1. Field of the Invention
The present invention relates to hearing aid systems. The invention more specifically relates to hearing aid systems, comprising a hearing aid and an external device, adapted for logging of hearing aid data and sound. The invention also relates to a method of fitting a hearing aid.
In the context of the present disclosure, a hearing aid should be understood as a small, battery-powered, microelectronic device designed to be worn behind or in the human ear by a hearing-impaired user. Prior to use, the hearing aid is adjusted by a hearing aid fitter according to a prescription. The prescription is based on a hearing test, resulting in a so-called audiogram, of the performance of the hearing-impaired user's unaided hearing. The prescription is developed to reach a setting where the hearing aid will alleviate a hearing loss by amplifying sound at frequencies in those parts of the audible frequency range where the user suffers a hearing deficit. A hearing aid comprises one or more microphones, a battery, a microelectronic circuit comprising a signal processor, and an acoustic output transducer. The signal processor is preferably a digital signal processor. The hearing aid is enclosed in a casing suitable for fitting behind or in a human ear.
As the name suggests, Behind-The-Ear (BTE) hearing aids are worn behind the ear. To be more precise an electronics unit comprising a housing containing the major electronics parts thereof is worn behind the ear. An earpiece for emitting sound to the hearing aid user is worn in the ear, e.g. in the concha or the ear canal. In a traditional BTE hearing aid, a sound tube is used because the output transducer, which in hearing aid terminology is normally referred to as the receiver, is located in the housing of the electronics unit. In some modern types of hearing aids a conducting member comprising electrical conductors is used, because the receiver is placed in the earpiece in the ear. Such hearing aids are commonly referred to as Receiver-In-The-Ear (RITE) hearing aids. In a specific type of RITE hearing aids the receiver is placed inside the ear canal. This is known as Receiver-In-Canal (RIC) hearing aids.
In-The-Ear (ITE) hearing aids are designed for arrangement in the ear, normally in the funnel-shaped outer part of the ear canal. This type of hearing aid requires a very compact design in order to allow it to be arranged in the ear canal, and to house the components necessary for operation of the hearing aid, such as microphones, a battery, a microelectronic circuit comprising a signal processor, and an acoustic output transducer.
In the context of the present disclosure, an external device should be understood as a small battery-powered microelectronic device adapted for facilitating interaction with the hearing aid.
2. The Prior Art
U.S. Pat. No. 4,972,487 discloses a hearing device that has a memory unit in which a multitude of data can be recorded.
U.S. Pat. No. 5,202,927 discloses a hearing aid system with an external device having a microphone for recording sound for subsequent analysis and evaluation by a circuit in the external device. Hereby a set of optimized control parameters corresponding to the recorded audio signal can be selected.
US-A1-2004/0190739 discloses a hearing aid having an external memory due to the limited memory size of the memory unit provided in the hearing device. It is described that acoustical signals recorded by the hearing aid microphone can be logged and stored either in the external or internal memory. It is claimed that recording of acoustical data is only possible in an external memory, due to the limited size of the internal memory and the energy supply required for maintaining a permanent recording in the hearing aid.
EP-A1-1367857 discloses a method of logging or recording input signal data of a hearing prosthesis in combination with values of one or several variables associated with the hearing prosthesis. The hearing prosthesis variable(s) may comprise logic states of a single or several user-controllable actuator(s) mounted on the prosthesis and/or values of algorithm parameters of a predetermined digital signal processing algorithm executed in the prosthesis. Hereby, error tracking and performance optimization are facilitated since anomalous or sub-optimal operating conditions of signal processing algorithms and/or user interface control handling or other undesired events may be detected. By recording both the hearing prosthesis variable or variables and the input signal data, it is e.g. possible to identify and track correlations between one or several predetermined signal events in the input signal data and effects to the operation of the hearing prosthesis derived there from.
EP-B1-1256258 discloses a method for fitting a hearing aid to the needs of a hearing aid user, the method comprising collecting statistical data characterizing physical or psychological properties of environments in which use of the hearing aid is desired and utilizing the statistical values for the adjustment of the signal processing in the hearing aid.
