.[.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 controlling a receiver station using stored data specific to a user. By receiving a computer program transmitted from a transmitter station, the computer program is stored at the receiver station. Upon execution of the computer program, the data specific to a user is processed to generate information content at an output device..Iaddend.

.[.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 controlling a receiver station using stored data specific to a user. By receiving a computer program transmitted from a transmitter station, the computer program is stored at the receiver station. Upon execution of the computer program, the data specific to a user is processed to generate information content at an output device..Iaddend.

An enhanced radio system is disclosed that provides for the capture and playback of one or more radio stations. A user may tune to a station, scan through stations, rewind through missed content (even while the system is off), and fast-forward through undesired content, while downloading and uploading audio content, and sending content to another user. A user may rate content, and be notified when that content is played on any station, with undesirable content skipped and desirable content saved, or station recommendations made. Support for multiple sets of configuration information to allow use by multiple listeners and in multiple locations may be provided. Optionally provided are security features to prevent the unauthorized downloading, uploading, and saving of copies of content, other radio related and content related information, a karaoke mode, integration with a telephone with the radio, or reporting usage information to a collection facility.

An enhanced radio system is disclosed that provides for the capture and playback of one or more radio stations. A user may tune to a station, scan through stations, rewind through missed content (even while the system is off), and fast-forward through undesired content, while downloading and uploading audio content, and sending content to another user. A user may rate content, and be notified when that content is played on any station, with undesirable content skipped and desirable content saved, or station recommendations made. Support for multiple sets of configuration information to allow use by multiple listeners and in multiple locations may be provided. Optionally provided are security features to prevent the unauthorized downloading, uploading, and saving of copies of content, other radio related and content related information, a karaoke mode, integration with a telephone with the radio, or reporting usage information to a collection facility.

A reception apparatus that decodes a preamble reduces the size of a buffer that holds a decoding result. A holding unit holds a plurality of bits to each of which physical layer pipe identification information is assigned as a physical layer pipe presence/absence bit string. A reception unit receives a predetermined number of physical layer pipes that do not exceed the number of bits of the physical layer pipe presence/absence bit string and the physical layer pipe identification information of each of the predetermined number of physical layer pipes. A setting unit sets the value of the bit corresponding to the received physical layer pipe identification information of the physical layer pipe presence/absence bit string to one of two values, and sets the value of a non-corresponding bit to another of the two values. A decoding processing unit performs processing for decoding the physical layer pipe corresponding to the bit of the one value.

According to an aspect of the present invention, there is provided a method for providing additional bandwidth to receivers that can decode a higher modulation comprising trading a peak-to-average power ratio (PAPR) reduction induced constellation noise of all or a subset of in-band on-channel (IBOC) carriers within an orthogonal frequency division multiplexing (ODFM) waveform with data carrying superposition modulation.

According to an aspect of the present invention, there is provided a method for providing additional bandwidth to receivers that can decode a higher modulation comprising trading a peak-to-average power ratio (PAPR) reduction induced constellation noise of all or a subset of in-band on-channel (IBOC) carriers within an orthogonal frequency division multiplexing (ODFM) waveform with data carrying superposition modulation.

An audio system, device, and method for broadcasting, discovering, and receiving wireless audio data connections. The exemplary systems and methods described herein utilize an Isochronous Broadcast Stream topology to unilaterally broadcast a plurality of wireless audio data streams. The audio devices described are configured to discover and receive the plurality of wireless audio data streams and allow the user to organize these streams into a determined order and cycle through each stream based on user input.

.[.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 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.