Abstract: An illustrative hearing system may be configured to receive, from a motion sensor included in a hearing device configured to be worn by a user, motion data representative of motion of the user while the user wears the hearing device and an output signal generated by a heart rate sensor in contact with the user. The hearing system may be further configured to determine, based the motion data, a heart rate probability distribution function and to determine, based on the output signal and the heart rate probability distribution function, a heart rate value for the user.

Abstract: An illustrative hearing system may be configured to receive, from an inertial sensor included in a hearing device configured to be worn by a user, inertial sensor data representative of at least one of motion of the hearing device or orientation of the hearing device. The hearing system may further be configured to determine, based on the inertial sensor data, an activity state of the user and to determine, based on the activity state, a cardiorespiratory quality index representative of a quality level of a measurement of a cardiorespiratory property of the user.

Abstract: An illustrative hearing system may be configured to cause an emitting device included in a hearing device to emit an output signal while the hearing device is at least partially positioned within an ear canal of a user and cause a sensor positioned outside the ear canal to attempt to detect the output signal. The sensor may be configured to output sensor data representative of one or more signals detected by the sensor during a time period corresponding to the emitting of the output signal by the emitting device. The hearing system may further be configured to determine, based on the sensor data, a quality metric for an optical measurement performed or to be performed by an optical measurement device included in the hearing device.

Abstract: An illustrative system includes two wearable devices configured to be worn near a jaw on opposite sides of a user's head, each device comprising: at least one microphone, at least two accelerometers, at least one loudspeaker, wherein the system is configured to process data acquired by the accelerometers and by the microphones to: detect chewing, and output an audible notification via the loudspeakers to notify the user to brush the user's teeth after chewing is no longer detected.

Abstract: A hearing aid, including an inertial sensor for detecting movement of the hearing aid, and a power mode controller connected to the inertial sensor through a threshold comparison unit and adapted to switch the hearing aid off or into a low power mode if the threshold comparison unit detects that a characteristic of a signal including information on the movement detected by the inertial sensor is below a certain threshold. Also, a method for controlling a power mode of a hearing aid.

Abstract: A hearing device configured to be worn at a head of a user. The hearing device includes a vibration sensor to detect a vibration conducted through the user's head to the hearing device and to output a vibration signal including information about the vibration. At least part of the vibration can be caused by an own voice activity of the user. A method of operating the hearing device allows a reliable own voice detection at rather low processing effort. The processor determines a presence of an own voice characteristic in the vibration signal at a vibration frequency associated with the own voice characteristic and identifies the own voice activity based on an identification criterion including the presence of the own voice characteristic in the vibration signal at the associated vibration frequency. The own voice characteristic indicative of part of the vibration can be caused by the own voice activity.

Abstract: The disclosed technology generally relates to a hearing device configured adjust the tap detection sensitivity on based on context. The disclosed technology can determine a context for a hearing device based on sound received at the hearing device (e.g., determine loud environment) or a wireless communication signal from an external device received at the hearing device (e.g., receive a message that phone call is incoming); adjust a tapping sensitivity threshold of the hearing device based on the context; detect a tap of the hearing device based on the adjusted sensitivity threshold; and modify a setting of the hearing device (e.g., reduce volume based on a tap) or transmitting instructions to the external device based on detecting the tap. The hearing device can be a hearing aid.

Abstract: An exemplary hearing device includes a first sensor, a second sensor, an audio processing component, and a power management processor. The power management processor may be configured to determine, while the hearing device is in a first low power mode, that the first sensor detects a first state change associated with the hearing device, direct, based on the first sensor detecting the first state change, the hearing device to enter a second low power mode in which the second sensor is active and the audio processing component is inactive, determine, while the hearing device is in the second low power mode, that the second sensor detects a second state change associated with the hearing device, and direct, based on the second sensor detecting the second state change, the hearing device to enter a full power mode in which the audio processing component is active.

