Disclosed herein is a music service that enables consumers listen to a broadcast radio station without commercials. The service operates by shifting the source channel of a radio from the broadcast radio to a streaming audio service for the duration of the commercial. In some embodiments, the service utilizes any of: a radio including native firmware/software, a mobile device such as a smart phone executing an application, cooperative integration of a radio and a mobile device, or master/slave relationship between a mobile device and a radio. The mobile device listens to the radio broadcast and determines when to shift between the radio broadcast and the streaming audio via any of audio fingerprint analysis, radio station behavioral analysis, radio station metadata, and/or radio station voice recognition analysis.

.[.A unified system of programming communication. The system encompasses the prior art (television, radio, broadcast hardcopy, computer communications, etc.) and new user specific mass media. Within the unified system, parallel processing computer systems, each having an input (e.g., 77) controlling a plurality of computers (e.g., 205), generate and output user information at receiver stations. Under broadcast control, local computers (73, 205), combine user information selectively into prior art communications to exhibit personalized mass media programming at video monitors (202), speakers (263), printers (221), etc. At intermediate transmission stations (e.g., cable television stations), signals in network broadcasts and from local inputs (74, 77, 97, 98) cause control processors (71) and computers (73) to selectively automate connection and operation of receivers (53), recorder/players (76), computers (73), generators (82), strippers (81), etc. At receiver stations, signals in received transmissions and from local inputs (225, 218, 22) cause control processors (200) and computers (205) to automate connection and operation of converters (201), tuners (215), decryptors (224), recorder/players (217), computers (205), furnaces (206), etc. Processors (71, 200) meter and monitor availability and usage of programming..]. .Iadd.A method is described for providing a subscriber specific solution or recommend a subscriber specific action in at least one of a visual and an audible form at a receiver station. A remote data source stores digital data and receives a transmission originated from the receiver station. The subscriber specific solution or subscriber specific action is based on a subscriber specific analysis, and is dependent on transmitting the digital data from the remote data source to the receiver station. .Iaddend.

A method of receiving a broadcast signal including a Non-Real-Time (NRT) service and a broadcast receiver are disclosed herein. A method of receiving a broadcast signal including an NRT service, method comprises receiving a broadcast signal including first signaling information and second signaling information, identifying the NRT service based on the first signaling information, identifying an Internet Protocol (IP) address of an NRT service signaling data based on the first signaling information and the second signaling information, receiving the NRT service signaling data by accessing the IP address, and downloading a desired NRT service based on the NRT service signaling data.

A media distribution system includes an enterprise hub, which in turn includes a processor and memory, multiple media outlets, and multiple integrated services layers (ISLs) acting as intermediaries between the enterprise hub to the media outlets. A first media outlet is served by a single ISL, while a second media outlet is served redundantly by at least two ISLs.

A media distribution system includes an enterprise hub, which in turn includes a processor and memory, multiple media outlets, and multiple integrated services layers (ISLs) acting as intermediaries between the enterprise hub to the media outlets. A first media outlet is served by a single ISL, while a second media outlet is served redundantly by at least two ISLs.

A method and apparatus for recognizing and synchronizing to in-band data at a multimedia device is provided. A content stream includes in-band data. The in-band data is processed and in-band data pattern data associated with the content stream are created. Metadata are attached to the event identification data. The event identification data are provided to multimedia devices which receive broadcasted multimedia content streams containing video programs with in-band data. The in-band data are processed and compared to the event identification data. If a match occurs, the multimedia device uses the metadata to perform specified actions.

In a broadcast receiving apparatus including: a broadcast receiving unit configured to receive control information regarding contents of digital broadcasting and content protection for the contents; an accumulation unit configured to accumulate the contents received by the broadcast receiving unit; a video output unit configured to output video of the contents received by the broadcast receiving unit or video of the contents accumulated by the accumulation unit to external equipment; an interface; and a control unit, switching of content protecting processes are executed in accordance with the number of pixels of video of contents in a first video outputting process state to output contents to external equipment without accumulation, a second video outputting process state to output contents to external equipment after an accumulating process, a copying process state, and a moving process state, and control is executed.

In a broadcast receiving apparatus including: a broadcast receiving unit configured to receive control information regarding contents of digital broadcasting and content protection for the contents; an accumulation unit configured to accumulate the contents received by the broadcast receiving unit; a video output unit configured to output video of the contents received by the broadcast receiving unit or video of the contents accumulated by the accumulation unit to external equipment; an interface; and a control unit, switching of content protecting processes are executed in accordance with the number of pixels of video of contents in a first video outputting process state to output contents to external equipment without accumulation, a second video outputting process state to output contents to external equipment after an accumulating process, a copying process state, and a moving process state, and control is executed.

Methods and systems are employed for selectively controlling the presentation of broadcast content item in which a unique set of broadcast content items are presented based on the selection of a content type and a selection of a geography for each content type to control the manner in which broadcast content types are recorded and/or presented for the vehicle. In some embodiments, methods and systems are employed for providing relevant information to a vehicle based on receiving multiple broadcast streams, and separating the broadcast content items into segments based on a variety of content types along a predicted path of the vehicle.

Methods and systems are employed for selectively controlling the presentation of broadcast content item in which a unique set of broadcast content items are presented based on the selection of a content type and a selection of a geography for each content type to control the manner in which broadcast content types are recorded and/or presented for the vehicle. In some embodiments, methods and systems are employed for providing relevant information to a vehicle based on receiving multiple broadcast streams, and separating the broadcast content items into segments based on a variety of content types along a predicted path of the vehicle.