system can be set to avoid the dirty region, thereby permitting read access to a stable region of the circular buffer without relying on a buffer lock.

A modem configured to operate in a Multimedia over Coax Alliance, MoCA, access network is provided. The modem comprises a combiner having a coaxial interface for connection to a coaxial cable network and at least two frequency-separated southbound interfaces, SBIs; at least two MoCA chips, wherein each MoCA chip is configured to operate a MoCA access link and comprises a MoCA northbound interface, NBI, connected to one each of said SBIs of the combiner, and a data SBI; a link aggregation switch having at least two switchports connected to one each of the data SBIs, and a port to a data communication interface for connection to a client device for communication at a client data rate; wherein the MoCA chips are configured to operate separate MoCA access links at different MoCA access frequency bands over the coaxial cable network.

A modem configured to operate in a Multimedia over Coax Alliance, MoCA, access network is provided. The modem comprises a combiner having a coaxial interface for connection to a coaxial cable network and at least two frequency-separated southbound interfaces, SBIs; at least two MoCA chips, wherein each MoCA chip is configured to operate a MoCA access link and comprises a MoCA northbound interface, NBI, connected to one each of said SBIs of the combiner, and a data SBI; a link aggregation switch having at least two switchports connected to one each of the data SBIs, and a port to a data communication interface for connection to a client device for communication at a client data rate; wherein the MoCA chips are configured to operate separate MoCA access links at different MoCA access frequency bands over the coaxial cable network.

In one embodiment, a system includes a first device that receives, from a cable television (CATV) node, first downstream and upstream CATV RF signals and converts them to downstream and upstream optical signals. The first device distributes the downstream and upstream optical signals separately from each other by using different fiber optic cables or different wavelengths. The system further includes at least one micro distribution system, each comprising a micro node and at least one string of taps. The micro node receives the downstream and upstream optical signals from the first device and converts them to second downstream and upstream CATV RF signals. For each string of taps, the received second downstream and upstream CATV RF signals are passed from the micro node along the taps and blocked by a low pass filter (LPF), and the powering signal is passed along the taps and through the LPF.

In one embodiment, a system includes a first device that receives, from a cable television (CATV) node, first downstream and upstream CATV RF signals and converts them to downstream and upstream optical signals. The first device distributes the downstream and upstream optical signals separately from each other by using different fiber optic cables or different wavelengths. The system further includes at least one micro distribution system, each comprising a micro node and at least one string of taps. The micro node receives the downstream and upstream optical signals from the first device and converts them to second downstream and upstream CATV RF signals. For each string of taps, the received second downstream and upstream CATV RF signals are passed from the micro node along the taps and blocked by a low pass filter (LPF), and the powering signal is passed along the taps and through the LPF.

Embodiments of the present invention are directed to a Content Delivery Network (CDN) for broadcasting data streams. The CDN allows a streamer to stream live (in realtime) on a network(s), such as the Internet, for a live audience to view and to interact with the live entertainment. Each of the broadcast clients send data streams to the CDN via an input node, wherein the CDN output a selected media stream to one or more selected viewing clients via the output node. The architecture of the CDN contains one or more System Racks. Each of the System Racks contains multiple media channels. In operation, the data stream of a broadcasting client is sent to the CDN and distributed into selected channels. The data streams in each of the selected channels are outputted to viewing clients of a corresponding type.

Radio frequency (“RF”) signal amplifiers include an RF input, at least one RF output and communications paths therebetween. The communications paths include a downstream path that is configured to pass signals in a downstream frequency band, a first upstream path that is configured to pass signals in a first upstream frequency band that encompasses frequencies that are lower than the frequencies included within the downstream frequency band and a second upstream path that is configured to pass signals in a second upstream frequency band that encompasses frequencies that are between the frequencies included within the downstream frequency band and the frequencies included within the first upstream frequency band. These RF signal amplifiers further include a downstream power amplifier on the downstream path, a first upstream power amplifier on the first upstream path and a second upstream power amplifier on the second upstream path.