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EP3029956A1 - Hearing device with dynamic mirror service and related method - Google Patents

Hearing device with dynamic mirror service and related method Download PDF

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Publication number
EP3029956A1
EP3029956A1 EP14196520.2A EP14196520A EP3029956A1 EP 3029956 A1 EP3029956 A1 EP 3029956A1 EP 14196520 A EP14196520 A EP 14196520A EP 3029956 A1 EP3029956 A1 EP 3029956A1
Authority
EP
European Patent Office
Prior art keywords
hearing device
mirror service
transmission rate
packet
packet transmission
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP14196520.2A
Other languages
German (de)
French (fr)
Other versions
EP3029956B1 (en
Inventor
Hong Liu
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
GN Hearing AS
Original Assignee
GN Resound AS
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority to EP19153413.0A priority Critical patent/EP3496421B1/en
Application filed by GN Resound AS filed Critical GN Resound AS
Priority to DK14196520.2T priority patent/DK3029956T3/en
Priority to EP14196520.2A priority patent/EP3029956B1/en
Priority to DK19153413.0T priority patent/DK3496421T3/en
Priority to US14/568,095 priority patent/US9930457B2/en
Priority to JP2015235854A priority patent/JP6517135B2/en
Priority to CN201510880758.3A priority patent/CN105681992B/en
Publication of EP3029956A1 publication Critical patent/EP3029956A1/en
Application granted granted Critical
Publication of EP3029956B1 publication Critical patent/EP3029956B1/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04RLOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
    • H04R25/00Deaf-aid sets, i.e. electro-acoustic or electro-mechanical hearing aids; Electric tinnitus maskers providing an auditory perception
    • H04R25/55Deaf-aid sets, i.e. electro-acoustic or electro-mechanical hearing aids; Electric tinnitus maskers providing an auditory perception using an external connection, either wireless or wired
    • H04R25/552Binaural
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04RLOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
    • H04R25/00Deaf-aid sets, i.e. electro-acoustic or electro-mechanical hearing aids; Electric tinnitus maskers providing an auditory perception
    • H04R25/55Deaf-aid sets, i.e. electro-acoustic or electro-mechanical hearing aids; Electric tinnitus maskers providing an auditory perception using an external connection, either wireless or wired
    • H04R25/554Deaf-aid sets, i.e. electro-acoustic or electro-mechanical hearing aids; Electric tinnitus maskers providing an auditory perception using an external connection, either wireless or wired using a wireless connection, e.g. between microphone and amplifier or using Tcoils
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04RLOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
    • H04R5/00Stereophonic arrangements
    • H04R5/033Headphones for stereophonic communication
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04RLOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
    • H04R2460/00Details of hearing devices, i.e. of ear- or headphones covered by H04R1/10 or H04R5/033 but not provided for in any of their subgroups, or of hearing aids covered by H04R25/00 but not provided for in any of its subgroups
    • H04R2460/03Aspects of the reduction of energy consumption in hearing devices

