Method and apparatus for utilizing modulation based audio correlation technique for maintaining dynamic FM station list in single tuner variant and assisting alternate frequency switching methodology in single tuner and dual tuner variants

What is claimed is: 1. A method of tuning an FM radio, the method comprising the fully automatic and fully computer-implemented steps of: identifying by use of a microcontroller an alternate frequency; performing by use of a tuner an alternate frequency switch to the alternate frequency; performing by use of the microcontroller a modulation based check on the alternate frequency; determining by use of the microcontroller whether the content of the alternate frequency is substantially the same as the content of one primary frequency of a plurality of primary frequencies, the determining being dependent upon the modulation based check; replacing by use of the microcontroller the one primary frequency in a FM radio station list with the alternate frequency if it is determined in the determining step that the content of the alternate frequency is substantially the same as content of the one primary frequency; and using the tuner to switch tuning of the FM radio from the one primary frequency to the alternate frequency. 2. The method of claim 1 comprising the further step of comparing a signal quality metric of the alternate frequency to a signal quality metric of the one primary frequency, the one primary frequency in the FM radio station list being replaced with the alternate frequency only if it is determined that the signal quality metric of the alternate frequency is better than the signal quality metric of the one primary frequency. 3. The method of claim 2 wherein the signal quality metric is dependent upon at least one of field strength, multipath, adjacent channel energy, frequency offset and FM modulation. 4. The method of claim 2 wherein the modulation based check is performed only if the signal quality metric of the alternate frequency exceeds a threshold level. 5. The method of claim 1 , further comprising detecting a pause in the content of a currently tuned-to frequency, wherein the alternate frequency switch to the alternate frequency and the modulation based check on the alternate frequency are performed during the pause in the content of the currently tuned-to frequency. 6. The method of claim 1 wherein if a signal quality of a currently tuned-to frequency is above a threshold level, then the alternate frequency switch to the alternate frequency and the modulation based check on the alternate frequency are performed during random periods of time. 7. The method of claim 1 comprising the further step of calculating a level of confidence that the content of the alternate frequency is substantially the same as content of the one primary frequency, the determining being dependent upon the calculating step, the replacing step being performed only if the level of confidence exceeds a threshold level. 8. A method of operating an FM radio, comprising the computer-implemented steps of: using a tuner to tune a radio to a first frequency; determining by use of a microcontroller coupled to the tuner whether a volume setting of the radio is above a perceivable volume threshold level; if it is determined that the volume setting of the radio is above the perceivable volume threshold level, then: using the microcontroller to measure a signal quality metric for the first frequency; if it is determined that the measured signal quality metric for the first frequency is below a signal quality threshold level, or if a pause is detected in a broadcast signal associated with the first frequency, then: using the tuner to switch tuning from the first frequency to a second frequency; using the microcontroller to measure a signal quality metric for the second frequency; and using the tuner to switch tuning from the second frequency to the first frequency; and if it is determined that the volume setting of the radio is below the perceivable volume threshold level, then: using the tuner to switch tuning from the first frequency to the second frequency; using the microcontroller to measure a signal quality metric for the second frequency; and using the tuner to switch tuning from the second frequency to the first frequency. 9. The method of claim 8 comprising the further step of adding the second frequency to an FM station list if the measured signal quality metric for the second frequency exceeds a threshold level. 10. The method of claim 9 comprising the further step of performing an audio correlation check on the first and second frequencies, the second frequency being added to the FM station list only if the audio correlation check indicates that the first and second frequencies have different audio content, or if the measured signal quality metric for the second frequency exceeds the measured signal quality metric for the first frequency. 11. The method of claim 8 wherein the steps of claim 8 are repeated for a plurality of second frequencies, the method comprising the further step of adding a subset of the second frequencies to an FM station list, the adding being dependent upon the measuring steps to thereby include in the FM station list second frequencies having signals of highest quality. 12. The method of claim 8 wherein the signal quality metrics of the first and second frequencies are dependent upon at least one of field strength, multipath, adjacent channel energy, frequency offset and FM modulation. 13. The method of claim 8 comprising the further step of calculating a level of confidence that the second frequency is an alternate frequency for the first frequency, the calculating being dependent upon an audio correlation check on the first and second frequencies, the first frequency being replaced by the second frequency in an FM station list if the level of confidence exceeds a threshold level. 14. A method of tuning an FM radio, the method comprising the computer-implemented steps of: identifying by use of a microcontroller an alternate frequency; performing by use of a tuner an alternate frequency switch to the alternate frequency; calculating by use of the microcontroller an FM modulation difference associated with one primary frequency of a plurality of primary frequencies and the alternate frequency; determining by use of the microcontroller whether content of the alternate frequency is substantially the same as content of the one primary frequency, the determining being dependent upon the calculating step; replacing by use of the microcontroller the one primary frequency in an FM radio station list with the alternate frequency if it is determined in the determining step that the content of the alternate frequency is substantially the same as the content of the one primary frequency; and using the tuner to switch tuning of the FM radio from the one primary frequency to the alternate frequency. 15. The method of claim 14 comprising the further step of comparing a signal quality metric of the alternate frequency to a signal quality metric of the one primary frequency, the one primary frequency in the FM radio station list being replaced with the alternate frequency only if it is determined that the signal quality metric of the alternate frequency is better than the signal quality metric of the one primary frequency, wherein the signal quality metric is dependent upon at least one of field strength, multipath, adjacent channel energy, frequency offset and FM modulation. 16. The method of claim 15 wherein the calculating step is performed only if the signal quality metric of the alternate frequency exceeds a threshold level. 17. The method of claim 14 wherein the alternate frequency switch to the alternate frequency and the calculating step