Wearable audio system use position detection

What is claimed is: 1. A method, comprising: transmitting sound from a first active portion of a wearable audio system; receiving the transmitted sound at a second active portion of the wearable audio system; and estimating from the received sound whether the first active portion of the wearable audio system is in a use position carried on a user's body on a first side of the mid-sagittal plane and the second active portion of the wearable audio system is in a use position carried on the user's body on a second side of the mid-sagittal plane. 2. The method of claim 1 , wherein the first and second active portions of the wearable audio system are open audio devices. 3. The method of claim 2 , wherein the first and second open audio devices each comprise an off-ear headphone that comprises an audio driver that is configured to output sound proximate but not in an ear of the user. 4. The method of claim 1 , wherein the first active portion of the wearable audio system is part of a first temple piece of eyeglass headphones and the second active portion of the wearable audio system is part of a second temple piece of the eyeglass headphones. 5. The method of claim 1 , wherein the first and second active portions of the wearable audio system each comprise an audio driver and a microphone. 6. The method of claim 1 , wherein the first active portion of the wearable audio system comprises an audio driver and the second active portion of the wearable audio system comprises a microphone. 7. The method of claim 1 , wherein estimating from the received sound whether the first active portion of the wearable audio system is in a use position carried on a user's body on a first side of the mid-sagittal plane and the second active portion of the wearable audio system is in a use position carried on a user's body on a second side of the mid-sagittal plane comprises detecting whether the transmitted sound was received at the second active portion of the wearable audio system. 8. The method of claim 7 , wherein estimating from the received sound whether the first active portion of the wearable audio system is in a use position carried on a user's body on a first side of the mid-sagittal plane and the second active portion of the wearable audio system is in a use position carried on a user's body on a second side of the mid-sagittal plane further comprises determining a level of the received sound. 9. The method of claim 8 , wherein determining a level of the received sound comprises determining whether the level of received sound is less than a threshold level. 10. The method of claim 9 , wherein the threshold level comprises a level of received sound when neither of the first and second active portions of the wearable audio system are in the use position. 11. The method of claim 8 , wherein determining a level of the received sound comprises determining an acoustic transfer function between an audio driver of the first active portion of the wearable audio system and a microphone of the second active portion of the wearable audio system. 12. The method of claim 11 , wherein a level of the transfer function is determined for at least one frequency above a threshold frequency. 13. The method of claim 12 , wherein the threshold frequency is 1 kHz. 14. The method of claim 1 , wherein the transmitted sound is in an ultrasonic range. 15. The method of claim 14 , wherein estimating from the received sound whether the first active portion of the wearable audio system is in a use position carried on a user's body on a first side of the mid-sagittal plane and the second active portion of the wearable audio system is in a use position carried on a user's body on a second side of the mid-sagittal plane comprises performing discrete Fourier transforms on received ultrasonic sounds. 16. The method of claim 1 , further comprising using an orientation sensor to determine if the first and second active portions of the wearable audio system are in the use position. 17. The method of claim 1 , further comprising using a proximity sensor to determine if the first and second active portions of the wearable audio system are in the use position. 18. A method, comprising: transmitting sound from a first temple piece of eyeglass headphones, wherein the first temple piece comprises an audio driver that is configured to output sound proximate but not in an ear of the user; receiving the transmitted sound at a microphone of a second temple piece of eyeglass headphones, wherein the second temple piece comprises a microphone, and an audio driver that is configured to output sound proximate but not in an ear of the user; and determining a level of the received sound, to determine whether the eyeglass headphones are in a use position with the first temple piece proximate a first ear of the user and the second temple piece proximate a second ear of the user. 19. A wearable audio system, comprising: a first off-ear headphone that comprises a first audio driver that is configured to output sound proximate but not in a first ear of the user; a second off-ear headphone that comprises a second audio driver that is configured to output sound proximate but not in a second ear of the user, and a microphone having an output; and a processor that is configured to estimate from the microphone output whether the first off-ear headphone is in a use position proximate or on the first ear of the user and the second off-ear headphone is in a use position proximate or on the second ear of the user. 20. The wearable audio system of claim 19 , wherein estimating from the microphone output whether the first off-ear headphone is in a use position proximate or on the first ear of the user and the second off-ear headphone is in a use position proximate or on the second ear of the user comprises comparing a level of the microphone output to a threshold level determined when neither of the first and second off-ear headphones are in the use position.