Abstract: An ear plug (200), and a method of producing an ear plug, which includes a shell (206) with at least one electrode (201-205) adapted for measuring brain wave signals, the electrode (201-205) being connected to a processor for processing the measured signals, wherein the contours of the outer surface of the ear plug (200) and the electrode (201-205) are individually matched to at least part of the ear canal and the concha of the user.

Abstract: A system for determining potential changes in trajectories of golf shots includes a sensor array sensing swing data relating to a golfer's swing and trajectory data relating to the trajectories of each of a plurality of shots hit by the golfer and a computing arrangement including a data repository and a processor configured to: store in the data repository the swing data and the trajectory data; identify shots hit by the golfer that represent mishits; and determine output data based on the swing data and the trajectory data for all of the shots hit by the golfer that are not identified as mishits, the output data indicating an optimal shot achievable by the golfer.

Abstract: A binaural hearing aid system (100) with improved diversity properties. The invention also provides a method for operating such a binaural hearing aid system (100).

Abstract: A hearing assistive system, comprises a personal communication device (10) and a head-worn device (20). The personal communication device (10) has a user interface (12) being adapted for user interaction, a processor (11) controlling the user interface (12) and being adapted to run an application program, a short-range radio (13), and an output transducer (15). The head-worn device (20) has an input transducer (24) adapted for converting sound into an electric signal applied to a processor (21) outputting a modified audio signal via an output transducer (25). The application program is adapted to generate and output a data packet (70) on an audio carrier via the output transducer (15). The head-worn device (20) has an audio signaling block (26) for detecting and decoding the data packet (70) received by the input transducer (24). The head-worn device (20) has a controller (27) for controlling the operation of a short-range radio (28).

Abstract: A method of estimating a feedback path of a hearing aid (200). The invention also relates to a hearing aid (200) adapted to carry out said method.

Abstract: A system determining a spin axis of a ball includes a radar transmitting a signal into a target area. The radar includes a minimum of three receivers arranged so that two pairs of receivers are not co-linear. The system also includes a Processing Unit (“PU”) receiving data from the radar and determining a radar range of frequencies received at a point in time corresponding to differing velocities relative to the radar of different portions of the ball as the ball is spinning. PU divides the radar frequency range into a plurality of frequency components and calculating, for each of the frequency components, an angular position associated therewith. PU identifies as a projection of the spin axis in a plane perpendicular to a line of sight from the radar to the ball, a line perpendicular to a line represented by the determined angular positions.

Abstract: A method includes capturing first data with a first sensor and second data with a second sensor in a multi-sensor tracking system, the first and second data corresponding to a path of an object, wherein each of the sensors has a set of initial parameters. The method includes generating a first initial object track using the first data and the first initial parameters and a second initial object track using the second data and the second initial parameters, matching the first and second initial object tracks and determining a degree of correspondence therebetween; and calculating first optimized parameters for the first sensor, wherein, when a first optimized object track is calculated using the first data and the first optimized parameters, the first optimized object track and the second initial object track have a higher degree of correspondence therebetween than the first and second initial object tracks.

Abstract: A remote-control unit (10) is adapted for sending a control signal with instructions as an acoustic signal for controlling a hearing assistive device (20). A calibration method comprises outputting tone frequencies applied by the control signal, receiving the output tone frequencies and compare tone frequency levels relatively to a reference, adjusting relative volumes of the tone frequencies applied by the control signal in dependence of the comparison, and storing the adjusted relative volumes of the tone frequencies for use when sending a control signal with instructions as acoustic signals.

Abstract: A hearing assistive system includes a personal communication device and a head-worn device. The personal communication device has a user interface for user interaction, a processor controlling the user interface and for running an application program, and input and output transducers. The head-worn device has an input transducer adapted for converting sound into an electric signal applied to a processor outputting a modified audio signal via an output transducer. The application program generates a data packet modulated on an audio carrier for output via the output transducer, decodes a data packet modulated on an audio carrier and received via the input transducer. The head-worn device has an audio signaling block having a detector block and a response block. The detector block detects and decodes the data packet received by the input transducer. The response block generates a data packet modulated on an audio carrier for output via the output transducer.

Abstract: An input transducer (11, 12) of a hearing aid (10) converts audio from the environment into an electric input signal. A signal processor (13) amplifies and conditions the electric input signal according to a preset set of audio processing parameters, and an output transducer (14) reproduces output audio. The hearing aid (10) is connected with a personal communication device (20) via a short range radio communication link (15, 29). The personal communication device (20) identifies music included in the background noise. The personal communication device (20) retrieves a music stream based on the identified music, and streams the music stream to the hearing aid (10). The signal processor (13) of the hearing aid (10) combines the input signal from the input transducer (11, 12) and music signal in order to reduce the presence of the music included in the background noise from the audio signal delivered by the output transducer (14).

Abstract: A binaural hearing aid system (100) with improved diversity properties. The invention also provides a method for operating such a binaural hearing aid system (100).

