Abstract: A telephone handset (1), e.g. a mobile phone, is equipped with an add-on module (41). Thereby, the module (41) comprises a microphone unit (9a) which is operated instead of the microphone unit intrinsically provided in the handset (1). Further, the module (41) comprises a short-range wireless transmission unit (23a) which is operated instead of a speaker unit (7) which is intrinsically provided in the handset (1). The short-range wireless communication unit (23a) establishes communication with a respective short-range wireless communication unit (19a) in a hearing device (10) as soon as a distance between the telephone handset (1) and the hearing device (10) drops below a predetermined threshold value as detected by a distance detection unit (21).

Abstract: The present invention relates to an antenna module for a hearing device. The antenna module comprises a hollow core provided with an axial passageway and a winding around the core which is connectable with a hearing device. The antenna module is arranged to be at least partially contained within the ear canal of a user. This enables the antenna to be separated from sources of interference, since it can be positioned inside the ear canal away from hearing device electronics, thus reducing requirements for shielding and/or compensation. The invention further relates to an ear tip and a hearing device comprising such an antenna module.

Abstract: A hearing device includes at least one input transducer for generating an input signal, an output transducer for generating an output signal and a signal processing unit operationally interconnecting the input transducer and the output transducer. A method includes receiving context information describing a possible current acoustic situation and selecting an adjustment scheme taking into account the context information. The adjustment scheme is one of the following: predefined adjustment scheme, and scenario dependent adjustment scheme comprising at least two scenario adjustments (S1, . . . , Sn), each being assigned at least one hearing program (P1, . . . , Pm). The method also includes selecting a hearing program (P1, . . . , Pm) based on the selected adjustment scheme, and processing the input signal by applying the selected hearing program (P1, . . . , Pm) to obtain the output signal of the hearing device.

Abstract: The method for configuring at least two devices of a hearing system (10) using a communication channel comprises the steps of a1) providing, using said communication channel, a first (11) of said devices with a request (R1) for the execution (E1) of at least one first configuring command in said first device (11); b1) executing (E1) said at least one first configuring command in said first device (11); a2) providing, using said communication channel, a second (12) of said devices with a request (R2) for the execution of at least one second configuring command in said second device (12); wherein step a2) is started before step b1) is completed, in particular wherein step a2) is completed before step b1) is completed. This way, time can be saved in configuring two or more devices (11;12;13) of a hearing system (10).

Abstract: Method of controlling a hearing instrument comprising at least one hearing device, the method comprising determination of an acoustic environment at least partially by means of calculating the complex coherence of signals from either a pressure microphone and a particle velocity transducer; a pair of pressure microphones in a single hearing device; or a pair of pressure microphones, one situated in each of a pair of hearing devices. This enables finer determination of acoustic environments, thus improving the hearing experience for the wearer of the hearing instrument. The invention further relates to a corresponding hearing instrument.

Abstract: The present invention provides a system that allows an easy and quick exchange of small batteries of hearing devices as well as a method for exchanging a battery of a hearing device that combines the installation of a new battery into the hearing device with the deinstallation of the battery to be replaced from the hearing device in a single action using a single mechanism. The inventive battery exchange system comprises a carrier module 1, which features a hearing device receiving means shaped to receive a part of a hearing device 4 and a battery passage that traverses the carrier module 1, a battery dispensing module 2 adapted to accommodate at least one battery 7 and a battery ejection means 3 adapted to eject a battery 7 from the battery dispensing module 2 into the battery passage of the carrier module 1.

Abstract: A method of estimating the shape of an individual ear includes determining at least part of the shape of the individual ear, the shape being determined over a first extent and constituting a determined shape; taking a predefined template shape determined by statistical analysis of a plurality of previously measured ear shapes according to a statistical model, the template shape having a second extent; and generating an estimated shape corresponding to an estimated representation of the shape of the individual ear over the intersection of the first extent and second extent by modifying the template shape to substantially match the determined shape over the first extent or over the second extent within a predefined tolerance. Also, a method of optimising an ITE shell, BTE or CRT housing, or BTE sound tube to a given population group utilising the same template methodology.

Abstract: A method for operating a binaural hearing system including first and second hearing devices, each including an input transducer, a signal processing unit, an output transducer and a link unit for exchanging information between the devices. Operating the first hearing device according to a first processing scheme, operating the second hearing device according to a second processing scheme, monitoring an acoustic situation by the hearing devices, generating a request for coordinating the two hearing devices if one hearing device detects an acoustic situation asking for coordinating the two processing schemes of the hearing devices, the hearing device detecting such an acoustic situation being an ipsi-lateral hearing device the other being a contra-lateral hearing device, activating a link between the devices for transmitting the request to the contra-lateral hearing device, and changing the processing scheme in at least one of the devices in accordance with the request.

Abstract: A method for operating a hearing device worn by a hearing device user. The method includes picking up an audio signal (a) by an input transducer of the hearing device. The audio signal (a) includes a source signal (s) of a sound source (SS) and a disturbing signal (d) of a disturbing source (DS). The method also includes receiving a transmission signal (d_AIS) via an interface unit of the hearing device. The transmission signal (d_AIS) includes the disturbing signal (d) or at least characteristic features of the disturbing signal (d). The method also includes at least partially eliminating the disturbing signal (d) from the audio signal (a) by using the disturbing signal (d) transmitted by the transmission signal (d_AIS) or by using the characteristic features of the disturbing signal (d) transmitted by the transmission signal (d_AIS) for obtaining an adjusted audio signal (a*), and processing the adjusted audio signal (a*).

