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.

Provided are a method for adjusting a broadcast receiver queue, an apparatus, a storage medium, and an electronic device. The method may include: acquiring a historical parameter of a broadcast receiver; determining whether the historical parameter meets a first predefined condition; when the historical parameter of a first target broadcast receiver in a first broadcast receiver queue meets the first predefined condition, generating a second broadcast receiver queue; and moving the first target broadcast receiver to the second broadcast receiver queue, such that broadcast receivers other than the first target broadcast receiver in the first broadcast receiver queue and the first broadcast receiver in the second broadcast receiver queue may process the broadcast messages in parallel.

Provided are a method for adjusting a broadcast receiver queue, an apparatus, a storage medium, and an electronic device. The method may include: acquiring a historical parameter of a broadcast receiver; determining whether the historical parameter meets a first predefined condition; when the historical parameter of a first target broadcast receiver in a first broadcast receiver queue meets the first predefined condition, generating a second broadcast receiver queue; and moving the first target broadcast receiver to the second broadcast receiver queue, such that broadcast receivers other than the first target broadcast receiver in the first broadcast receiver queue and the first broadcast receiver in the second broadcast receiver queue may process the broadcast messages in parallel.

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.

A method includes identifying, from radial contours indicating listening areas for respective radio stations, each radial contour specifying a geographic location of a respective radio station and a plurality of segments surrounding the radio station, each segment defining a radius outward from the geographic location defining a boundary of the listening area for the corresponding segment, a segment of a radial contour of a radio station currently tuned to by a radio receiver for a listener location; responsive to the listener location exceeding the radial extent from the radio station for the segment, identifying an alternate radio station available for the listener location; identifying, from the radial contours and the listener location, a segment of a radial contour of the alternate radio station; and responsive to the listener location being within a radial extent from the alternate radio station for the segment, transitioning to the alternate radio station.

A method includes identifying, from radial contours indicating listening areas for respective radio stations, each radial contour specifying a geographic location of a respective radio station and a plurality of segments surrounding the radio station, each segment defining a radius outward from the geographic location defining a boundary of the listening area for the corresponding segment, a segment of a radial contour of a radio station currently tuned to by a radio receiver for a listener location; responsive to the listener location exceeding the radial extent from the radio station for the segment, identifying an alternate radio station available for the listener location; identifying, from the radial contours and the listener location, a segment of a radial contour of the alternate radio station; and responsive to the listener location being within a radial extent from the alternate radio station for the segment, transitioning to the alternate radio station.

A method includes identifying, from radial contours indicating listening areas for respective radio stations, each radial contour specifying a geographic location of a respective radio station and a plurality of segments surrounding the radio station, each segment defining a radius outward from the geographic location defining a boundary of the listening area for the corresponding segment, a segment of a radial contour of a radio station currently tuned to by a radio receiver for a listener location; responsive to the listener location exceeding the radial extent from the radio station for the segment, identifying an alternate radio station available for the listener location; identifying, from the radial contours and the listener location, a segment of a radial contour of the alternate radio station; and responsive to the listener location being within a radial extent from the alternate radio station for the segment, transitioning to the alternate radio station.

A method includes identifying, from radial contours indicating listening areas for respective radio stations, each radial contour specifying a geographic location of a respective radio station and a plurality of segments surrounding the radio station, each segment defining a radius outward from the geographic location defining a boundary of the listening area for the corresponding segment, a segment of a radial contour of a radio station currently tuned to by a radio receiver for a listener location; responsive to the listener location exceeding the radial extent from the radio station for the segment, identifying an alternate radio station available for the listener location; identifying, from the radial contours and the listener location, a segment of a radial contour of the alternate radio station; and responsive to the listener location being within a radial extent from the alternate radio station for the segment, transitioning to the alternate radio station.