A system and method for collaborative broadcasting and bi-directional network transmission. Such a system may comprise a broadcast transmission source that uses a one-to-many broadcasting method, a bi-directional network that uses a one-to-one broadcasting method, and a receiver apparatus configured to receive broadcasts from the broadcast transmission source and communicate with the bi-directional network. When the receiver apparatus receives a broadcast from the broadcast transmission source, and when the broadcast is partially damaged or missing, the receiver apparatus is configured to communicate with the bi-directional network and request the damaged or missing data.

A distributed audio processing system is disclosed, for providing users with the capability of producing a personalized audio mix of a plurality of signals from a plurality of audio sources. The system includes a wireless transmitter for each audio source and, for each user, a wireless receiver. The receiver comprises a programmable audio signal processor configured to process and mix a plurality of audio tracks received via a radio broadcast of a multi-track audio signal comprising the audio signals from the plurality of sources, said processing and mixing being programmable via received commands, instructions and/or parameters. The transmitters are configured to process the audio signals received from their respective sources, according to received commands, instructions and/or parameters. According to an embodiment, a user may provide commands, instructions and/or parameters to any of the receivers and/or transmitters of the system.

A distributed audio processing system is disclosed, for providing users with the capability of producing a personalized audio mix of a plurality of signals from a plurality of audio sources. The system includes a wireless transmitter for each audio source and, for each user, a wireless receiver. The receiver comprises a programmable audio signal processor configured to process and mix a plurality of audio tracks received via a radio broadcast of a multi-track audio signal comprising the audio signals from the plurality of sources, said processing and mixing being programmable via received commands, instructions and/or parameters. The transmitters are configured to process the audio signals received from their respective sources, according to received commands, instructions and/or parameters. According to an embodiment, a user may provide commands, instructions and/or parameters to any of the receivers and/or transmitters of the system.

Content synchronization with over-the-air radio transmissions captures user engagement and telemetry data. User engagement data creates a closed-loop feedback with over-the-air content and is tracked. User engagement and telemetry data feeds machine learning algorithms for radio station advertising effectiveness and programming refinement. User telemetry data identifies the listener radio receiving device. Machine learning applied to over-the-air advertising content categorizes ads for correlation with user behavior profile and ad effectiveness. Prediction models predict listener demographics and user engagement with advertising content in anonymous and registered mode. Over-the-air advertisements are synchronized with ad content provided to broadcast listeners on an electronic user device. Ad content may be listed, searched, and acted on by telephone, email, website click-through, including special ads and coupons targeted to users based on telemetry and user profile and behavior.

Content synchronization with over-the-air radio transmissions captures user engagement and telemetry data. User engagement data creates a closed-loop feedback with over-the-air content and is tracked. User engagement and telemetry data feeds machine learning algorithms for radio station advertising effectiveness and programming refinement. User telemetry data identifies the listener radio receiving device. Machine learning applied to over-the-air advertising content categorizes ads for correlation with user behavior profile and ad effectiveness. Prediction models predict listener demographics and user engagement with advertising content in anonymous and registered mode. Over-the-air advertisements are synchronized with ad content provided to broadcast listeners on an electronic user device. Ad content may be listed, searched, and acted on by telephone, email, website click-through, including special ads and coupons targeted to users based on telemetry and user profile and behavior.

Portable fitness monitoring methods are disclosed. In an embodiment, a portable fitness monitoring method includes a method for providing audible output to a user during an athletic activity using a portable fitness monitoring device. The method includes the steps of receiving an audio feedback file package that includes a first audio feedback file, updating the audio feedback file package, and processing the updated audio feedback file package to provide audible output to the user through an audio output device during the athletic activity.

Portable fitness monitoring methods are disclosed. In an embodiment, a portable fitness monitoring method includes a method for providing audible output to a user during an athletic activity using a portable fitness monitoring device. The method includes the steps of receiving an audio feedback file package that includes a first audio feedback file, updating the audio feedback file package, and processing the updated audio feedback file package to provide audible output to the user through an audio output device during the athletic activity.

An LNB downconverter comprising: two LNBs configured to receive their respective satellite signals: the first and second LNB being configured to output, four IF signals of different polarization and frequency range to a respective first and second Cross-bar Switch (CBS); wherein the first and second CBS, are configured to accept four RF inputs, and routing them, to any of four outputs, as configured by a Controller: wherein outputs of CBSs are connected to respective Satellite Channel Routers (SCRs) configured by the Controller to shift the frequency of their input signals to fixed intermediate frequencies; wherein outputs of SCRs are connected to respective Band Pass Filters (BPFs) whereas the fixed intermediate frequencies of SCRs are different and wherein the band passed by each BPF is non-overlapping; an Adder adding the signals on different frequencies, output by each BPF, to form a single output signal comprising data from both satellite signals.

A radio broadcast playback method and apparatus is provided. The radio broadcast playback method includes playing a radio broadcast received by a tuner, receiving a channel search request, through an input unit, searching for radio channels by a communication module, while playing the radio broadcast received by the tuner, and outputting the found radio channels.

A radio broadcast playback method and apparatus is provided. The radio broadcast playback method includes playing a radio broadcast received by a tuner, receiving a channel search request, through an input unit, searching for radio channels by a communication module, while playing the radio broadcast received by the tuner, and outputting the found radio channels.