Abstract: A system determining a spin axis of a ball includes a radar transmitting a signal into a target area. The radar includes a minimum of three receivers arranged so that two pairs of receivers are not co-linear. The system also includes a Processing Unit (“PU”) receiving data from the radar and determining a radar range of frequencies received at a point in time corresponding to differing velocities relative to the radar of different portions of the ball as the ball is spinning. PU divides the radar frequency range into a plurality of frequency components and calculating, for each of the frequency components, an angular position associated therewith. PU identifies as a projection of the spin axis in a plane perpendicular to a line of sight from the radar to the ball, a line perpendicular to a line represented by the determined angular positions.

Abstract: A remote-control unit (10) for controlling a hearing assistive device (20) by sending a control signal with instructions as an acoustic signal, has an input transducer (14), an output transducer (15), and a processor (11) adapted for setting the volume of the output from the output transducer (15). The processor (11) is adapted for activating the input transducer (14) for receiving environmental sound, analyzing the environmental sound, determining and setting the volume of the output from the output transducer (15) based on the environmental sound, and outputting the control signal at the set volume via the output transducer (15).

Abstract: A hearing system includes a hearing aid (10) and personal communication device (20) connected via a short range data communication link. The hearing aid has a signal processor (13) processing an audio signal according to audio processing parameters, a sub-system applying respective sets of processing parameters for at least two modes, a classifier component (51) statistically analyzing the environment by comparing specific characteristics of an electrical input signal to one or more thresholds. A program selector component (16) selects automatically an appropriate mode for the signal processing sub-system according to the classifier output. The personal communication device offers the user an interface for controlling and interacting with the program selector component of the hearing aid, and for generating and transmitting a notification to the hearing aid. Upon reception of the notification, the processor adjusts at least one of the one or more thresholds used by the classifier component.

Abstract: A hearing assistive system comprises a personal communication device (10) and a head-worn device (20. The personal communication device (10) has a user interface (12) being adapted for user interaction, a processor (11) controlling the user interface (12) and being adapted to run an application program, a short-range radio (13), and an output transducer (15). The head-worn device (20) has an input transducer (24) adapted for converting sound into an electric signal applied to a processor (21) outputting a modified audio signal via an output transducer (25). The application program being adapted to generate and output a data packet (70) on an audio carrier via the output transducer (15). The head-worn device (20) comprises an audio signaling block (26) for detecting and decoding the data packet (70) received by the input transducer (24). The head-worn device (20) comprises a controller (27) for controlling the operation of a short-range radio (28).

Abstract: A hearing system includes a hearing aid (10) and personal communication device (20) connected via a short range data communication link. The hearing aid has a signal processor (13) processing an audio signal according to audio processing parameters, a sub-system applying respective sets of processing parameters for at least two modes, a classifier component (51) statistically analyzing the environment by comparing specific characteristics of an electrical input signal to one or more thresholds. A program selector component (16) selects automatically an appropriate mode for the signal processing sub-system according to the classifier output. The personal communication device offers the user an interface for controlling and interacting with the program selector component of the hearing aid, and for generating and transmitting a notification to the hearing aid. Upon reception of the notification, the processor adjusts at least one of the one or more thresholds used by the classifier component.

Abstract: A method of estimating a feedback path of a hearing aid (200). The invention also relates to a hearing aid (200) adapted to carry out said method.

Abstract: An input transducer (11, 12) of a hearing aid (10) converts audio from the environment into an electric input signal. A signal processor (13) amplifies and conditions the electric input signal according to a preset set of audio processing parameters, and an output transducer (14) reproduces output audio. The hearing aid (10) is connected with a personal communication device (20) via a short range radio communication link (15, 29). The personal communication device (20) identifies music included in the background noise. The personal communication device (20) retrieves a music stream based on the identified music, and streams the music stream to the hearing aid (10). The signal processor (13) of the hearing aid (10) combines the input signal from the input transducer (11, 12) and music signal in order to reduce the presence of the music included in the background noise from the audio signal delivered by the output transducer (14).

Abstract: An input transducer (11, 12) of a hearing aid (10) converts audio from the environment into an electric input signal. A signal processor (13) amplifies and conditions the electric input signal according to a preset set of audio processing parameters, and an output transducer (14) reproduces output audio. The hearing aid (10) is connected with a personal communication device (20) via a short range radio communication link (15, 29). The personal communication device (20) identifies music included in the background noise. The personal communication device (20) retrieves a music stream based on the identified music, and streams the music stream to the hearing aid (10). The signal processor (13) of the hearing aid (10) combines the input signal from the input transducer (11, 12) and music signal in order to reduce the presence of the music included in the background noise from the audio signal delivered by the output transducer (14).

Abstract: A mobile communication device (50) receives an audio stream as input and delivers a processed audio stream as output. The mobile communication device has a data connection providing access to the Internet, and a short range data connection for delivering a processed audio stream as output to a specific hearing aid (10). The mobile communication device acquires a data set containing hearing aid settings for the specific hearing aid from a remote server (71), and adjusts the emulation software application by means of the data set containing hearing aid settings for the specific hearing aid (10). The mobile communication device transmits the control signals and a processed audio stream to the specific hearing aid via the short range data connection and the specific hearing aid outputs the audio signal to the user without additional amplification. The invention also provides a method of signal processing in a mobile communication device.