Various arrangements are present for targeting content in a television distribution system. A multiregional television channel may be transmitted to television receivers. A plurality of regional television channels may also be transmitted. Each regional television channel of the plurality of regional television channels may be broadcast to geographically smaller regions than the multiregional television channel. Content among the regional television channels may vary. Data may be transmitted to the television receivers that causes the television receivers to output for presentation as a single television channel: content from the multiregional television channel and content from a regional television channel corresponding to the television receiver's location.

Various arrangements are present for targeting content in a television distribution system. A multiregional television channel may be transmitted to television receivers. A plurality of regional television channels may also be transmitted. Each regional television channel of the plurality of regional television channels may be broadcast to geographically smaller regions than the multiregional television channel. Content among the regional television channels may vary. Data may be transmitted to the television receivers that causes the television receivers to output for presentation as a single television channel: content from the multiregional television channel and content from a regional television channel corresponding to the television receiver's location.

A satellite system controller for a satellite system can comprise a receiving module, an interval selector, an epoch selector, and a scheduler. The receiving module can receive, from a transmission originator device, a set interval request message requesting the satellite system controller set a transmission interval and an epoch time for a satellite receiver, the transmission interval being an amount of time the satellite receiver is to remain in a sleep mode between expected transmissions and the epoch time being an instant at which the satellite receiver is to expect a satellite transmission. The interval selector can determine, based on the transmission interval, a sleep mode cycle for the satellite receiver. The epoch selector can select the epoch time according to the sleep mode cycle and the scheduler can schedule the satellite transmission with the satellite system at approximately the epoch time and according to the sleep mode cycle.

A method of delivering content, via a satellite, from a content server to one or more tower sites of a mobile operator network or locations with caching functions, the method including using satellite bandwidth of the satellite to transmit content to one or more tower sites of a mobile operator network, transmitting the content to the one or more tower sites or locations with caching functions using a combination of wide and spot beams based on locations of the one or more tower sites, and receiving distribution rules, with respect to the content, within computing resources on the downlink side of the transmission path in cloud-based architecture, and comprises transmitting the content to the one or more tower sites or caching locations based on the aggregated, received distribution rules and policies with further distribution to mobile devices.

A method of delivering content, via a satellite, from a content server to one or more tower sites of a mobile operator network or locations with caching functions, the method including using satellite bandwidth of the satellite to transmit content to one or more tower sites of a mobile operator network, transmitting the content to the one or more tower sites or locations with caching functions using a combination of wide and spot beams based on locations of the one or more tower sites, and receiving distribution rules, with respect to the content, within computing resources on the downlink side of the transmission path in cloud-based architecture, and comprises transmitting the content to the one or more tower sites or caching locations based on the aggregated, received distribution rules and policies with further distribution to mobile devices.

A system, apparatus, and method provide messaging, between a headend system and a set top box. A distributor determines and provides an assigned communication identifier and an assigned server host address, that correspond to one of one or more first servers, to each of one or more set top box clients. The first servers maintain a persistent connection with the set top box clients and provide messaging, presence, and routing features via the persistent connection. A gateway service provides a gateway for one or more headend servers to communicate with the set top box clients through the first servers. A server controller provides administrative graphical user interfaces for operators to monitor and control health checks, configuration changes, and collect statistics for the distributor, first servers, and the gateway service.

A system, apparatus, and method provide messaging, between a headend system and a set top box. A distributor determines and provides an assigned communication identifier and an assigned server host address, that correspond to one of one or more first servers, to each of one or more set top box clients. The first servers maintain a persistent connection with the set top box clients and provide messaging, presence, and routing features via the persistent connection. A gateway service provides a gateway for one or more headend servers to communicate with the set top box clients through the first servers. A server controller provides administrative graphical user interfaces for operators to monitor and control health checks, configuration changes, and collect statistics for the distributor, first servers, and the gateway service.

One or more circuits may comprise at least one first-type analog-to-digital converter (ADC) and at least one second-type ADC. The circuit(s) may be operable to receive a plurality of signals, each of which may comprise a plurality of channels. The circuit(s) may be operable to digitize a selected one or more of the channels. Which, if any, of the selected channels are digitized via the at least one first-type ADC and which, if any, of the selected channels are digitized via the at least one second-type ADC, may be based on which of the plurality of channels are the selected channels and/or based on power consumption of the circuit(s). A bandwidth of each first-type ADC may be on the order of the bandwidth of one of the received signals. A bandwidth of each second-type ADC may be on the order of the bandwidth of one of the plurality of channels.

An integrated multi-user satellite receiver includes: a single-chip, and the single-chip includes: a first synthesizer for generating a first oscillating signal having a first frequency; a first frequency multiplier for generating a second oscillating signal having a second frequency according to the first oscillating signal; a second synthesizer for generating a third oscillating signal having a third frequency; and a second frequency multiplier for generating a fourth oscillating signal having a fourth frequency according to the third oscillating signal; wherein the single-chip generates a first down-converted signal according to a first satellite signal and the second oscillating signal, generates a second down-converted signal according to the first satellite signal and the fourth oscillating signal, generates a third down-converted signal according to a second satellite signal and the second oscillating signal, and generates a fourth down-converted signal according to the second satellite signal and the fourth oscillating signal.

A system, apparatus, and method provide messaging, between a headend system and a set top box. A distributor determines and provides an assigned communication identifier and an assigned server host address, that correspond to one of one or more first servers, to each of one or more set top box clients. The first servers maintain a persistent connection with the set top box clients and provide messaging, presence, and routing features via the persistent connection. A gateway service provides a gateway for one or more headend servers to communicate with the set top box clients through the first servers. A server controller provides administrative graphical user interfaces for operators to monitor and control health checks, configuration changes, and collect statistics for the distributor, first servers, and the gateway service.