Embodiments include a system, method, and a computer program product for installing operating data on a device. For example, the method may include searching a plurality of channels to locate a message on an active channel for the device, the message being transmitted on each of the plurality of channels; in response to locating the message, analyzing the message to determine a second channel from among the plurality of channels for downloading the operating data for the device, the second channel being different than the first channel; in response to determining the second channel, tuning the device to the second channel; downloading, via the second channel, the operating data for the device; and installing the operating data on the device.

Method for automatically switching television channels or other content sources. The method may be used with any electronic media to facilitate switching between channels or other content sources based on events or other occurrences in non-viewed channels, such as but not limited to switching channels based on sporting event occurrences (goals, ending of game, etc.), news event occurrence (breaking news, health tips, etc.), and other any number of other identifiable events.

A digital content operating apparatus, including: a communication unit which communicates with an external device which has a display for displaying the digital content; a user operation interface which receives a user operation to control the digital content which is displayed on the external device; a display which displays either a linear content operation panel or an interactive content operation panel; and a controller which controls the user operation interface corresponding to information on the digital content which is displayed on the external device; wherein either the linear content operation panel or the interactive content operation panel is displayed alternatively as the user operation interface on the display.

A broadcast receiving apparatus includes: a first receiving unit receiving broadcast data for a first transmission method; a second receiving unit receiving broadcast data for a second transmission method; a first decoding unit decoding the broadcast data received by the first receiving unit; a second decoding unit decoding the broadcast data received by the second receiving unit; a video output unit outputting video, the video being generated based on data decoded by the first or second decoding unit; an operation input unit receiving control information from a remote controller; and a control unit controlling the units based on the control information received by the operation input unit. The remote controller includes a button to output control information for switching between a display state and a non-display state of service, the service being linked with a broadcasting program.

An apparatus for capturing video broadcasting signals comprises a plurality of capture channels, each channel producing respective video transport streams as inputs to a multi-channel virtualization module. Each channel comprises: an input interface powered by a low-noise power supply arranged to receive a respective modulated video broadcasting input signal within an input frequency band; a single input, dual output distribution amplifier arranged to produce first and second amplified input signals within a satellite broadcasting frequency band and within a cable and/or terrestrial broadcasting frequency band, respectively. A first tuner is configured to receive and downconvert the first amplified input signal to generate a first baseband signal; a second tuner is configured to receive and downconvert the second amplified input signal to generate a second baseband signal; and a demodulator is configured to receive the baseband signals as input and to generate the respective video transport stream.

Systems and methods for controlling a plurality of devices in a home automation system may include providing a device proxy for a device connected to the home automation system and setting a new value in a value box of the device proxy, whereby the value box corresponds to at least one of a sensor, control, and metadata of the device. The systems and methods may further include determining one or more rules associated with the device proxy and running the determined one or more rules, whereby the determined one or more rules are indicative of interactive relationships between the device proxy and one or more other device proxies corresponding to one or more other devices connected to the home automation system.

In one example, a semiconductor die includes multi-standard, multi-channel expandable television/satellite receiver that can be flexibly implemented in a number of different configurations to enable incorporation into a plurality of different systems. The semiconductor die may include multiple tuners to receive and tune a terrestrial radio frequency (RF) signal and a satellite RF signal. These tuners may include different frequency synthesizers including voltage controlled oscillators (VCOs) to generate VCO signals at different frequencies, mixers to downconvert the RF signals to baseband signals using the VCO signals. In an implementation, the semiconductor die may further include shared circuitry coupled to the tuners to digitize, process and demodulate the baseband signals.

A video modulator is presented. The modulator includes a video input interface, a video modulation circuit, a video output interface, a communication interface, and control circuitry. The video input interface is configured to receive a video signal to be modulated, the video modulation circuit is configured to modulate the video signal, and the video output interface is configured to transmit the modulated video signal. The communication interface is configured to receive a command via a communication link to control the video modulator. The control circuitry is configured to receive the command from the communication interface and to control at least one of the video input interface, the video modulation circuit, and the video output interface based on the command.

A receiver of radio and/or television signals, where the signals are transmitted via radio by transmitters and are received by said receiver, including: a means for receiving signals via radio that, through tuning information, is configurable for reception of content of the received radio and/or television signals; a memory means containing at least geographic transmission information, which includes geographical areas of coverage of the transmitters that transmit the signals received by the reception means, wherein the geographical transmission information is comparable with the tuning information; and a central computing unit configured to determine the geographical location of the receiver according to the geographical transmission information and the tuning information, the central computing unit also being configured to prepare access to the tuning information based on the geographical location of the receiver in order to organize access to the contents relating to the location of the receiver.

A method for distributing video content to at least one mobile device (411-413) at a customer premises (140) system comprising a plurality of stationary devices (421-423) capable of receiving the video content from at least one content provider (160). The method comprises the steps of: receiving, at the stationary devices (421-423), requests to tune a tuner (512, 513) of the stationary device (421-423) to a requested channel received from the content provider (160); outputting the content, of the channel tuned to by at least one stationary device (421-423), to a mobile content gateway (414) at the customer premises (140) system; handling, at the mobile content gateway (414), a list of video channels (611) comprising data associating each channel of the list with a stationary device (421-423); sending, from the mobile content gateway (414), to the at least one stationary device (421-423) requests to tune to channels assigned according to the list of video channels (611); preparing at least one single-program stream from the content received from the at least one stationary device (421-423); outputting, from the mobile content gateway (414), the at least one single-program stream as at least one adaptive stream; and providing the at least one adaptive stream to the at least one mobile device (411-413) over a wireless data transmission interface.