Shoulder rest with haptic feedback

What is claimed is: 1. A shoulder rest for a digital musical instrument, comprising: a body comprising a rigid or semi-rigid material; and a haptic element comprising a voice coil that is coupled to and directly embedded within the body of the shoulder rest, wherein the haptic element generates a haptic feedback signal responsive to an audio signal generated by the digital musical instrument as a result of a user playing the digital musical instrument during a musical performance, wherein the haptic feedback signal is configured to produce vibrotactile feedback that can be felt by the body of the user during the musical performance. 2. The shoulder rest of claim 1 , wherein the digital musical instrument is a digitally augmented violin. 3. The shoulder rest of claim 1 , further comprising an amplifier coupled to an input of the haptic element and to an output of the digital musical instrument. 4. The shoulder rest of claim 1 , further comprising a second haptic element coupled to the body. 5. The shoulder rest of claim 1 , wherein the vibrotactile feedback comprises information encoded as a metronomic pulse at a specific tempo, wherein the metronomic pulse is felt by the body of the user during the musical performance. 6. The shoulder rest of claim 1 , wherein the audio signal passes through a high-pass filter, which reduces feedback of low frequency sounds heard by the user during the musical performance. 7. The shoulder rest of claim 1 , wherein the body of the shoulder rest contains a plastic layer in which the surface of the plastic layer has been etched, and wherein the voice coil is directly embedded within the etched surface of the plastic layer. 8. A method of providing feedback to a performer utilizing a digital musical instrument, the method comprising: directly embedding at least one haptic element comprising a voice coil to a shoulder rest; receiving an output of the digital musical instrument, wherein the output is an audio signal generated by the digital musical instrument during a musical performance; processing the output to create an input signal for the haptic element; and driving the haptic element, using the input signal, to provide feedback to the performer, wherein the feedback to the performer comprises vibrotactile feedback that can be felt by the body of the performer. 9. The method of claim 8 , further comprising providing, to the performer, a metronome pulse via the haptic element. 10. The method of claim 8 , further comprising providing, to the performer, a group performance signal via the haptic element. 11. The method of claim 10 , wherein the group performance signal comprises at least one of: a key change signal; a tempo change signal; an articulation signal; a volume signal; an improvisation signal; or a song change signal. 12. The method of claim 8 , wherein the processing comprises applying a high-pass filter having a roll-off at 1 kHz. 13. The method of claim 8 , wherein the input signal varies based on at least one of: harmonic information in the output of the digital musical instrument; amplitude information in the output of the digital musical instrument; phase information in the output of the digital music signal; modulation information in the output of the digital musical instrument; fret noise information in the output of the digital musical instrument; percussive information in the output of the digital musical instrument; or hammer on or pull-off information in the output of the digital musical instrument. 14. A haptic feedback system for a digital musical instrument, comprising: a shoulder rest comprising at least one exciter fixed on a surface of the shoulder rest, wherein the shoulder rest contains a haptic element comprising a voice coil that is directly embedded within the shoulder rest; a jack mounted at one end of the shoulder rest; and an amplifier coupled to the at least one exciter through the jack, wherein the at least one exciter is capable of generating haptic feedback signals to a user in response to an audio signal generated by the digital musical instrument during a musical performance by the user playing the digital musical instrument, wherein the haptic feedback signals are configured to produce vibrotactile feedback that can be felt by the body of the user. 15. The haptic feedback system of claim 14 , further comprising a computer, wherein output from the digital musical instrument is processed by the computer in real-time, which results in the at least one exciter generating the haptic feedback signals to the user playing the digital musical instrument. 16. The haptic feedback system of claim 14 , wherein the at least one exciter is capable of receiving a metronomic pulse, which results in the at least one exciter generating the haptic feedback signals to the user playing the digital musical instrument. 17. The haptic feedback system of claim 14 , wherein the at least one exciter fixed on the surface of the shoulder rest comprises two exciters fixed on the surface of the shoulder rest. 18. The haptic feedback system of claim 14 , wherein the digital musical instrument is a digitally augmented violin.