Abstract: A head-worn device comprises a housing with an insulating housing wall and is housing a conducting element (24; 31) having at least one end embedded into the housing wall, and a component (22; 30) being arranged adjacent to the conducting element (24; 31). The component (22; 30) and the conducting element (24; 31) are being separated by a partitioning element (26; 28; 40) provided as an insulator. The partitioning element (26; 28; 40) is having a shape increasing the travelling distance for a spark between the conducting element (24; 31) and the component (22; 30) by at least 40%, and a thickness and a Dielectric Strength sufficient to resist 3 kV without breaking down.

Abstract: A hearing system includes a hearing aid (10) and a personal communication device (20), and both have a short range data transceiver (15, 29) for short range data communication. The hearing aid (10) has a signal processor (13) processing an electric input signal according to predefined audio processing parameters, and a signal processing sub-system with at least two modes of operation applying respective sets of audio processing parameters. A program selector component (16) has a classifier (51) analyzing the electric input signal and classifies an auditory environment of the hearing aid (10). The personal communication device (20) has an auxiliary classifier component (24) monitoring the use of the personal communication device, and generates and transmits a notification upon detection of a change of the environment.

Abstract: A hearing assistive device has an input transducer (12) converting sound into an audio signal applied to a processor (14; 65). The processor (14; 65) is configured to compensate a hearing loss of a user of the hearing assistive device and to output a compensated audio signal. An output transducer (16; 65) converts the compensated audio signal into sound. The hearing assistive device (10) further comprises a wireless transceiver (21) enabling audio streaming from an external device (30) to the hearing assistive device, an attenuator (23) associated with said processor (14; 65) applying attenuation to the compensated audio signal, and an audio stream analyzer (22a) classifying the audio stream received via said wireless transceiver. The attenuator (23) is controlled in accordance to the audio stream classification from the audio stream analyzer (22a). The invention further provides a method of operating a hearing assistive device.

Abstract: A changeable cartridge for a hearing device docking station, the changeable cartridge having a flexible waste reservoir adapted to receive waste products from hearing device fuel cell power packs, and a flexible fuel reservoir adapted to hold and provide fuel to hearing device fuel cell power packs. The present invention further relates to a hearing device docking station and a hearing device docking station assembly.

Abstract: A hearing aid system (100, 200) adapted for providing an enriched sound and a method of providing such an enriched sound.

Abstract: A method of operating a hearing aid system (400) based on processing two groups of interleaved frequency bands such that one of the two groups of frequency bands is attenuated with respect to the other and such that it alternates with time whether one or the other of the two groups are attenuated and a hearing aid system (100, 200, 300) for carrying out the method.

Abstract: A hearing system includes a hearing aid (10) and a personal communication device (20), and both have a short range data transceiver (15, 29) for short range data communication. The hearing aid (10) has a signal processor (13) processing an electric input signal according to predefined audio processing parameters, and a signal processing sub-system with at least two modes of operation applying respective sets of audio processing parameters. A program selector component (16) has a classifier (51) analyzing the electric input signal and classifies an auditory environment of the hearing aid (10). The personal communication device (20) has an auxiliary classifier component (24) monitoring the use of the personal communication device, and generates and transmits a notification upon detection of a change of the environment.

Abstract: A hearing system includes a hearing aid and a personal communication device connected via a short range data communication link. The hearing aid has a signal processor processing an input signal according to audio processing parameters, a sub-system applying respective sets of processing parameters for at least two modes, a classifier component analyzing the auditory environment statistically by comparing specific characteristics of the input signal to one or more thresholds. A program selector component selects automatically an appropriate mode for the signal processing sub-system according to the classifier output. The personal communication device offers the user a user 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 at least one of said one or more thresholds used by the classifier component.

Abstract: A system (100) for bi-hemispheric brain wave measurements including a first device (102) and a second device (103), wherein at least said first device (102) is adapted to be worn in or at a first ear of a person subject to the measurements and wherein the first (102) and second (103) device exchange data using a wireless link (104). The invention also provides a method for measuring a bi-hemispherical brain wave signal.

Abstract: A hearing aid (1) comprises a flexible ear tip (9) for an ear piece (8) adapted for insertion into the ear canal of a user. The ear piece comprises a shroud having a generally ball-shaped hollow bulb made of soft resilient material, featuring a mid zone that is adapted for being softer to compression by the contact with ear canal wall than is the case with the end zones. The invention further provides an ear piece, an ear plug, and a component for a communications device.

