Active noise reduction in open ear directional acoustic devices

What is claimed is: 1. An acoustic device comprising: an eyeglass frame comprising two arms; at least one acoustic transducer disposed such that, in a head-worn state, the at least one acoustic transducer is in an open-ear configuration in which an ear canal of a user of the acoustic device is unobstructed; an array of two or more first microphones disposed along the same arm of the eyeglass frame, the array capturing audio preferentially from a first direction as compared to at least a second direction different from the first direction, wherein the audio captured using the array is processed using a beamforming process to capture audio preferentially from the first direction and is played back through the at least one acoustic transducer, and wherein the first direction is fixed in a direction substantially parallel to the arms of the eyeglass frame; one or more second microphones that are distinct from the array of two or more first microphones, the one or more second microphones capturing additional audio from a direction of a mouth of the user; and an active noise reduction (ANR) engine comprising one or more processing devices, the ANR engine configured to generate a driver signal for the at least one acoustic transducer, the driver signal having phases that reduce effects of audio captured from at least the second direction; and an interface configured to receive a command from the user, wherein the acoustic device is configured to perform one or more functions in response to the received command. 2. The acoustic device of claim 1 , wherein the ANR engine is configured to reduce the effects of the audio captured from the second direction in a 300-1500 Hz frequency band. 3. The acoustic device of claim 2 , wherein the ANR engine is configured to increase a power ratio of (i) audio signals in the 300-1500 Hz frequency band, as captured from the first direction and (ii) audio signals in the 300-1500 Hz frequency band, as captured from at least the second direction, by at least 5 dB. 4. The acoustic device of claim 1 further comprising at least a third microphone to capture audio from the second direction. 5. The acoustic device of claim 4 , wherein in the head-worn state, the third microphone is located behind a pinna of the user. 6. The acoustic device of claim 1 , further comprising an amplifier circuit configured to process the audio captured using the array. 7. The acoustic device of claim 1 , wherein the first direction is an estimated direction of gaze of the user of the acoustic device. 8. The acoustic device of claim 1 , wherein the interface comprises at least one of a button, a capacitive touch interface, and a compressible interface. 9. The acoustic device of claim 1 , wherein the command is a spoken command from the user and wherein the one or more second microphones capture audio corresponding to the spoken command. 10. The acoustic device of claim 1 , wherein the one or more functions performed in response to the received command comprise powering on the acoustic device. 11. The acoustic device of claim 1 , wherein the one or more functions performed in response to the received command comprise selecting an audio signal to be delivered to an ear of the user. 12. The acoustic device of claim 1 , wherein the one or more functions performed in response to the received command comprise engaging a voice control function. 13. The acoustic device of claim 1 , wherein one or more components of the interface is disposed along a temple of the eyeglass frame. 14. A set of wearable audio eyeglasses comprising: a frame comprising: a frontal region that includes a pair of lens receptacles, and a bridge disposed between the lens receptacles, a pair of arms extending from the frontal region of the frame; at least one acoustic transducer disposed in one of the pair of arms, the acoustic transducer configured to direct audio output towards an ear of a user in a head-worn state of the audio eyeglasses; an array of two or more first microphones disposed along the same arm of the eyeglass frame, the array capturing audio preferentially from a first direction as compared to at least a second direction different from the first direction, wherein the audio captured using the array is processed using a beamforming process to capture audio preferentially from the first direction, and wherein the first direction is fixed in a direction substantially parallel to the arms of the eyeglass frame; one or more second microphones that are distinct from the array of two or more first microphones, the one or more second microphones capturing additional audio from a direction of a mouth of the user; an interface configured to receive a command from the user, wherein the wearable audio eyeglasses is configured to perform one or more functions in response to the received command; and an electronics module comprising: an amplifier circuit that receives the audio captured using the array, and generates a first driver signal for the at least one acoustic transducer based on the audio, and an active noise reduction (ANR) engine comprising one or more processing devices, wherein the ANR engine generates a second driver signal for the at least one acoustic transducer, the second driver signal having phases that reduce effects of audio captured from at least the second direction. 15. The wearable audio eyeglasses of claim 14 , wherein the interface comprises at least one of a button, a capacitive touch interface, and a compressible interface. 16. The wearable audio eyeglasses of claim 14 , wherein the command is a spoken command from the user and wherein the one or more second microphones capture audio corresponding to the spoken command. 17. The wearable audio eyeglasses of claim 14 , wherein the one or more functions performed in response to the received command comprise at least one of powering on the wearable audio eyeglasses, selecting an audio signal to be delivered to an ear of the user, and engaging a voice control function. 18. The wearable audio eyeglasses of claim 14 , wherein one or more components of the interface is disposed along one of the pair of arms.