Definitions

  • the present disclosure relates to a hearing device configured for wireless communication with another hearing device.
  • the hearing device is configured to perform mirror service between the hearing device and another hearing device.
  • the hearing device comprises a processing unit; a wireless transceiver connected to the processing unit; and a receiver connected to the processing unit for converting an output signal into an audio output signal.
  • a hearing device has limited power resources given the demand for small hearing aids and the limited battery capacity of a hearing device battery.
  • Wireless communication requires a lot of power compared to the capacity of a hearing device battery.
  • a hearing device comprising a processing unit, a wireless transceiver connected to the processing unit, and a receiver connected to the processing unit for converting an output signal into an audio output signal.
  • the hearing device is configured to perform mirror service between the hearing device and another hearing device according to mirror service properties.
  • the mirror service comprises transmitting and/or receiving mirror service packets according to one or more mirror service properties, e.g. with a packet format at a packet transmission rate.
  • At least one of the mirror service packets comprises one or more hearing device operating parameters, e.g. including a first hearing device operating parameter.
  • the processing unit is configured to obtain hearing device operating parameter(s), such as the first hearing device operating parameter and/or a second hearing device operating parameter.
  • the processing unit may be configured to determine if a change criterion is fulfilled.
  • the change criterion may be based on one or more hearing device operating parameters, such as the first hearing device operating parameter and/or the second hearing device operating parameter.
  • the processing unit is configured to change or adapt a mirror service property, e.g. if the change criterion is fulfilled.
  • the mirror service property may comprise a packet transmission rate and/or a packet format.
  • the method comprises transmitting and/or receiving mirror service packets according to one or more mirror service properties, e.g. with a packet format at a packet transmission rate, at least one mirror service packet comprising one or more hearing device operating parameters, e.g. including a first hearing device operating parameter; and obtaining the first hearing device operating parameter.
  • the method optionally comprises determining if a change criterion is fulfilled, e.g. wherein the change criterion is based on one or more hearing device operating parameters, such as the first hearing device operating parameter and/or a second hearing device operating parameter; and changing the mirror service properties, e.g. if the change criterion is fulfilled.
  • the mirror service properties may comprise a packet transmission rate and/or packet format.
  • the method optionally comprises transmitting and/or receiving mirror service packets according to the changed mirror service property.
  • the binaural hearing device system comprises a first and a second hearing device, wherein the first and/or second hearing device is a hearing device presented in the present disclosure.
  • a hearing device with one or more adaptive mirror service properties as disclosed herein enables power efficient communication between hearing devices and optimized or at least improved use of the limited power in the hearing device. At the same time, a sufficient signalling quality may be maintained, e.g. in order not to loose mirror service connection between two hearing devices.
  • the hearing device as disclosed provides reduced risk of loosing connectivity between two hearing devices in a binaural hearing device system.
  • the hearing device is configured to perform mirror service between the hearing device and another hearing device.
  • a mirror service is a transmission or communication channel in the wireless transmission between a first hearing device and a second hearing device of a binaural hearing system.
  • the mirror service comprises transmitting mirror service packets with a packet format at a packet transmission rate between two hearing devices.
  • a mirror service packet may comprise one or more hearing device operating parameters, e.g. including a first hearing device operating parameter and/or a second hearing device operating parameter of the hearing device transmitting the mirror service packet.
  • the first hearing device is informed about operating parameter(s) of the second hearing device and vice versa. Thereby, each of the two hearing devices are updated on and can adapt to the operating parameter(s) of the other hearing device.
  • the mirror service may comprise ear-to-ear data service.
  • the hearing device may be a hearing aid, e.g. the processing unit may be configured for hearing loss compensation of a user's hearing loss.
  • the processing unit may be configured to determine if a change criterion is fulfilled.
  • the change criterion may comprise one or more subcriteria, such as a first subcriterion and/or a second sub-criterion.
  • the change criterion may be fulfilled if one or more subcriteria are fulfilled. For example, fulfillment of a first sub-criterion may be indicative of a possible reduction in the packet transmission rate. For example, fulfillment of a second sub-criterion may be indicative of a desired increase in the packet transmission rate, e.g. due to reduced signal quality.
  • the processing unit may be configured to apply different sub-criteria of the change criterion depending on current mode of the hearing device and/or depending on current mirror service properties.
  • one or more mirror service properties are changed.
  • One or more mirror service properties may change when there are changes in one or more operating parameters, i.e. the change criterion may be fulfilled if a change in one or more of the operating parameters is determined/detected.
  • the change criterion or a sub-criterion thereof may be based on the environment and/or settings of the hearing device and/or mode of the hearing device.
  • the change criterion may be fulfilled when the hearing device operating parameters, e.g. data, between the two hearing devices changes from being stable, or there is no or only little change in the data, or the data is the same to that the data is not stable, or there are changes in the data.
  • the change criterion may be fulfilled if the interface has been activated and/or if a mode shift has occurred.
  • the hearing device and the other hearing device may have been paired, e.g. by pairing the identification or ID of the hearing device with the identification or ID of the other hearing device, before audio streaming is performed, and/or before transmission of data between the hearing devices is performed, and/or before the mirror service between the two hearing devices is performed.
  • the processing unit may be configured to change one or more mirror service properties by changing the packet transmission rate from a first packet transmission rate to a second packet transmission rate.
  • the packet transmission rate may be denoted a first mirror service property.
  • the first packet transmission rate may be larger than the second packet transmission rate, e.g. corresponding to the first mode (with first packet transmission rate) being an active or normal mode of the mirror service, and the second mode (with second packet transmission rate) being an idle mode, or inactive mode or sleep mode of the mirror service.
  • the processing unit may be configured to change the packet transmission rate from a first packet transmission rate to a second packet transmission rate and/or vice versa when a default time period has passed without fulfillment of the change criterion, e.g. without any changes in one or more hearing device operating parameters.
  • a subcriterion of the change criterion may comprise determining if a default time has passed without changes in one or more hearing device operating parameters. Thereby automatic switching to inactive mode is provided for.
