Abstract: A system, method and computer program determine estimated sensor data using time-series projection. The system comprises processing circuitry configured to obtain a plurality of samples of sensor data of the sensor. The processing circuitry is configured to obtain information on a time offset between the sensor data of the sensor and a reference time. The processing circuitry is configured to perform a time-series projection based on the plurality of samples of the sensor data. The time-series projection is performed using an auto-regressive statistical model. The processing circuitry is configured to determine an estimate of the sensor data for the reference time based on the time-series projection and based on the time offset between the sensor data and the reference time. Thus, the time-series projection may be used to bridge the time offset between the sensor data of the sensor and the reference time.

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: An intelligent wireless headset system in embodiments of the present invention may have one or more of the following features: (a) a left ear portion having at least one microphone and at least one speaker associated therewith, (b) a right ear portion having at least one microphone and at least one speaker associated therewith, (c) a connecting band between the left ear portion and the right ear portion, (d) a wireless radio transceiver disposed within the intelligent wireless headset, (e) a cellular transceiver disposed within the intelligent wireless headset, (f) a headset network capable of operably coupling the intelligent wireless headset with at least one device in the headset network, (g) sensors to collect biometric information, (h) a camera for collecting video information, (i) outer speakers located on the housing, and (j) a memory for storing biometric information.

Abstract: A system includes a wearable device having at least one sensor configured to determine a user's fingerprint data, at least one data storage device containing authentication data, and at least one processor configured to compare the user's fingerprint data with the authentication data to authenticate a user. A method of authenticating a wearable device includes producing a fingerprint, determining fingerprint data derived from the fingerprint with one or more sensors, comparing the fingerprint data with authentication data on one or more data storage devices, and authenticating the user if the fingerprint data and the authentication data match.

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 system includes a wearable device having at least one sensor configured to determine a user's fingerprint data, at least one data storage device containing authentication data, and at least one processor configured to compare the user's fingerprint data with the authentication data to authenticate a user. A method of authenticating a wearable device includes producing a fingerprint, determining fingerprint data derived from the fingerprint with one or more sensors, comparing the fingerprint data with authentication data on one or more data storage devices, and authenticating the user if the fingerprint data and the authentication data match.

Abstract: An intelligent wireless headset system in embodiments of the present invention may have one or more of the following features: (a) a left ear portion having at least one microphone and at least one speaker associated therewith, (b) a right ear portion having at least one microphone and at least one speaker associated therewith, (c) a connecting band between the left ear portion and the right ear portion, (d) a wireless radio transceiver disposed within the intelligent wireless headset, (e) a cellular transceiver disposed within the intelligent wireless headset, (f) a headset network capable of operably coupling the intelligent wireless headset with at least one device in the headset network, (g) sensors to collect biometric information, (h) a camera for collecting video information, (i) outer speakers located on the housing, and (j) a memory for storing biometric information.

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 system includes a wearable device having at least one sensor configured to determine a user's fingerprint data, at least one data storage device containing authentication data, and at least one processor configured to compare the user's fingerprint data with the authentication data in order to authenticate a user. A method of authenticating a wearable device includes producing a fingerprint, determining fingerprint data derived from the fingerprint with one or more sensors, comparing the fingerprint data with authentication data on one or more data storage devices, and authenticating the user if the fingerprint data and the authentication data match.

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 system includes a wearable device having at least one sensor configured to determine a user's fingerprint data, at least one data storage device containing authentication data, and at least one processor configured to compare the user's fingerprint data with the authentication data in order to authenticate a user. A method of authenticating a wearable device includes producing a fingerprint, determining fingerprint data derived from the fingerprint with one or more sensors, comparing the fingerprint data with authentication data on one or more data storage devices, and authenticating the user if the fingerprint data and the authentication data match.