WO-A1-2007112737 discloses a method for use in the fitting of a hearing aid comprising the steps of providing a sound recording of a user environment, feeding the sound recording to the hearing aid as a sound input signal, processing the sound input signal according to a scheme defined by preselected settings of a number of parameters so as to provide a processed signal, adjusting the setting of at least one parameter, performing a statistical analysis of the magnitude of the processed signal or of the input signal in at least one frequency band, which statistical analysis is reset when a parameter is adjusted during the fitting, and displaying a graphical representation of the results of said statistical analysis.
One problem with the above mentioned systems and methods is that they require significantly increased hearing aid power consumption and a more bulky hearing aid design in order to provide hearing aid based sound recordings.
It is therefore a feature of the present invention to provide a hearing aid system with improved means for recording of audio samples and logging of corresponding hearing aid variables, hereby providing a hearing aid system with improved means for performance optimization without requiring a bulky design or excessive hearing aid power consumption.
Another problem with the above mentioned systems and methods is that the logged data and recorded audio sample are not presented to the hearing aid fitter in a meaningful manner.
It is therefore another feature of the present invention to provide an improved method of fitting a hearing aid system based on providing a recorded audio sample and corresponding logged hearing aid variables to a hearing aid fitting system and presenting these data to the hearing aid fitter.
The invention, in a first aspect, provides a hearing aid system comprising a hearing aid and an external device; wherein the hearing aid comprises hearing aid link means for providing a wireless link with the external device, hearing aid memory means configured for holding a first hearing aid variable, and hearing aid signal processing means configured for initiating the logging of the first hearing aid variable in response to a trigger signal transmitted from the external device; and wherein the external device comprises external device link means for providing the wireless link with the hearing aid, an external device acoustical-electrical input transducer for providing an electrical audio signal, external device memory means configured for holding a recording of an audio sample of the electrical audio signal, user input means and external device signal processing means configured for initiating the recording of the audio sample and for initiating the transmission of the trigger signal to the hearing aid in response to an activation of the user input means hereby providing time synchronization between the external device and the hearing aid and ensuring that the audio sample and the first hearing aid variable can be grouped together.
This provides a hearing aid system with improved means for recording of audio samples and logging of hearing aid variables
The invention, in a second aspect, provides a method of fitting a hearing aid system comprising the steps of providing a hearing aid fitting system and a hearing aid system, said hearing aid system having a hearing aid and an external device; activating user input means accommodated in the external device of the hearing aid system; in response to the activation of the user input means recording an audio sample by an acoustical-electrical input transducer in the external device, and transmitting a trigger signal from the external device and to the hearing aid; logging a first hearing aid variable in the hearing aid in response to receiving the trigger signal from the external device, hereby providing a set of the first hearing aid variable; transmitting the audio sample from the external device and to the hearing aid fitting system; transmitting the set of the first hearing aid variable from the hearing aid and to the hearing aid fitting system; and using the hearing aid fitting system to play back the audio sample and to visually present, as a function of elapsed time, the first hearing aid variable, wherein the visual presentation and the play back of the audio sample are substantially synchronized in time.
This provides an improved method of fitting a hearing aid system based on presenting complex information to the hearing aid fitter in a comprehensible manner.
Further advantageous features appear from the dependent claims.
Still other features of the present invention will become apparent to those skilled in the art from the following description wherein the invention will be explained in greater detail.
By way of example, there is shown and described a preferred embodiment of this invention. As will be realized, the invention is capable of other embodiments, and its several details are capable of modification in various, obvious aspects all without departing from the invention. Accordingly, the drawings and descriptions will be regarded as illustrative in nature and not as restrictive. In the drawings:
It has been suggested within the art of hearing aid systems that it is beneficial to simultaneously record sound samples and log the corresponding hearing aid variables.
It has been suggested to store sound recordings in an external memory accommodated outside of the hearing aid. As one example it has been suggested to locate the external memory in a hearing aid system remote control.
Such systems suffer from the serious drawback that vast amounts of data comprising the recorded sound samples must be transferred from the hearing aid, where the input transducer, which picks up the sound to be recorded, is located and to the external device, where the external memory is accommodated. It is well known that wireless link means capable of transmitting such large data amounts are not easily accommodated in a normal sized hearing aid due to the requirements with respect to processing power, power consumption and component size.
Additionally it has been suggested to use a recording device for recording of sound, which can later be applied as input to a hearing aid during a hearing aid fitting in order to analyze how selected hearing aid variables respond to the recorded sound.