  • the first packet transmission rate may for example be in the range from 5 packets/s to 20 packets/s, such as between 10 packets/s and 15 packets/s. Exemplary first packet transmission rates may be about 12.5 packets/s (corresponding to a time period of 80 ms between consecutive mirror service packets) or about 13.5 packets/s (corresponding to a time period of 74 ms between consecutive mirror service packets).
  • the first packet transmission rate may correspond to a first mode, such as a normal mode or active mode of the mirror service transmission.
  • the second packet transmission rate may for example be in the range from 0.1 packets/s to 4 packets/s, such as between 0.3 packets/s and 2 packets/s. Exemplary second packet transmission rates may be about 0.5 packets/s (corresponding to a time period of 2 s between consecutive mirror service packets) or about 1 packets/s (corresponding to a time period of 1 s between consecutive mirror service packets).
  • the second packet transmission rate may correspond to a second mode, such as an idle mode, or inactive mode or sleep mode of the mirror service.
  • the second packet transmission rate may be used when there is no or only rare changes in the packet format or content of the transmitted packets, such that the mirror service transmission sends data less often, when the data does not change much.
  • the second packet transmission rate may be larger than the first packet transmission rate. This may correspond to changing the mode of the mirror service from a first mode being inactive/ idle/sleep mode to a second mode being active/normal mode.
  • the first packet transmission rate may for example be in the range from 0.1 packets/s to 4 packets/s, such as between 0.3 packets/s and 2 packets/s.
  • Exemplary first packet transmission rates may be about 0.5 packets/s (corresponding to a time period of 2 s between consecutive mirror service packets) or about 1 packets/s (corresponding to a time period of 1 s between consecutive mirror service packets).
  • the first packet transmission rate may correspond to a first mode, such as an idle mode, or inactive mode or sleep mode of the mirror service.
  • the first packet transmission rate may be used when there is no or only rare changes in the packet format or content of the transmitted packets, such that the mirror service transmission sends data less often, when the data does not change much.
  • the second packet transmission rate may for example be in the range from 5 packets/s to 20 packets/s, such as between 10 packets/s and 15 packets/s.
  • Exemplary second packet transmission rates may be about 12.5 packets/s (corresponding to a time period of 80 ms between consecutive mirror service packets) or about 13.5 packets/s (corresponding to a time period of 74 ms between consecutive mirror service packets).
  • the second packet transmission rate may correspond to a second mode, such as a normal mode or active mode of the mirror service transmission.
  • the first hearing device operating parameter may be indicative of one or more of user interface activation, mode shift, and/or processing parameter(s) of the hearing device.
  • the first hearing device operating parameter may be indicative of hearing device identifier or other identifier that enables the other hearing device to maintain a mirror service connection.
  • the second and/or a third hearing device operating parameter may be indicative of one or more of user interface activation, mode shift, and/or processing parameter(s) of the hearing device.
  • User interface activation may comprise the user pushing a button on the hearing device, the user changing the volume control on the hearing device, the user actively or physically changing the mode of the hearing device, or the user changing anything on the hearing device which is user controlled.
  • Mode shift of the hearing device may include that the hearing device automatically changes the hearing device mode, for example when the user moves from a noisy environment to a quiet environment.
  • Hearing device mode shift may include that the user changes the mode, for example when the user moves from one type of environment to another type of environment.
  • Processing parameters may comprise algorithmic parameters, automatic mode shift etc.
  • the processing parameter(s) of the hearing device may comprise one or more of environment identifier; noise reduction parameter; compressor parameter; signal generator control; and/or auto phone detector.
  • the environment identifier may be output from an environment classifier of the hearing device.
  • the noise reduction parameter may comprise fine tuning, filter coefficients etc.
  • the compressor parameter may be indicative of a gain, such as a gain selected for the specific hearing compensation of the user of the hearing device.
  • the signal generator control may comprise tinnitus sound generation (TSG) for tinnitus relief.
  • TSG tinnitus sound generation
  • the signal generator may comprise noise and/or feedback cancellation, occlusion cancellation etc.
  • the one or more hearing device operating parameters may comprise a mirror service identifier or indicator, e.g. as a part of the mirror service packets and/or in audio packet(s) of an audio stream received with the transceiver.
  • a mirror service identifier may indicate current and/or future mirror service property or properties.
  • the audio stream may be an ear-to-ear (E2E) audio stream, thus a mirror service indicator or flag may be present in the ear-to-ear audio stream in addition to the audio data.
  • the mirror service indicator or flag may be a 1 bit data. Thus, the mirror service may utilize this channel to indicate which mirror mode the respective hearing device should use.
  • the audio stream may be a transmission between the two hearing devices, e.g. via an accessory device such as a smart phone, a mobile phone, a computer, a tablet etc.
  • the audio stream may be transmitted wirelessly by 2.4 gigahertz Bluetooth connectivity between the two hearing devices, i.e. the binaural hearing devices, or between one or both hearing devices and an accessory device, such as a smart phone.
  • the hearing devices may stream directly via the Bluetooth connectivity, or through a secondary streaming device, such as a neck- or pocket-worn streaming device, whereby this Bluetooth enabled secondary streaming device then streams wirelessly to the hearing device, and this may then be limited to work only over a short distance.
  • the processing unit may be configured to change the mirror service property by changing the packet format from a first packet format to a second packet format, e.g. different from the first packet format.
  • the packet format may be determined or defined by its size and/or configuration.
  • the packet format may be denoted a first mirror service property or a second mirror service property.
  • the packet format may comprise a size and/or content of packet.
  • a packet may comprise one or more fields or segments including a first field and/or a second field.
  • the packet format may comprise a size identifier and/or a packet format identifier.
  • a first field in the packet may comprise a header, where the header may comprise an identifier, e.g. an identifier of the hearing device and/or of the other hearing device.
  • the header may comprise a time stamp and/or packet size.
  • a second field of the packet may comprise a packet format identifier, e.g. indicative of the packet type and/or content of the packet, and/or a size identifier.
  • a third field of the packet may comprise a time stamp and/or data of one or more hearing device operating parameters. Dynamically changing the packet format facilitates tailoring or selection of packets, such that redundant information is not sent between the hearing devices in turn reducing the amount of transmitted data thereby optimizing power consumption.
