Abstract: A method for selective sound field environment processing for one or more wireless earpieces, each of the one or more wireless earpieces including comprising a plurality of microphones is provided. The method includes receiving audio input of a sound field environment from the plurality of microphones of each of the one or more wireless earpieces, identifying background noise in the sound field environment, identifying audio from at least one sound source within the sound field environment, processing the audio input using one or more processors of at least one of the wireless earpieces to reduce the background noise and processing the audio input using one or more processors of the at least one of the wireless earpieces to enhance the audio from the at least one sound source within the sound field environment to provide processed audio, and transducing the processed audio at one or more speakers of the one or more wireless earpieces.

Abstract: A method of connecting to an electronic device using a pair of wireless earpieces in embodiments of the present invention may have one or more of the following steps: (a) sensing a cessation of motion at an earpiece of the pair of wireless earpieces, (b) capturing an image of an area directly in front of a user in response to the cessation of motion, (c) determining whether the electronic device is present in the image, (d) transmitting a connection signal capable of being received by the electronic device if the electronic device is present in the image, (e) establishing a connection between the pair of wireless earpieces and the electronic device in response to an acceptance of the connection received at an earpiece of the pair of wireless earpieces, and (f) prompting the user whether the electronic device is present in the image.

Abstract: A wireless earpiece includes an earpiece housing, a processor disposed within the earpiece housing, a microphone operatively connected to the processor, a speaker operatively connected to the processor, one or more sensors operatively connected to the processor, a memory operatively connected to the processor, and a memory application stored in the memory and executable by the processor, wherein the memory application is configured to generate a memory application test for the user to test a memory of the user wearing the wireless earpiece. The memory application test may include a plurality of audio questions transduced at the speaker with responses to the plurality of audio questions received by at least one of the microphone and the one or more sensors. The memory application test may provide for evaluating the responses to the plurality of audio questions to generate a memory application test score.

Abstract: A wireless earpiece includes a wireless earpiece housing, a processor, and a transceiver configured to produce electromagnetic pulses capable of reaching a brain of a user. A method of stimulating the brain of the user using the wireless earpiece includes receiving a request at the wireless earpiece and generating an electromagnetic pulse in response to the request.

Abstract: A method for utilizing radar from wireless earpieces includes activating one or more radar sensors of the wireless earpieces, performing radar measurements of a user using the one or more radar sensors of the wireless earpieces, and analyzing the radar measurements to determine pulsatile measurements associated with the user, the analyzing performed using a processor of the wireless earpieces.

Abstract: A wireless earpiece in embodiments of the present invention may have one or more of the following features: (a) an earpiece housing, (b) a processor disposed within the earpiece housing, (c) a motion sensor operatively connected to the processor, (d) a gesture interface operatively connected to the processor, (e) a wireless transceiver operatively connected to the processor wherein the wireless earpiece is configured to operably connect to an electronic device via the wireless transceiver in response to a user gesture sensed by the motion sensor or the gesture interface, and (f) one or more speakers operatively connected to the processor, wherein an audio prompt is played to the user through the one or more speakers for the user to provide the user gesture to connect to the electronic device.

Abstract: A system, method and wireless earpieces for managing power utilized by a pair of wireless earpieces. Ambient light conditions and noise levels in an environment of the pair of wireless earpieces are determined. The low power settings are activated for the pair of wireless earpieces in response to determining the ambient light conditions are below a light threshold or the noise levels are below a noise threshold; signal activity is below an activity threshold.

Abstract: A system includes a vehicle, the vehicle comprising a control system and a wireless transceiver operatively connected to the control system. The control system is configured to wirelessly communicate with a wearable device worn by a user using the wireless transceiver. The control system is configured to receive biometric input from one or more sensors of the wearable device to identify an occupant of the vehicle or individual proximate the vehicle. The wearable device may be a wearable earpiece with one or more sensors.

Abstract: A method for communicating data from wearable devices, the method includes sensing data with a wearable sensor worn by an individual and communicating the data from the wearable sensor to an earpiece worn by the individual. The method may further include communicating software instructions for analyzing the data sensed with the wearable sensor from the wearable sensor to the earpiece. An earpiece includes an ear piece housing, a processor disposed within the ear piece housing, a speaker operatively connected to the processor, and a microphone operatively connected to the processor. The earpiece is configured to receive at the processor the software instructions for processing data collected from one or more remotely located sensor devices from the one or more remotely located sensor devices and to process the data according to the software instructions.

