Tuning calibration technology for systems and methods for acoustically correcting sound loss through fabric

What is claimed is: 1. A method of tuning a speaker to compensate for loss of sound being emitted through upholstery fabric, the method comprising: providing an assemble-able modular furniture assembly comprising: (a) one or more bases; (b) a plurality of upright members, wherein at least one of the upright members is a first audio-enhanced upright member; and (c) a speaker system comprising: (i) at least one speaker mounted within the first audio-enhanced upright member, the at least one speaker being hidden from view by a first upholstery fabric that covers the first audio-enhanced upright member; wherein the furniture assembly further comprises at least one speaker controller directly associated with the at least one speaker, the at least one speaker controller configured to tune the at least one speaker independent of signals transmitted to the speaker by an audio source; and tuning the at least one speaker mounted within the first audio-enhanced upright member to compensate for sound being emitted from the at least one speaker through the first upholstery fabric by adjusting the equalization of one or more target audio frequencies or frequency bands emitted by the at least one speaker; wherein the one or more target audio frequencies or frequency bands are adjusted by increasing an actual volume of each of the one or more target audio frequencies or frequency bands by a magnitude up to about 25 decibels; wherein tuning the at least one speaker comprises reconfiguring an audio system associated with the at least one speaker to adjust an actual volume of each of the one or more target audio frequencies or frequency bands by a magnitude approximately equal to a calculated differential volume of each of the one or more audio target frequencies or frequency bands; wherein the calculated differential volume of each of the one or more target audio frequencies or frequency bands is equal to the difference between: (i) a baseline volume corresponding to sound emitted from the at least one speaker or a similar speaker, and (ii) a resultant volume corresponding to sound emitted from the at least one speaker or similar speaker when covered with the first upholstery fabric or a similar fabric. 2. A method of tuning a speaker to compensate for loss of sound being emitted through upholstery fabric, the method comprising: providing an assemble-able modular furniture assembly comprising: (a) one or more bases; (b) a plurality of upright members, wherein at least one of the upright members is a first audio-enhanced upright member; and (c) a speaker system comprising: (i) at least one speaker mounted within the first audio-enhanced upright member, the at least one speaker being hidden from view by a first upholstery fabric that covers the first audio-enhanced upright member; wherein the furniture assembly further comprises at least one speaker controller directly associated with the at least one speaker, the at least one speaker controller configured to tune the at least one speaker independent of signals transmitted to the speaker by an audio source; and tuning the at least one speaker mounted within the first audio-enhanced upright member to compensate for sound being emitted from the at least one speaker through the first upholstery fabric by adjusting the equalization of one or more target audio frequencies or frequency bands emitted by the at least one speaker; wherein the one or more target audio frequencies or frequency bands are adjusted by increasing an actual volume of each of the one or more target audio frequencies or frequency bands by a magnitude up to about 25 decibels; the method further comprising presenting a user with a plurality of tuning profiles corresponding to a plurality of upholstery fabrics; and in response to selection of one of the plurality of tuning profiles by the user, tuning the at least one speaker to compensate for sound being emitted from the speaker through the upholstery fabric to which the selected tuning profile corresponds. 3. The method of claim 2 , wherein the at least one speaker comprises a plurality of speakers, each speaker being separately tunable by separate selection of one of the plurality of tuning profiles. 4. The method of claim 1 , wherein each of the one or more target audio frequencies or frequency bands are adjusted by a magnitude between about 1 decibel and about 25 decibels. 5. The method of claim 1 , wherein the one or more target audio frequencies or frequency bands are adjusted by increasing an actual volume of each of the one or more target audio frequencies or frequency bands by a magnitude up to about 21 decibels. 6. The method of claim 1 , wherein each of the one or more target audio frequencies or frequency bands are adjusted by a magnitude between about 1 decibel and about 21 decibels. 7. The method of claim 1 , wherein the one or more target audio frequencies or frequency bands are adjusted by increasing an actual volume of each of the one or more target audio frequencies or frequency bands by a magnitude up to about 16 decibels. 8. The method of claim 1 , wherein each of the one or more target audio frequencies or frequency bands are adjusted by a magnitude between about 1 decibel and about 16 decibels. 9. The method of claim 1 , wherein at least one of the one or more target audio frequencies or frequency bands is below 1000 Hz and is adjusted by a magnitude between about 1 decibel and about 8 decibels. 10. The method of claim 1 , wherein the at least one target audio frequency or frequency band below 1000 Hz is adjusted by a magnitude between about 1 decibel and about 7 decibels. 11. The method of claim 1 , wherein the at least one target audio frequency of frequency band below 1000 Hz is adjusted by a magnitude between about 1 decibel and about 6 decibels. 12. The method of claim 1 , wherein the at least one target audio frequency of frequency band below 1000 Hz is adjusted by a magnitude between about 1 decibel and about 5 decibels. 13. The method of claim 1 , wherein the at least one target audio frequency of frequency band below 1000 Hz is adjusted by a magnitude between about 1 decibel and about 4 decibels. 14. The method of claim 1 , wherein the at least one target audio frequency of frequency band below 1000 Hz is adjusted by a magnitude between about 1 decibel and about 3 decibels. 15. The method of claim 1 , wherein the at least one target audio frequency of frequency band below 1000 Hz is adjusted by a magnitude between about 1 decibel and about 2 decibels. 16. A method of tuning a speaker to compensate for loss of sound being emitted through upholstery fabric, the method comprising: providing an assemble-able modular furniture assembly comprising: (a) one or more bases; (b) a plurality of upright members, wherein at least one of the upright members is a first audio-enhanced upright member; and (c) a speaker system comprising: (i) at least one speaker mounted within the first audio-enhanced upright member, the at least one speaker being hidden from view by a first upholstery fabric that covers the first audio-enhanced upright member; wherein the furniture assembly further comprises at least one speaker controller directly associated with the at least one speaker, the at least one speaker controller configured to tune the at least one speaker independent of signals transmitted to the speaker by an audio source; and tuning the at least one speaker mounted within the first audio-enhanced upright member to compensate for sound being emitted from the at least one speaker through the first upholstery fabric