  • the first hearing device operating parameter may be a processing parameter of the hearing device, such as a compressor gain, and to determine if the change criterion is fulfilled may comprise determining whether a change in the processing parameter of the hearing device is larger than a change threshold.
  • the change criterion or a subcriterion thereof may be fulfilled if one or more processing parameters changes significantly.
  • the first hearing device operating parameter may be a parameter indicative of user interface activation, such as push button activation, and to determine if the change criterion is fulfilled may comprise determining whether the user interface has been activated, i.e. the change criterion is fulfilled if the user interface has been activated.
  • a second hearing device operating parameter may be a parameter indicative of mode shift in the hearing device, and to determine if the change criterion is fulfilled may comprise determining whether a mode shift has occurred in the hearing device, i.e. the change criterion is fulfilled if a mode shift has occurred.
  • Fig. 1 schematically illustrates an exemplary hearing device 2 with dynamic mirror service as disclosed herein.
  • the hearing device 2 comprises a processing unit 4, a wireless transceiver 6 connected to the processing unit 4, and a receiver 8 connected to the processing unit 4 for converting an output signal into an audio output signal.
  • the wireless transceiver 6 may be part of a user interface, and optionally the hearing device comprises a push button or volume control 9 allowing a user to control operation of the hearing device 2.
  • the hearing device 2 is configured to perform mirror service 10 between the hearing device 2 and another hearing device 14 according to mirror service properties.
  • the hearing device 2 optionally comprises a signal generator 11 and/or an environment classifier 12.
  • the signal generator 11 and/or the environment classifier 12 may form a part of the processing unit 4.
  • the hearing device 2 and the other hearing device 14 may be a first and a second hearing device, respectively, in a binaural hearing device system.
  • the mirror service 10 comprises transmitting mirror service packets with respective packet format at a packet transmission rate.
  • the processing unit 4 is configured to obtain at least the first hearing device operating parameter, e.g. indicative of one or more of user interface activation, mode shift, environment conditions, and/or processing parameter(s) of the hearing device. Based on the first hearing device operating parameter and/or further hearing device operating parameters such as a second hearing device operating parameter, the processing unit 4 is configured to determine if a change criterion is fulfilled.
  • the processing unit is configured to change the mirror service properties by changing the packet format from a first packet format to a second packet format, and/or changing the packet transmission rate from a first packet transmission rate, e.g. in the range from 0.4 packets/s to 1.1 packets/s, to a second packet transmission rate, e.g. of 12.5 packets/s or about 13.5 packets/s.
  • Fig. 2 schematically illustrates an exemplary mirror service 10 between a hearing device 2 and another hearing device 14.
  • the hearing device 2 transmits (ref 16) mirror service packets 18 at a first packet transmission rate to the other (second) hearing device 14 in a first mode of the mirror service.
  • the processing unit determines that the change criterion is fulfilled, e.g. by a user activating the user interface 9 in the hearing device 2, hearing device operating mode is changed (automatically or invoked by a user), and/or the environment changes (thereby changing the transmission conditions).
  • the processing unit 4 changes the mirror service properties by changing the packet transmission rate from the first packet transmission rate to a second packet transmission rate different from the first packet transmission rate, e.g.
  • the processing unit 4 changes from the first packet transmission rate to a second packet transmission rate less than the first packet transmission rate, e.g. if evaluation of the change criterion indicates that the mirror service can go from active mode to sleep mode and/or if the transmission conditions have improved.
  • the hearing device 2 and the other hearing device 14 exchange audio streams 26 via a separate audio channel.
  • Fig. 3 schematically illustrates an exemplary mirror service packet 18 with a first packet format and an exemplary mirror service packet 18' with a second mirror service packet format.
  • the mirror service packet 18 has a first field 22 being a header field comprising hearing device identifier indicative of the hearing device transmitting the packet 18.
  • a second field 24 of the packet 18 comprises a packet format identifier indicative of the packet type and content of the packet.
  • a third field 26 of the packet 18 comprises data of one or more hearing device operating parameters to be mirrored to the other hearing device 14.
  • a mirror service may be configured to use a plurality of different and predefined packet types.
  • the first packet format as illustrated in Fig. 3 may be used for mirroring changes in operating mode of the hearing device 2.
  • the mirror service packet 18' has a second packet format different from the first packet format in size and/or field configuration.
  • the mirror service packet 18' has a first field 22 being a header field comprising hearing device identifier indicative of the hearing device transmitting the packet 18, a second field 24, a third field 26 and a fourth field 28.
  • the second field 24 of the packet 18' comprises a packet format identifier indicative of the packet type and content of the packet.
  • a third field 26 and fourth field 28 of the packet 18' comprises data of one or more hearing device operating parameters to be mirrored to the other hearing device 14.
  • the second packet format as illustrated in Fig. 3 may be used for mirroring changes in volume of the hearing device 2.
  • the packet format identifier in the second field 24 of mirror service packet 18' may be set to a value (e.g. 2) indicative of user interface activation, and the third field 26 indicates that the user has adjusted volume.
  • the fourth field 28 contains data on a hearing device operating parameter, namely the actual volume gain applied in the hearing device as a result of the user interface activation.
  • Fig. 4 schematically illustrates an exemplary flow chart of a method of performing mirror service between a first hearing device and a second hearing device.
  • the method 400 comprises transmitting 401 mirror service packets according to mirror service properties (first mirror service properties) with a packet format at a packet transmission rate.
  • the mirror service packet comprises one or more hearing device operating parameters including a first hearing device operating parameter.
  • the method 400 may be performed with a hearing device as disclosed herein and comprises obtaining 402 the first hearing device operating parameter, e.g. with the processing unit 4.
  • the method 400 then proceeds to determining 403 if a change criterion is fulfilled.
  • the change criterion is based at least on the first hearing device operating parameter.
  • the method proceeds to changing 404 the mirror service properties, such as the packet transmission rate and/or the packet format, and subsequently transmitting 405 mirror service packets according to the changed mirror service properties (second mirror service properties). If the change criterion is not fulfilled in step 403, mirror service packets are transmitted according to the unchanged mirror service properties of step 401.
  • the mirror service properties such as the packet transmission rate and/or the packet format
  • hearing devices and methods according to any of the following items.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Physics & Mathematics (AREA)
  • Acoustics & Sound (AREA)
  • Signal Processing (AREA)
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Abstract