Abstract: A wireless earpiece includes a wireless earpiece housing, at least one microphone for detecting ambient environment sound, and a processor disposed within the wireless earpiece housing, the processor configured to distinguish between two or more sources of sound within the ambient environment sound. The wireless earpiece further includes a user interface operatively connected to the processor. The processor is configured to receive user input through the user interface to select one of the sources of sound within the ambient environment sound and wherein the processor is configured to process the ambient environment sound to emphasize portions of the ambient environment sound generated by the one of the sources of the ambient environment sound selected by the user to produce a modified sound. The earpiece may further include a speaker operatively connected to the processor to reproduce the modified sound.

Abstract: An earpiece includes an earpiece housing, wherein the earpiece housing is configured to substantially encompass an opening of an ear canal to physically block ambient sound from entering the ear canal. The earpiece further includes a processor disposed within the earpiece housing, at least one microphone operatively connected to the processor and configured to sense ambient sound, and a speaker operatively connected to the processor. The processor is configured to process the ambient sound from the microphone and add additional ambient sound to produce a modified ambient sound at the speaker.

Abstract: An earpiece includes an earpiece housing sized and shaped to block an external auditory canal of a user, at least one microphone positioned to sense ambient sound, a speaker, and a processor disposed within the earpiece housing and operatively connected to each of the at least one microphone and the speaker, wherein the processor is configured to modify the ambient sound based on user preferences to produce modified ambient sound in a first mode of operation and to produce a second sound in response to a trigger condition. The second sound may be an unmodified version of the ambient sound. The second sound may be a modified version of the ambient sound which suppresses at least a portion of the ambient sound. The second sound may be a warning sound.

Abstract: A set of over-the-ear headphones configured for receiving earpieces, the set of over-the-ear headphones in embodiments of the present invention may have one or more of the following features: (a) a first ear portion, (b) a second ear portion, (c) a headband spanning between the first ear portion and the second ear portion, (d) a first receptacle in the first ear portion for receiving a first earpiece, and (e) a second receptacle in the second ear portion for receiving a second earpiece, a first connector in the first receptacle in the first ear portion for connecting to a first corresponding connector in the first earpiece and a second connector in the second receptacle in the second ear portion for connecting to a second corresponding connector in the second ear piece.

Abstract: A sound processing method for a hearing aid in embodiments of the present invention may have one of more of the following steps: (a) receiving a command from a user to begin an upload and/or download of a file, (b) initiating communications to commence the upload and/or download of the file, (c) selecting the file to upload and/or download to a memory on the hearing aid, (d) downloading and/or uploading the file into or out of the memory, (e) executing the file loaded into memory, (f) asking the user if they wish to download and/or upload another file to/from the memory, and (g) continuing normal hearing aid operations if the user does not wish to execute the file in the memory.

Abstract: A method of providing audiometric feedback from a network of distributed body sensors using one or more earpieces includes receiving signals from the network of distributed body sensors at the one or more wireless earpieces, processing the signals received at the one or more wireless earpieces to determine a location of individual body sensors within the network of distributed body sensors relative the one or more earpieces, and producing audiometric feedback at the one or more wireless earpieces at least partially based on the locations of the individual body sensors relative to the one or more earpieces.

Abstract: A system of wearable or personal area devices includes a first earpiece and a second ear piece each of the first ear piece and the second ear piece comprising an ear piece housing, an induction circuit disposed within the ear piece housing for short range communications, and a radio transceiver disposed within the ear piece housing for radio communications. The induction circuit of the first ear piece and the induction circuit of the second ear piece are adapted for communication there between using high bandwidth audio.

Abstract: A system and method for managing wireless earpieces. Circuitry of the wireless earpieces are powered utilizing a high power mode in response to detecting a magnetic field is not applied to one or more of the wireless earpieces. The power sent to the circuitry of the wireless earpieces is altered to a low power mode in response to detecting the magnetic field is applied to one or more of the wireless earpieces.

Abstract: A system, method and one or more wireless earpieces for calibrating one or more wireless earpieces. An indication that the calibration of the one or more wireless earpieces is required is received. Sensors of the one or more wireless earpieces are calibrated in response to receiving the indication. Calibration information is analyzed. A determination is made whether the calibration is successful utilizing the calibration information.

Abstract: A system, method and personal area network for communicating utilizing a wireless earpiece. The wireless earpiece is linked with a communications device. Sensor measurements of a condition of a user are performed utilizing sensors of the wireless earpiece. A determination is made whether the sensor measurements exceed one or more thresholds. Communications regarding the sensor measurements are sent from the wireless earpiece to the communications device regarding the condition of the user.

Abstract: A system and method for testing a wireless earpiece which provides improved efficiencies in manufacturing. Automated testing of one or more printed circuit boards of the wireless earpiece is initiated. The semi-assembled wireless earpiece is tested. End-of-line functional testing is performed. Final acoustic testing of the wireless earpiece is performed.