Such a method suffers from the drawback that the sound recording is not identical to the sound impinging on the hearing aid during the recording of the sound environment because of the different positions of the hearing aid microphones and the sound recording microphone, and it is therefore impossible to exactly mimic the hearing aid behavior that the hearing aid user has experienced in the recorded sound environment.
Another drawback is that the values of the hearing aid variables during the recording of the sound environment depend on the initial values of the hearing aid variables, i.e. the sound environment prior to the sound recording. These initial hearing aid values are unknown in case of a sound recording without corresponding logged hearing aid variables and it is therefore impossible to exactly mimic the hearing aid behavior that the hearing aid user has experienced in the recorded sound environment.
Reference is now made to
Reference is now made to
Generally it has been preferred, in the prior art, to avoid the use of an acoustical-electrical input transducer for the recording of an audio sample different from the acoustical-electrical input transducer of the hearing aid. However the inventors have found that the disadvantages of accommodating one acoustical-electrical input transducer in the hearing aid and accommodating another acoustical-electrical input transducer for recording the corresponding audio sample in the external device are by far outweighed by the advantages gained with respect to reduced hearing aid system complexity.
Reference is now made to
The input transducer picks up the prevailing acoustic environment. The signal processing means receives a signal from the input transducer and processes it to develop a signal for the output transducer, amplified according to the user's needs. During operation the processor may receive user inputs, e.g. selection of a program or adjustment of gain, and the processor may develop a range of parameters associated with the current or the past sound environment and with the behavior of the processor.
If a wearer of the hearing aid system activates the user input means 106 accommodated in the external device 101, the external device signal processing means 104, in response hereto, initiates the recording of a sample of the electrical audio signal from the external device acoustical-electrical input transducer 103 in the external device memory means 105, time stamps the recorded sample of the electrical audio signal with an external device stamping number using external device stamping means, attaches the external device stamping number to the trigger signal to be transmitted to the hearing aid 102, and transmits the trigger signal to the hearing aid 102 using the external device wireless link means 107. When the trigger signal is received in the hearing aid 102, the hearing aid signal processing means 110, in response hereto, initiates logging of the corresponding hearing aid variables in the hearing aid memory means 109 and time stamps the logged data with the external device stamping number using hearing aid stamping means.
According to the embodiment of
In a variation of the embodiment of
In another variation of the embodiment of
The logged hearing aid variables may include: the active hearing aid program, output from the hearing aid classifier, the output from the acoustical-electrical input transducer accommodated in the hearing aid, the overall gain applied in the hearing aid, and the contribution to the overall gain from e.g. noise reduction, speech intelligibility enhancement, feedback cancelling and beam forming.
According to the embodiment of
According to the embodiment of
Typically the hearing aid variables to be logged are selected by a hearing aid fitter during a fine tuning session. The wearer of the hearing aid system will try to describe situations where the hearing aid system performance can be improved and, based on this the fitter will select the variables to be logged and program the hearing aid system accordingly.
According to the embodiment of
Typically the wearer of the hearing aid system is instructed to activate the user input means and initiate the data logging and sound recording whenever the hearing aid wearer is in a situation where the user feels that the hearing aid system performance can be improved.
In a variation of the embodiment of
Reference is now made to
The inventive combination of a visual presentation of the logged hearing aid variables with an audio presentation of the corresponding recorded audio sample solves the problem of presenting the audio sample (i.e. the sound environment) to the hearing aid fitter in a manner that is both comprehensible and comprises sufficient details.
Hereby the hearing aid fitter is provided with a valuable tool that can help the hearing aid fitter improve the performance of the hearing aid system through a fine adjustment of the hearing aid settings.
In a variation of the embodiment of
Hereby the hearing aid fitter is provided with further improved means for comprehending the sound environment the hearing aid user has recorded, because the sound environment is presented in an audio-visual manner.
According to the embodiment of
In a variation of the embodiment of
According to the embodiment of
According to the embodiment of
The recorded sound sample and the logged hearing aid variables can be transmitted to the hearing aid fitting system using a variety of methods that are all well known within the art. According to the method embodiment of
Other modifications and variations of the structures and procedures will be evident to those skilled in the art.
The present application is a continuation-in-part of application PCT/EP2010/065326, filed on 13 Oct. 2010, in Europe, and published as WO2012048739 A1.
Number | Date | Country | |
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Parent | PCT/EP2010/065326 | Oct 2010 | US |
Child | 13796738 | US |