Disclosed is a method and a hearing device comprising a processing unit, a wireless transceiver connected to the processing unit, and a receiver connected to the processing unit for converting an output signal into an audio output signal, wherein the hearing device is configured to perform mirror service between the hearing device and another hearing device according to mirror service properties, wherein the mirror service comprises transmitting mirror service packets with a packet format at a packet transmission rate; the mirror service packet comprising one or more hearing device operating parameters including a first hearing device operating parameter, wherein the processing unit is configured to obtain the first hearing device operating parameter, determine if a change criterion is fulfilled, wherein the change criterion is based on the first hearing device operating parameter, and change the mirror service properties, if the change criterion is fulfilled.

Description

  • The present disclosure relates to a hearing device configured for wireless communication with another hearing device. In particular, the hearing device is configured to perform mirror service between the hearing device and another hearing device. The hearing device comprises a processing unit; a wireless transceiver connected to the processing unit; and a receiver connected to the processing unit for converting an output signal into an audio output signal.
  • BACKGROUND
  • Wireless communication between binaural hearing devices has increased with the developments within wireless technologies and user demands for increasingly advanced hearing devices. A hearing device has limited power resources given the demand for small hearing aids and the limited battery capacity of a hearing device battery.
  • Wireless communication requires a lot of power compared to the capacity of a hearing device battery.
  • SUMMARY
  • Accordingly, there is a need for power efficient transmission schemes in hearing devices. In particular, there is a need for reliable and power efficient communication between wirelessly connected binaural hearing devices.
  • Disclosed is a hearing device comprising a processing unit, a wireless transceiver connected to the processing unit, and a receiver connected to the processing unit for converting an output signal into an audio output signal. The hearing device is configured to perform mirror service between the hearing device and another hearing device according to mirror service properties. The mirror service comprises transmitting and/or receiving mirror service packets according to one or more mirror service properties, e.g. with a packet format at a packet transmission rate. At least one of the mirror service packets comprises one or more hearing device operating parameters, e.g. including a first hearing device operating parameter. The processing unit is configured to obtain hearing device operating parameter(s), such as the first hearing device operating parameter and/or a second hearing device operating parameter. The processing unit may be configured to determine if a change criterion is fulfilled. The change criterion may be based on one or more hearing device operating parameters, such as the first hearing device operating parameter and/or the second hearing device operating parameter. The processing unit is configured to change or adapt a mirror service property, e.g. if the change criterion is fulfilled. The mirror service property may comprise a packet transmission rate and/or a packet format.
  • Also disclosed is a method of performing mirror service between a first hearing device and a second hearing device. The method comprises transmitting and/or receiving mirror service packets according to one or more mirror service properties, e.g. with a packet format at a packet transmission rate, at least one mirror service packet comprising one or more hearing device operating parameters, e.g. including a first hearing device operating parameter; and obtaining the first hearing device operating parameter. The method optionally comprises determining if a change criterion is fulfilled, e.g. wherein the change criterion is based on one or more hearing device operating parameters, such as the first hearing device operating parameter and/or a second hearing device operating parameter; and changing the mirror service properties, e.g. if the change criterion is fulfilled. The mirror service properties may comprise a packet transmission rate and/or packet format. The method optionally comprises transmitting and/or receiving mirror service packets according to the changed mirror service property.
  • Further, a binaural hearing device system is disclosed. The binaural hearing device system comprises a first and a second hearing device, wherein the first and/or second hearing device is a hearing device presented in the present disclosure.
  • A hearing device with one or more adaptive mirror service properties as disclosed herein enables power efficient communication between hearing devices and optimized or at least improved use of the limited power in the hearing device. At the same time, a sufficient signalling quality may be maintained, e.g. in order not to loose mirror service connection between two hearing devices. Thus, the hearing device as disclosed provides reduced risk of loosing connectivity between two hearing devices in a binaural hearing device system.
  • BRIEF DESCRIPTION OF THE DRAWINGS
  • The above and other features and advantages will become readily apparent to those skilled in the art by the following detailed description of exemplary embodiments thereof with reference to the attached drawings, in which:
  • Fig. 1
    schematically illustrates an exemplary hearing device
    Fig. 2
    schematically illustrates an exemplary mirror service between a hearing device and another hearing device,
    Fig. 3
    schematically illustrates exemplary mirror service packets,
    Fig. 4
    schematically illustrates an exemplary flow chart of a method of performing mirror service between two hearing devices.
    DETAILED DESCRIPTION
  • Various embodiments are described hereinafter with reference to the figures. Like reference numerals refer to like elements throughout. Like elements will, thus, not be described in detail with respect to the description of each figure. It should also be noted that the figures are only intended to facilitate the description of the embodiments. They are not intended as an exhaustive description of the claimed invention or as a limitation on the scope of the claimed invention. In addition, an illustrated embodiment needs not have all the aspects or advantages shown. An aspect or an advantage described in conjunction with a particular embodiment is not necessarily limited to that embodiment and can be practiced in any other embodiments even if not so illustrated, or if not so explicitly described.
  • Throughout, the same reference numerals are used for identical or corresponding parts.
  • The hearing device is configured to perform mirror service between the hearing device and another hearing device. A mirror service is a transmission or communication channel in the wireless transmission between a first hearing device and a second hearing device of a binaural hearing system. The mirror service comprises transmitting mirror service packets with a packet format at a packet transmission rate between two hearing devices. A mirror service packet may comprise one or more hearing device operating parameters, e.g. including a first hearing device operating parameter and/or a second hearing device operating parameter of the hearing device transmitting the mirror service packet. By means of the mirror service functionality, the first hearing device is informed about operating parameter(s) of the second hearing device and vice versa. Thereby, each of the two hearing devices are updated on and can adapt to the operating parameter(s) of the other hearing device. The mirror service may comprise ear-to-ear data service.
  • The hearing device may be a hearing aid, e.g. the processing unit may be configured for hearing loss compensation of a user's hearing loss.
  • The processing unit may be configured to determine if a change criterion is fulfilled. The change criterion may comprise one or more subcriteria, such as a first subcriterion and/or a second sub-criterion. The change criterion may be fulfilled if one or more subcriteria are fulfilled. For example, fulfillment of a first sub-criterion may be indicative of a possible reduction in the packet transmission rate. For example, fulfillment of a second sub-criterion may be indicative of a desired increase in the packet transmission rate, e.g. due to reduced signal quality. The processing unit may be configured to apply different sub-criteria of the change criterion depending on current mode of the hearing device and/or depending on current mirror service properties.
  • When the change criterion is fulfilled, one or more mirror service properties are changed. One or more mirror service properties may change when there are changes in one or more operating parameters, i.e. the change criterion may be fulfilled if a change in one or more of the operating parameters is determined/detected. The change criterion or a sub-criterion thereof may be based on the environment and/or settings of the hearing device and/or mode of the hearing device. The change criterion may be fulfilled when the hearing device operating parameters, e.g. data, between the two hearing devices changes from being stable, or there is no or only little change in the data, or the data is the same to that the data is not stable, or there are changes in the data. The change criterion may be fulfilled if the interface has been activated and/or if a mode shift has occurred.
  • By optimizing the mirror service and mirror service property or properties for communication between the hearing devices, power can be saved. Reducing the frequency with which mirror service is performed may save a lot of power or energy of the hearing device battery. Reducing the data size of the mirror service performed between the hearing device may also save some power or energy of the battery. At the same time an increase in packet transmission rate may ensure that the mirror service connection is not lost, which would require undesired reestablishment of the mirror service.
  • The hearing device and the other hearing device may have been paired, e.g. by pairing the identification or ID of the hearing device with the identification or ID of the other hearing device, before audio streaming is performed, and/or before transmission of data between the hearing devices is performed, and/or before the mirror service between the two hearing devices is performed.
  • The processing unit may be configured to change one or more mirror service properties by changing the packet transmission rate from a first packet transmission rate to a second packet transmission rate. The packet transmission rate may be denoted a first mirror service property.