Abstract: The method for operating a hearing system comprising at least one hearing device; at least one signal processing unit; at least one user control by means of which at least one audio processing parameter of said signal processing unit is adjustable; and a sensor unit; comprises the steps of a) obtaining adjustment data (userCorr) representative of adjustments of said at least one parameter carried out by operating said at least one user control; b) obtaining characterizing data (p1;p2) from data outputted from said sensor unit substantially at the time said adjustment data are obtained; c) deriving correction data (learntCorr) from said adjustment data (userCorr); wherein step c) is carried out in dependence of said characterizing data; and d) recognizing an update event; and, upon step d): e) using corrected settings for said at least one audio processing parameter in said signal processing unit, which corrected settings are derived in dependence of said correction data (learntCorr).

Abstract: A hearing device with a unit for estimating the current consumed by the receiver of the hearing device. The hearing device includes a signal input unit for converting an input signal picked up by the signal input unit into a digital audio signal, a signal processing unit for processing the digital audio signal, a digital-to-analog converter for converting a processed audio signal from the signal processing unit, a power amplifier for amplifying a converted audio signal from the digital-to-analog converter, a receiver for generating sound according to an amplified audio signal from the power amplifier, and a battery for powering the hearing device. A receiver current estimation unit has a filter for filtering a receiver current indicative signal derived from the processed audio signal, the filter having a frequency response dependent on an impedance of the receiver. A method is provided for estimating a receiver current for a hearing device.

Abstract: A wireless audio device includes an audio streaming unit to wirelessly transmit an audio signal to a remote hearing device such as a hearing aid or a cochlear implant. A remote control unit to wirelessly controls the remote hearing device, a battery monitor determines a power level of a battery and provides a battery state signal indicative of the power level of the battery. A power management unit deactivates the audio streaming unit when the battery state signal reaches or falls below a first threshold and deactivates the remote control unit when the battery state signal reaches or falls below a second threshold, wherein the first threshold is higher than the second threshold. Also described is a method of operating such a wireless audio device as well as a hearing system including such a wireless audio device and a remote hearing device, such as a hearing aid or a cochlear implant.

Abstract: Monitoring usage of a hearing device includes: c) checking whether a message has been received within a time period (dt) shorter than a pre-defined time period (Dt) via a long-distance communication network in a remote device; and d) generating usage status data dependent on the result of the checking addressed in step c). The usage status data are indicative of the usage of the hearing device, indicating “use” if the time period (dt) is smaller than or equal to the pre-defined time period (Dt) and indicating “non-use” if the time period (dt) is larger than the pre-defined time period (Dt). The message includes identification data for identifying the hearing device or a user of said hearing device. The remote device is located remote from the hearing device and connected to the long-distance communication network. The time period (dt) starts from a start event.

Abstract: A hearing protection earpiece having a shell shaped according to conform to the user's concha and ear canal and having an open hollow lateral portion to be inserted into the user's concha and a medial portion to be inserted into at least an outer portion of the user's ear canal, wherein the medial portion of the shell is axially adjacent to the lateral portion of the shell, wherein the lateral portion of the shell forms part of an open portion of the earpiece and the medial portion of the shell forms part of a closed portion of the earpiece, wherein the earpiece provides for a mechanical sound attenuation of at least 10 dB averaged over the audible frequency range, and wherein the lateral portion of the shell has a wall thickness of not more than 3 mm and is shaped to cover at least half of the concha area.

Abstract: A method of estimating an acoustic transfer quantity representative of a sound pressure transfer to the eardrum includes the steps of measuring, by an ear canal microphone of the hearing instrument, an acoustic signal in the ear canal when a sound signal is emitted into the ear canal by a receiver of the hearing instrument, the ear canal microphone being in acoustic communication with the ear canal, determining, from the acoustic signal and from a frequency dependent reference characteristics of the hearing instrument, an ear canal impedance, and, calculating, from the ear canal impedance, an estimate of the acoustic transfer quantity.

Abstract: A method for operating a hearing system comprises the steps of: a) replacing the current settings by the former settings upon operation of a reset user control; and one of the steps of: b1) automatically replacing the former settings by new former settings upon receiving a request for adjusting at least one setting of the current settings, provided that no adjustment to the current settings has been carried out for at least a pre-defined time span up to the receiving of that request; or b2) automatically replacing the former settings by new former settings upon receiving a request for adjusting at least one setting of the current settings, provided that a difference between the current settings and the former settings caused by one or more adjustments to the current settings carried out during a pre-defined time span up to the receiving of that request is larger than a pre-defined difference.

Abstract: Audible signals (m2) which are transmitted via an uncontrolled transmission path (11) to an individual's ear wearing the control signal processing path (1) of a hearing device are compensated by audible signals (m3) which are produced by an additional controlled signal processing path (20). Signal processing parts are commonly exploited (25b, 25d, 7/27) by both controlled signal processing paths (1, 20).