Abstract: A hearing aid (1) comprises a flexible ear tip (36) for an ear piece (62) adapted for insertion into the ear canal of a user. The ear piece comprises a shroud having a generally ball-shaped hollow bulb made of soft resilient material. The shroud is oval for better adaptation to the ear canal, as ear canals of humans are generally oval. The invention further provides an ear piece, an ear plug, and a component for a communications device.

Abstract: A method (100) of fitting a hearing aid system comprising identification of an auditory neuro-synaptopathy of a person based on the sensitivity of the person to temporal masking, a hearing aid fitting system, a computerized device (200, 300), a server (302) hosting a web service and a computer-readable storage medium having computer-executable instructions, which when executed carry out said method.

Abstract: A data system for handling user data for a hearing aid user and at least one hearing aid (10, 11) having a memory for storing personal settings for alleviating a hearing loss for the hearing aid user includes a remote server (25) accessible by means of an Internet enabled computer device. A personal communication device (13) is Internet enabled and is able to act as a gateway to the Internet for the at least one hearing aid. The user may create a user account on the remote server, enter personal information into the user account and store the entered personal information on the remote server, and enter the gateway information to the user account. The personal communication device and the at least one hearing aid are provided with respective transceivers for establishing a wireless connection under guidance of said application software. The least one hearing aid uploads the personal settings for alleviating the hearing loss via the gateway to the remote server for storing in the user account.

Abstract: The present invention relates to a changeable cartridge for a hearing device docking station, said changeable cartridge comprising a flexible waste reservoir being adapted to receive waste products from hearing device fuel cell power packs, and a flexible fuel reservoir being adapted to hold and provide fuel to hearing device fuel cell power packs. The present invention further relates to a hearing device docking station and a hearing device docking station assembly.

Abstract: A method of processing sound in a hearing aid (100, 300, 400) comprises separating the input transducer signal into a periodic and aperiodic signal for further processing in the hearing aid (100, 300, 400). The invention also provides a hearing aid (100, 300, 400) adapted for carrying out such a method of sound processing.

Abstract: A hearing system includes a hearing aid (10) and a personal communication device (20) being connected via a short range data communication link (15, 29). The hearing aid (10) has a signal processor (13) processing an input signal according to audio processing parameters, a sub-system applying respective sets of processing parameters for at least two modes, a classifier component (51) analyzing auditory environment statistically by comparing specific characteristics of the 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 (20) offers the user a user interface (120) for controlling and interacting with the program selector component (16) of the hearing aid (10), and for generating and transmitting a notification to the hearing aid (10).

Abstract: The present invention relates to a system comprising a telephone (10) and a hearing aid (40). The analog signal to the loudspeaker (11) of the telephone (10) is picked up and digitalized at the telephone where after it is wirelessly transmitted to the hearing aid (40) using a radio transceiver at the telephone (10), coupling with a radio at the hearing aid. The sound from the telephone (10) is hereby transmitted directly to the hearing aid without relying on the acoustic coupling between the telephone speaker (11) and the hearing aid microphones and may further be transmitted to both left and right hearing aid at the same time. The invention provides a telephone, a hearing aid and a method of communicating with a hearing aid.

Abstract: A method of operating a hearing aid system with virtually zero delay and phase distortion. The invention also provides a hearing aid system (100) adapted for carrying out such a method.

Abstract: A method of personalizing at least one hearing aid for a hearing aid user includes the steps of manufacturing a hearing aid (1), receiving an audiogram from a server (37) for the hearing aid user, programming the hearing aid (1) by means of the audiogram, whereby the hearing aid (1) becomes personalized for the hearing aid user. Hereafter, the personalized hearing aid(s) (1) is/are delivered to the hearing aid user who may then put it into use. If there arises a need for fine tuning, the hearing aid user may request a consultation with a hearing healthcare professional. The hearing healthcare professional has equipment (44, 45) for fine tuning the hearing aid (1), and he may fine tune the personalized hearing aid(s) (1) in dialogue with the hearing aid user. The invention further provides a hearing aid delivering system and an Internet enabled personal communication device.

Abstract: A method (200) of operating a hearing aid system based on an enhancement of frequency contrast by increasing the gain applied to a frequency band if a measure of the signal variability is above a threshold that depends on the signal variability in other frequency bands and a hearing aid system (100) for carrying out the method.