  • The first packet transmission rate may be larger than the second packet transmission rate, e.g. corresponding to the first mode (with first packet transmission rate) being an active or normal mode of the mirror service, and the second mode (with second packet transmission rate) being an idle mode, or inactive mode or sleep mode of the mirror service. The processing unit may be configured to change the packet transmission rate from a first packet transmission rate to a second packet transmission rate and/or vice versa when a default time period has passed without fulfillment of the change criterion, e.g. without any changes in one or more hearing device operating parameters. Alternatively or in combination, a subcriterion of the change criterion may comprise determining if a default time has passed without changes in one or more hearing device operating parameters. Thereby automatic switching to inactive mode is provided for.
  • The first packet transmission rate may for example be in the range from 5 packets/s to 20 packets/s, such as between 10 packets/s and 15 packets/s. Exemplary first packet transmission rates may be about 12.5 packets/s (corresponding to a time period of 80 ms between consecutive mirror service packets) or about 13.5 packets/s (corresponding to a time period of 74 ms between consecutive mirror service packets). The first packet transmission rate may correspond to a first mode, such as a normal mode or active mode of the mirror service transmission.
  • The second packet transmission rate may for example be in the range from 0.1 packets/s to 4 packets/s, such as between 0.3 packets/s and 2 packets/s. Exemplary second packet transmission rates may be about 0.5 packets/s (corresponding to a time period of 2 s between consecutive mirror service packets) or about 1 packets/s (corresponding to a time period of 1 s between consecutive mirror service packets). The second packet transmission rate may correspond to a second mode, such as an idle mode, or inactive mode or sleep mode of the mirror service. The second packet transmission rate may be used when there is no or only rare changes in the packet format or content of the transmitted packets, such that the mirror service transmission sends data less often, when the data does not change much.
  • The second packet transmission rate may be larger than the first packet transmission rate. This may correspond to changing the mode of the mirror service from a first mode being inactive/ idle/sleep mode to a second mode being active/normal mode. In such case or in general, the first packet transmission rate may for example be in the range from 0.1 packets/s to 4 packets/s, such as between 0.3 packets/s and 2 packets/s. Exemplary first packet transmission rates may be about 0.5 packets/s (corresponding to a time period of 2 s between consecutive mirror service packets) or about 1 packets/s (corresponding to a time period of 1 s between consecutive mirror service packets). The first packet transmission rate may correspond to a first mode, such as an idle mode, or inactive mode or sleep mode of the mirror service. The first packet transmission rate may be used when there is no or only rare changes in the packet format or content of the transmitted packets, such that the mirror service transmission sends data less often, when the data does not change much. In such case or in general, the second packet transmission rate may for example be in the range from 5 packets/s to 20 packets/s, such as between 10 packets/s and 15 packets/s. Exemplary second packet transmission rates may be about 12.5 packets/s (corresponding to a time period of 80 ms between consecutive mirror service packets) or about 13.5 packets/s (corresponding to a time period of 74 ms between consecutive mirror service packets). The second packet transmission rate may correspond to a second mode, such as a normal mode or active mode of the mirror service transmission.
  • The first hearing device operating parameter may be indicative of one or more of user interface activation, mode shift, and/or processing parameter(s) of the hearing device. The first hearing device operating parameter may be indicative of hearing device identifier or other identifier that enables the other hearing device to maintain a mirror service connection. The second and/or a third hearing device operating parameter may be indicative of one or more of user interface activation, mode shift, and/or processing parameter(s) of the hearing device. User interface activation may comprise the user pushing a button on the hearing device, the user changing the volume control on the hearing device, the user actively or physically changing the mode of the hearing device, or the user changing anything on the hearing device which is user controlled. Mode shift of the hearing device may include that the hearing device automatically changes the hearing device mode, for example when the user moves from a noisy environment to a quiet environment. Hearing device mode shift may include that the user changes the mode, for example when the user moves from one type of environment to another type of environment. Processing parameters may comprise algorithmic parameters, automatic mode shift etc.
  • The processing parameter(s) of the hearing device may comprise one or more of environment identifier; noise reduction parameter; compressor parameter; signal generator control; and/or auto phone detector. The environment identifier may be output from an environment classifier of the hearing device. The noise reduction parameter may comprise fine tuning, filter coefficients etc. The compressor parameter may be indicative of a gain, such as a gain selected for the specific hearing compensation of the user of the hearing device. The signal generator control may comprise tinnitus sound generation (TSG) for tinnitus relief. The signal generator may comprise noise and/or feedback cancellation, occlusion cancellation etc.
  • The one or more hearing device operating parameters may comprise a mirror service identifier or indicator, e.g. as a part of the mirror service packets and/or in audio packet(s) of an audio stream received with the transceiver. A mirror service identifier may indicate current and/or future mirror service property or properties. The audio stream may be an ear-to-ear (E2E) audio stream, thus a mirror service indicator or flag may be present in the ear-to-ear audio stream in addition to the audio data. The mirror service indicator or flag may be a 1 bit data. Thus, the mirror service may utilize this channel to indicate which mirror mode the respective hearing device should use.
  • The audio stream may be a transmission between the two hearing devices, e.g. via an accessory device such as a smart phone, a mobile phone, a computer, a tablet etc. The audio stream may be transmitted wirelessly by 2.4 gigahertz Bluetooth connectivity between the two hearing devices, i.e. the binaural hearing devices, or between one or both hearing devices and an accessory device, such as a smart phone. The hearing devices may stream directly via the Bluetooth connectivity, or through a secondary streaming device, such as a neck- or pocket-worn streaming device, whereby this Bluetooth enabled secondary streaming device then streams wirelessly to the hearing device, and this may then be limited to work only over a short distance.
  • The processing unit may be configured to change the mirror service property by changing the packet format from a first packet format to a second packet format, e.g. different from the first packet format. The packet format may be determined or defined by its size and/or configuration. The packet format may be denoted a first mirror service property or a second mirror service property. The packet format may comprise a size and/or content of packet. A packet may comprise one or more fields or segments including a first field and/or a second field. The packet format may comprise a size identifier and/or a packet format identifier. For example a first field in the packet may comprise a header, where the header may comprise an identifier, e.g. an identifier of the hearing device and/or of the other hearing device. The header may comprise a time stamp and/or packet size. A second field of the packet may comprise a packet format identifier, e.g. indicative of the packet type and/or content of the packet, and/or a size identifier. A third field of the packet may comprise a time stamp and/or data of one or more hearing device operating parameters. Dynamically changing the packet format facilitates tailoring or selection of packets, such that redundant information is not sent between the hearing devices in turn reducing the amount of transmitted data thereby optimizing power consumption.
  • The first hearing device operating parameter may be a processing parameter of the hearing device, such as a compressor gain, and to determine if the change criterion is fulfilled may comprise determining whether a change in the processing parameter of the hearing device is larger than a change threshold. Thus the change criterion or a subcriterion thereof may be fulfilled if one or more processing parameters changes significantly.
  • The first hearing device operating parameter may be a parameter indicative of user interface activation, such as push button activation, and to determine if the change criterion is fulfilled may comprise determining whether the user interface has been activated, i.e. the change criterion is fulfilled if the user interface has been activated.
  • A second hearing device operating parameter may be a parameter indicative of mode shift in the hearing device, and to determine if the change criterion is fulfilled may comprise determining whether a mode shift has occurred in the hearing device, i.e. the change criterion is fulfilled if a mode shift has occurred.
  • Fig. 1 schematically illustrates an exemplary hearing device 2 with dynamic mirror service as disclosed herein. The hearing device 2 comprises a processing unit 4, a wireless transceiver 6 connected to the processing unit 4, and a receiver 8 connected to the processing unit 4 for converting an output signal into an audio output signal. The wireless transceiver 6 may be part of a user interface, and optionally the hearing device comprises a push button or volume control 9 allowing a user to control operation of the hearing device 2. The hearing device 2 is configured to perform mirror service 10 between the hearing device 2 and another hearing device 14 according to mirror service properties. The hearing device 2 optionally comprises a signal generator 11 and/or an environment classifier 12. The signal generator 11 and/or the environment classifier 12 may form a part of the processing unit 4. The hearing device 2 and the other hearing device 14 may be a first and a second hearing device, respectively, in a binaural hearing device system. The mirror service 10 comprises transmitting mirror service packets with respective packet format at a packet transmission rate. The processing unit 4 is configured to obtain at least the first hearing device operating parameter, e.g. indicative of one or more of user interface activation, mode shift, environment conditions, and/or processing parameter(s) of the hearing device. Based on the first hearing device operating parameter and/or further hearing device operating parameters such as a second hearing device operating parameter, the processing unit 4 is configured to determine if a change criterion is fulfilled. If the change criterion is fulfilled, the processing unit is configured to change the mirror service properties by changing the packet format from a first packet format to a second packet format, and/or changing the packet transmission rate from a first packet transmission rate, e.g. in the range from 0.4 packets/s to 1.1 packets/s, to a second packet transmission rate, e.g. of 12.5 packets/s or about 13.5 packets/s.