Abstract: The disclosed technology generally relates to adaptive tap control for a hearing device. In some implementations, the disclosed technology includes a hearing device configured to detect tapping of the hearing device based on learned tapping parameters. To learn an individual's tapping parameters for a hearing device, the disclosed technology can use a method that includes providing a tap task to a hearing device user; detecting a single tap or multiple taps in response to providing the tap task to the hearing device user; determining tap detection parameters associated with the single or multiple taps; and providing adjusted tap detection parameters for the hearing device based on the determined tap parameters. The hearing device can use the adjusted tap detection parameters to control the hearing device or perform operations by tap control.

Abstract: An exemplary hearing device is configured to selectively connect to a remote audio source configured to provide remote audio content. The hearing device operates in a first audio rendering mode in which the processor provides the user with a first audio signal based on a first combination of at least one of the ambient audio content detected by a microphone and the remote audio content. The hearing device determines, while operating in the first audio rendering mode and based on the accelerometer data, a movement of the user. The hearing device determines, based on the movement of the user, whether to switch from operating in the first audio rendering mode to operating in a second audio rendering mode in which the processor provides the user with a second audio signal based on a second combination of at least one of the ambient audio content and the remote audio content.

Abstract: The disclosed technology generally relates to adaptive tap control for a hearing device. In some implementations, the disclosed technology includes a hearing device configured to detect tapping of the hearing device based on learned tapping parameters. To learn an individual's tapping parameters for a hearing device, the disclosed technology can use a method that includes providing a tap task to a hearing device user; detecting a single tap or multiple taps in response to providing the tap task to the hearing device user; determining tap detection parameters associated with the single or multiple taps; and providing adjusted tap detection parameters for the hearing device based on the determined tap parameters. The hearing device can use the adjusted tap detection parameters to control the hearing device or perform operations by tap control.

Abstract: The disclosed technology generally relates to a hearing device configured adjust the tap detection sensitivity on based on context. The disclosed technology can determine a context for a hearing device based on sound received at the hearing device (e.g., determine loud environment) or a wireless communication signal from an external device received at the hearing device (e.g., receive a message that phone call is incoming); adjust a tapping sensitivity threshold of the hearing device based on the context; detect a tap of the hearing device based on the adjusted sensitivity threshold; and modify a setting of the hearing device (e.g., reduce volume based on a tap) or transmitting instructions to the external device based on detecting the tap. The hearing device can be a hearing aid.

Abstract: A hearing device configured to be worn at a head of a user. The hearing device includes a vibration sensor to detect a vibration conducted through the user's head to the hearing device and to output a vibration signal including information about the vibration. At least part of the vibration can be caused by an own voice activity of the user. A method of operating the hearing device allows a reliable own voice detection at rather low processing effort. The processor determines a presence of an own voice characteristic in the vibration signal at a vibration frequency associated with the own voice characteristic and identifies the own voice activity based on an identification criterion including the presence of the own voice characteristic in the vibration signal at the associated vibration frequency. The own voice characteristic indicative of part of the vibration can be caused by the own voice activity.

Abstract: A hearing aid, including an inertial sensor for detecting movement of the hearing aid, and a power mode controller connected to the inertial sensor through a threshold comparison unit and adapted to switch the hearing aid off or into a low power mode if the threshold comparison unit detects that a characteristic of a signal including information on the movement detected by the inertial sensor is below a certain threshold. Also, a method for controlling a power mode of a hearing aid.

Abstract: An exemplary hearing device is configured to selectively connect to a remote audio source configured to provide remote audio content. The hearing device operates in a first audio rendering mode in which the processor provides the user with a first audio signal based on a first combination of at least one of the ambient audio content detected by a microphone and the remote audio content. The hearing device determines, while operating in the first audio rendering mode and based on the accelerometer data, a movement of the user. The hearing device determines, based on the movement of the user, whether to switch from operating in the first audio rendering mode to operating in a second audio rendering mode in which the processor provides the user with a second audio signal based on a second combination of at least one of the ambient audio content and the remote audio content.

Abstract: An exemplary hearing device configured to be worn by a user includes an accelerometer configured to output accelerometer data representative of an acceleration of the hearing device and a processor configured to maintain data representative of a walking detection algorithm, determine an optimized parameter for the user for use with the walking detection algorithm, and apply, in accordance with the optimized parameter, the walking detection algorithm to the accelerometer data to determine a walking state of the user while the user wears the hearing device.