A method includes obtaining a master broadcast log and multiple station broadcast logs. The master log includes: a master voice track slot; a master prior slot adjacent to and preceding the master voice track slot; and a master subsequent slot adjacent to and following the master voice track slot. The station broadcast logs include corresponding voice tracks, preceding slots, and subsequent slots. Prior and subsequent slots specify media items. One, but not both, of the media items in the prior and subsequent slots of a first station log match corresponding slots in the master log. A partial-match indicator is generated. Media items in both the prior and subsequent slots of a second station log match corresponding slots in the master log. A full-match indicator is generated. A graphical user interface displays the partial-match indicator and the full-match indicator in different display areas.

A method includes obtaining a master broadcast log and multiple station broadcast logs. The master log includes: a master voice track slot; a master prior slot adjacent to and preceding the master voice track slot; and a master subsequent slot adjacent to and following the master voice track slot. The station broadcast logs include corresponding voice tracks, preceding slots, and subsequent slots. Prior and subsequent slots specify media items. One, but not both, of the media items in the prior and subsequent slots of a first station log match corresponding slots in the master log. A partial-match indicator is generated. Media items in both the prior and subsequent slots of a second station log match corresponding slots in the master log. A full-match indicator is generated. A graphical user interface displays the partial-match indicator and the full-match indicator in different display areas.

A voice track (VT) device obtains a talent-to-master schedule and a station-to-master schedule. A master broadcast log, which includes an empty master VT associated with a user, is identified based on the talent-to-master schedule. The master broadcast log is displayed in a GUI on the VT recording device. User input selecting the empty master VT is received. Subscribing stations that use the identified master broadcast log as a basis for generating station broadcast logs are identified based on the station-to-master schedule, and obtained from the stations. For each station broadcast log that includes a station VT corresponding to the empty master VT, a match status is determined. The match status indicates whether media items scheduled for broadcast in slots adjacent to the station VT differ from media items scheduled for broadcast in slots adjacent to the empty master VT. Match statuses of station VTs corresponding to the empty master VT are displayed on a child window of the GUI.

A voice track (VT) device obtains a talent-to-master schedule and a station-to-master schedule. A master broadcast log, which includes an empty master VT associated with a user, is identified based on the talent-to-master schedule. The master broadcast log is displayed in a GUI on the VT recording device. User input selecting the empty master VT is received. Subscribing stations that use the identified master broadcast log as a basis for generating station broadcast logs are identified based on the station-to-master schedule, and obtained from the stations. For each station broadcast log that includes a station VT corresponding to the empty master VT, a match status is determined. The match status indicates whether media items scheduled for broadcast in slots adjacent to the station VT differ from media items scheduled for broadcast in slots adjacent to the empty master VT. Match statuses of station VTs corresponding to the empty master VT are displayed on a child window of the GUI.

A method for transmitting a content by a terminal is provided. The method includes sending a request for multi-point transmission for the content to a display device, receiving information about a first transmission rate between the display device and an access point (AP) from the display device, determining a first content distribution ratio for the display device and a second content distribution ratio for the terminal based on a demanded transmission rate for transmission of the content and the first transmission rate, sending information about at least one of the first content distribution ratio and the second content distribution ratio to the display device, receiving a second content portion corresponding to the second content distribution ratio of the content from a content server, and sending the second content portion to the display device.

Methods of operating a communications system comprise, in one example, inserting advertising in a program stream by a receiving device based, at least in part, on an encrypted segmentation message embedded in the program steam. The at least one segmentation message defines an expanse of the program stream to receive the advertising. At least one embedded decoy message is included in the program stream, as well. In one example the receiving device, which may be a set-top terminal, for example, is coupled to a display device, such as a television, at a user location. A method of operating a receiving device coupled to a display device at a user location is also disclosed, comprising programming the receiving device to record a program and recording the program based, at least in part, on at least one segmentation message in a program stream. Systems are disclosed, as well.

An electronic device for point-to-multipoint transmission of a digital signal over a radio communication network includes a transmitter-receiver configured to receive a radio-frequency input digital signal and generate therefrom a baseband digital signal and includes a digital signal processor. The digital signal processor includes a receiving module, an input buffer, an audio decoder module and an output buffer. The transmitter-receiver is further configured to receive the duplicated baseband output digital signal and generate therefrom a radio-frequency output digital signal. The transmitter-receiver is configured to receive the radio-frequency input digital signal on the basis of Bluetooth® specifications and transmit the radio-frequency output digital signal on the basis of Bluetooth® specifications, and the microcontroller is configured to realize a unidirectional asynchronous packet data link. There is further described a system for point-to-multipoint radio transmission including a plurality of electronic devices for point-to-multipoint transmission of a digital signal over a radio communication network.

An electronic device for point-to-multipoint transmission of a digital signal over a radio communication network includes a transmitter-receiver configured to receive a radio-frequency input digital signal and generate therefrom a baseband digital signal and includes a digital signal processor. The digital signal processor includes a receiving module, an input buffer, an audio decoder module and an output buffer. The transmitter-receiver is further configured to receive the duplicated baseband output digital signal and generate therefrom a radio-frequency output digital signal. The transmitter-receiver is configured to receive the radio-frequency input digital signal on the basis of Bluetooth® specifications and transmit the radio-frequency output digital signal on the basis of Bluetooth® specifications, and the microcontroller is configured to realize a unidirectional asynchronous packet data link. There is further described a system for point-to-multipoint radio transmission including a plurality of electronic devices for point-to-multipoint transmission of a digital signal over a radio communication network.

A method of converting legacy HFC CATV cable systems, which transmit data over the optical fiber portion of the system using the optical counterpart of analog RF waveforms, such as RF QAM waveforms transduced to corresponding optical QAM waveforms, to improved HFC CATV systems that transmit data over the optical fiber using optical fiber optimized protocols, such as Ethernet frames and other optical fiber optimized digital transport protocols. According to the method, most aspects of the legacy HFC CATV system may be retained, however at the CATV head end, the optical fiber transmitter system is replaced by an improved system that extracts the underlying symbols from legacy waveforms, packages these symbols into optical fiber optimized packets, and transmits downstream. The legacy optical fiber nodes are replaced with improved nodes capable of receiving the packets and remodulating the symbols into RF waveforms suitable for injection into the system's CATV cable.

A method of converting legacy HFC CATV cable systems, which transmit data over the optical fiber portion of the system using the optical counterpart of analog RF waveforms, such as RF QAM waveforms transduced to corresponding optical QAM waveforms, to improved HFC CATV systems that transmit data over the optical fiber using optical fiber optimized protocols, such as Ethernet frames and other optical fiber optimized digital transport protocols. According to the method, most aspects of the legacy HFC CATV system may be retained, however at the CATV head end, the optical fiber transmitter system is replaced by an improved system that extracts the underlying symbols from legacy waveforms, packages these symbols into optical fiber optimized packets, and transmits downstream. The legacy optical fiber nodes are replaced with improved nodes capable of receiving the packets and remodulating the symbols into RF waveforms suitable for injection into the system's CATV cable.