  • Fig. 2 schematically illustrates an exemplary mirror service 10 between a hearing device 2 and another hearing device 14. The hearing device 2 transmits (ref 16) mirror service packets 18 at a first packet transmission rate to the other (second) hearing device 14 in a first mode of the mirror service. Then, the processing unit determines that the change criterion is fulfilled, e.g. by a user activating the user interface 9 in the hearing device 2, hearing device operating mode is changed (automatically or invoked by a user), and/or the environment changes (thereby changing the transmission conditions). The processing unit 4 changes the mirror service properties by changing the packet transmission rate from the first packet transmission rate to a second packet transmission rate different from the first packet transmission rate, e.g. larger than the first packet transmission rate if the mirror service must go from sleep mode to active mode and/or if the transmission conditions have worsened. The processing unit 4 changes from the first packet transmission rate to a second packet transmission rate less than the first packet transmission rate, e.g. if evaluation of the change criterion indicates that the mirror service can go from active mode to sleep mode and/or if the transmission conditions have improved. Optionally, the hearing device 2 and the other hearing device 14 exchange audio streams 26 via a separate audio channel.
  • Fig. 3 schematically illustrates an exemplary mirror service packet 18 with a first packet format and an exemplary mirror service packet 18' with a second mirror service packet format. The mirror service packet 18 has a first field 22 being a header field comprising hearing device identifier indicative of the hearing device transmitting the packet 18. A second field 24 of the packet 18 comprises a packet format identifier indicative of the packet type and content of the packet. Further, a third field 26 of the packet 18 comprises data of one or more hearing device operating parameters to be mirrored to the other hearing device 14. For example, a mirror service may be configured to use a plurality of different and predefined packet types. For example, the first packet format as illustrated in Fig. 3 may be used for mirroring changes in operating mode of the hearing device 2. Thus, the packet format identifier in the second field 24 is set to a value (e.g. 1) indicative of mirroring of mode shift, and the third field 26 indicates the actual operating mode of the hearing device, e.g. first mode (third field =1), second mode (third field =2), etc.. The mirror service packet 18' has a second packet format different from the first packet format in size and/or field configuration. The mirror service packet 18' has a first field 22 being a header field comprising hearing device identifier indicative of the hearing device transmitting the packet 18, a second field 24, a third field 26 and a fourth field 28. The second field 24 of the packet 18' comprises a packet format identifier indicative of the packet type and content of the packet. Further, a third field 26 and fourth field 28 of the packet 18' comprises data of one or more hearing device operating parameters to be mirrored to the other hearing device 14. For example, the second packet format as illustrated in Fig. 3 may be used for mirroring changes in volume of the hearing device 2. Thus, the packet format identifier in the second field 24 of mirror service packet 18' may be set to a value (e.g. 2) indicative of user interface activation, and the third field 26 indicates that the user has adjusted volume. Further, the fourth field 28 contains data on a hearing device operating parameter, namely the actual volume gain applied in the hearing device as a result of the user interface activation.
  • Fig. 4 schematically illustrates an exemplary flow chart of a method of performing mirror service between a first hearing device and a second hearing device. The method 400 comprises transmitting 401 mirror service packets according to mirror service properties (first mirror service properties) with a packet format at a packet transmission rate. The mirror service packet comprises one or more hearing device operating parameters including a first hearing device operating parameter. The method 400 may be performed with a hearing device as disclosed herein and comprises obtaining 402 the first hearing device operating parameter, e.g. with the processing unit 4. The method 400 then proceeds to determining 403 if a change criterion is fulfilled. The change criterion is based at least on the first hearing device operating parameter. If the change criterion is fulfilled, the method proceeds to changing 404 the mirror service properties, such as the packet transmission rate and/or the packet format, and subsequently transmitting 405 mirror service packets according to the changed mirror service properties (second mirror service properties). If the change criterion is not fulfilled in step 403, mirror service packets are transmitted according to the unchanged mirror service properties of step 401.
  • Also disclosed are hearing devices and methods according to any of the following items.
    • Item 1. A hearing device comprising:
      • a processing unit;
      • a wireless transceiver connected to the processing unit; and
      • a receiver connected to the processing unit for converting an output signal into an audio output signal;
      wherein the hearing device is configured to perform mirror service between the hearing device and another hearing device according to a mirror service property, wherein the mirror service comprises transmitting mirror service packets with a packet format at a packet transmission rate, at least one of the mirror service packets comprising one or more hearing device operating parameters including a first hearing device operating parameter, wherein the processing unit is configured to:
      • obtain the first hearing device operating parameter;
      • determine if a change criterion is fulfilled, wherein the change criterion is based on the first hearing device operating parameter; and
      • change the mirror service property, if the change criterion is fulfilled.
    • Item 2. The hearing device according to item 1, wherein the mirror service property comprises a packet transmission rate and/or a packet format.
    • Item 3. The hearing device according to item 2, wherein the processing unit is configured to change the mirror service property by changing the packet transmission rate from a first packet transmission rate to a second packet transmission rate.
    • Item 4. The hearing device according to item 3, wherein the first packet transmission rate is larger than the second packet transmission rate.
    • Item 5. The hearing device according to item 3, wherein the second packet transmission rate is larger than the first packet transmission rate.
    • Item 6. The hearing device according to item 2, wherein the processing unit is configured to change the mirror service property by changing the packet format from a first packet format to a second packet format.
    • Item 7. The hearing device according to any of items 1-6, wherein the first hearing device operating parameter is indicative of a user interface activation, a mode shift, processing parameter(s) of the hearing device, or any combination of the foregoing.
    • Item 8. The hearing device according to item 7, wherein the processing parameter(s) of the hearing device comprises an environment identifier, a noise reduction parameter, a compressor parameter, a signal generator control, an auto phone detector, or any combination of the foregoing.
    • Item 9. The hearing device according to any of items 1-8, wherein the one or more hearing device operating parameters comprises a mirror service identifier.
    • Item 10. The hearing device according to any of items 1-9, wherein the first hearing device operating parameter comprises a processing parameter of the hearing device; and
      wherein the processing unit is configured to determine if the change criterion is fulfilled by determining whether a change in the processing parameter of the hearing device is larger than a threshold.
    • Item 11. A method of performing mirror service between a first hearing device and a second hearing device, the method comprising:
      • transmitting mirror service packets according to a mirror service property with a packet format at a packet transmission rate, at least one of the mirror service packets comprising one or more hearing device operating parameters including a first hearing device operating parameter;
      • obtaining the first hearing device operating parameter;
      • determining if a change criterion is fulfilled, wherein the change criterion is based on the first hearing device operating parameter;
      • changing the mirror service property, if the change criterion is fulfilled; and
      • transmitting additional mirror service packets according to the changed mirror service property.
    • Item 12. The method according to item 11, wherein the act of changing the mirror service property comprises changing a packet transmission rate and/or a packet format
    • Item 13. A binaural hearing device system comprising the hearing device according to any of items 1-10, and an additional hearing device.
  • Although particular features have been shown and described, it will be understood that they are not intended to limit the claimed invention, and it will be made obvious to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the claimed invention. The specification and drawings are, accordingly to be regarded in an illustrative rather than restrictive sense. The claimed invention is intended to cover all alternatives, modifications and equivalents.
  • LIST OF REFERENCES
  • 2
    hearing device
    4
    processing unit
    6
    wireless transceiver
    8
    receiver
    9
    push button/volume control
    10
    mirror service
    14
    another hearing device
    16
    transmission of mirror service packets
    18
    mirror service packet with first packet format
    18'
    mirror service packet with second packet format
    20
    audio stream
    22
    first field
    24
    second field
    26
    third field
    28
    fourth field
    400
    method of performing mirror service
    401
    transmitting mirror service packets
    402
    obtaining the first hearing device operating parameter
    403
    determining if a change criterion is fulfilled
    404
    changing the mirror service properties
    405
    transmitting mirror service packets

Claims (13)

  1. A hearing device comprising:
    - a processing unit;
    - a wireless transceiver connected to the processing unit; and
    - a receiver connected to the processing unit for converting an output signal into an audio output signal;
    wherein the hearing device is configured to perform mirror service between the hearing device and another hearing device according to one or more mirror service properties, wherein the mirror service comprises transmitting mirror service packets with a packet format at a packet transmission rate; at least one of the mirror service packets comprising one or more hearing device operating parameters including a first hearing device operating parameter, wherein the processing unit is configured to:
    - obtain the first hearing device operating parameter;
    - determine if a change criterion is fulfilled, wherein the change criterion is based on the first hearing device operating parameter; and
    - change a mirror service property, if the change criterion is fulfilled.
  2. Hearing device according to claim 1, wherein the mirror service property comprises a packet transmission rate and/or packet format.
  3. Hearing device according to claim 2, wherein the processing unit is configured to change the mirror service property by changing the packet transmission rate from a first packet transmission rate to a second packet transmission rate.
  4. Hearing device according to claim 3, wherein the first packet transmission rate is larger than the second packet transmission rate.
  5. Hearing device according to claim 3, wherein the second packet transmission rate is larger than the first packet transmission rate.
  6. Hearing device according to any of the preceding claims, wherein the first hearing device operating parameter is indicative of one or more of a user interface activation, a mode shift, and/or processing parameter(s) of the hearing device.
  7. Hearing device according to claim 6, wherein the processing parameter(s) of the hearing device comprises one or more of:
    - environment identifier;
    - noise reduction parameter;
    - compressor parameter;
    - signal generator control; and
    - auto phone detector.
  8. Hearing device according to any of the preceding claims, wherein the one or more hearing device operating parameters comprises a mirror service identifier.
  9. Hearing device according to any of the preceding claims as dependent on claim 2, wherein the processing unit is configured to change the mirror service property by changing the packet format from a first packet format to a second packet format.
  10. Hearing device according to any of the preceding claims, wherein the first hearing device operating parameter comprises a processing parameter of the hearing device; and wherein processing unit is configured to determine if the change criterion is fulfilled by determining whether a change in the processing parameter of the hearing device is larger than a change threshold.
  11. A method of performing mirror service between a first hearing device and a second hearing device, the method comprising:
    - transmitting mirror service packets according to one or more mirror service properties with a packet format at a packet transmission rate, at least one of the mirror service packets comprising one or more hearing device operating parameters including a first hearing device operating parameter;
    - obtaining the first hearing device operating parameter;
    - determining if a change criterion is fulfilled, wherein the change criterion is based on the first hearing device operating parameter;
    - changing a mirror service property, if the change criterion is fulfilled; and
    - transmitting mirror service packets according to the changed mirror service property.
  12. Method according to claim 11, wherein the act of changing the mirror service properties comprises changing a packet transmission rate and/or packet format
  13. A binaural hearing device system comprising a first and a second hearing device, wherein the first and/or second hearing device is a hearing device according to any of claims 1-10.
EP14196520.2A 2014-12-05 2014-12-05 Hearing device with dynamic mirror service and related method Active EP3029956B1 (en)

Priority Applications (7)

Application Number Priority Date Filing Date Title
DK14196520.2T DK3029956T3 (en) 2014-12-05 2014-12-05 Hearing aid with dynamic mirror service and associated procedure
EP14196520.2A EP3029956B1 (en) 2014-12-05 2014-12-05 Hearing device with dynamic mirror service and related method
DK19153413.0T DK3496421T3 (en) 2014-12-05 2014-12-05 HEARING DEVICE WITH DYNAMIC MIRROR SERVICE AND ASSOCIATED METHOD
EP19153413.0A EP3496421B1 (en) 2014-12-05 2014-12-05 Hearing device with dynamic mirror service and related method
US14/568,095 US9930457B2 (en) 2014-12-05 2014-12-11 Hearing device with dynamic mirror service and related method
JP2015235854A JP6517135B2 (en) 2014-12-05 2015-12-02 Hearing aid apparatus for providing dynamic mirror service and related method
CN201510880758.3A CN105681992B (en) 2014-12-05 2015-12-03 Hearing device and correlation technique with dynamic mirror service

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP14196520.2A EP3029956B1 (en) 2014-12-05 2014-12-05 Hearing device with dynamic mirror service and related method

Related Child Applications (1)

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EP19153413.0A Division EP3496421B1 (en) 2014-12-05 2014-12-05 Hearing device with dynamic mirror service and related method

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EP3029956A1 true EP3029956A1 (en) 2016-06-08
EP3029956B1 EP3029956B1 (en) 2019-02-06

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EP19153413.0A Active EP3496421B1 (en) 2014-12-05 2014-12-05 Hearing device with dynamic mirror service and related method

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2007039320A2 (en) * 2006-12-20 2007-04-12 Phonak Ag Hearing assistance system and method of operating the same
WO2009153718A1 (en) * 2008-06-17 2009-12-23 Koninklijke Philips Electronics N.V. Earphone arrangement and method of operation therefor
US20130308804A1 (en) * 2012-05-15 2013-11-21 Cochlear Limited Adaptive Data Rate for a Bilateral Hearing Prosthesis System

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2007039320A2 (en) * 2006-12-20 2007-04-12 Phonak Ag Hearing assistance system and method of operating the same
WO2009153718A1 (en) * 2008-06-17 2009-12-23 Koninklijke Philips Electronics N.V. Earphone arrangement and method of operation therefor
US20130308804A1 (en) * 2012-05-15 2013-11-21 Cochlear Limited Adaptive Data Rate for a Bilateral Hearing Prosthesis System

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EP3496421A1 (en) 2019-06-12
DK3496421T3 (en) 2021-12-13
DK3029956T3 (en) 2019-05-13
EP3029956B1 (en) 2019-02-06
EP3496421B1 (en) 2021-09-29

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