KR101232357B1 - The fitting method of hearing aids using modified sound source with parameters and hearing aids using the same - Google Patents

Abstract

The present invention provides a sound source receiver for receiving a sound source to which a fitting parameter is applied from a sound source generating device through a short range communication module or an audio input port, a parameter extractor for extracting a fitting parameter from a sound source to which the received fitting parameter is applied, and extracting the fitting parameter. And a fitting unit for fitting the hearing aid and a control unit for controlling the operation of the parameter extraction unit and the fitting unit to execute the hearing aid fitting when the hearing aid satisfies the sound source to which the fitting parameter received through the sound source receiver is applied. Provides a hearing aid to perform the fitting using the applied sound source.
According to the present invention, a hearing loss can be fitted by listening to a clean sound source through a wireless or wired line, rather than an unintentional echo generated when a sound source is input through a speaker, or a noise mixed according to the environment. As a result, hearing aid fittings suitable for hearing loss can be made.

Description

A fitting method for hearing aids using a parameterized sound source and a hearing aid using the method {THF FITTING METHOD OF HEARING AIDS USING MODIFIED SOUND SOURCE WITH PARAMETERS AND HEARING AIDS USING THE SAME}

The present invention relates to a hearing aid fitting method and a hearing aid using the method, and more particularly, to select a sound source that is hard to be heard by the person who is hearing impaired by receiving a sound source to which parameters are applied from a sound source generating device via wire or wireless. The present invention relates to a hearing aid fitting method using a parameterized sound source and a hearing aid using the method, in which a parameter is extracted from a sound source to which the parameter is applied and then applied to the hearing aid to fit the hearing aid.

Hearing, together with vision in social life, is an important cognitive means and an important means for obtaining information in the information society. However, as the industrialization progresses, the noise around the workplace or residence increases, so that the noise-induced hearing loss increases. However, the hearing loss as described above is progressing slowly except for some cases where the hearing is suddenly impaired. One of several types of hearing loss is sensorineural hearing loss, which is caused by the loss of hearing cells, so it is common to use hearing aids to correct hearing. Hearing aids are a type of amplification device worn on the ear to compensate for hearing loss. The principle of hearing aids is to take sound waves into microphones, convert them into electrical signals, fit them to the individual's hearing level, convert them to sound waves using receivers, and then deliver sound signals to the ears.

Here, the fitting of the hearing aid refers to a process of selecting an appropriate hearing aid according to the hearing loss of the hearing impaired person and correcting the amplification degree and the maximum output range of the hearing aid frequency band so that the hearing aid wearing the hearing aid can listen well. . In general, the fitting of hearing aid is conducted by hearing test at hearing aid dealer or hospital, and then fitting the hearing aid by setting the fitting value to hearing aid directly by the expert according to the degree of hearing.

1 is a block diagram illustrating a conventional hearing aid fitting method.

As shown in FIG. 1, a hearing loss person wearing a hearing aid 40 wears a hearing aid to which a parameter input from the fitting parameter input device 10 is applied through a process of obtaining a hearing aid fitting parameter determined according to hearing loss. The sound source generated from the 20 is heard through the speaker 30. If the deaf person hears the sound source and judges that the sound source is suitable for him, the deaf person displays a doctor to the examiner, and the inspector wears the hearing aid worn by the deaf person using the fitting parameter input device 10 to set the currently-fitted fitting parameter. It is the situation that fitting of.

In this case, when the sound source output to the speaker 30 is delivered to the hearing aid 40 using air as a medium, the hearing loss is input to the microphone of the hearing aid 40 to receive a sound source containing unintended echoes or environmental noises. To listen. Therefore, the hearing aid fitting is performed based on the mixed sound source, and thus there is a problem in that the correct hearing aid fitting for the hearing loss cannot be made.

On the other hand, fittings of hearing aids are made in the soundproof room so as not to add environmental noise to the sound source output through the speaker.Also, fittings of hearing aids reflecting the personal taste of the hearing impaired by the inspector are always made. There is a problem that cannot be done.

The necessity of a new fitting method needs to be examined from several points of view. There is communication between the hearing impaired and the examiner, the perspective of time, the perspective of personal taste, and the perspective of place.

First, the hearing impaired person is a non-expert who can not express the correct fit of the condition of the hearing aid, nor can the expert fitting the hearing aid clearly understand the intention of the hearing impaired person wearing the hearing aid. There is a problem. In addition, communication between the hearing loss and the examiner has difficulty in communication due to the condition of the hearing loss. If the hearing loss is accompanied by sensorineural hearing loss, communication differences occur depending on the state of the body. If the condition of the hearing loss is good, the communication is made smoothly, but if the condition of the hearing loss is not good communication has a disadvantage.

Secondly, in terms of time, it is difficult for one examiner to make a fitting process with sufficient time for one deaf person because the hearing aid is provided to counseling and fitting of many deaf people.

Third, in the case of personal preference, the deaf person must take the time to adjust the parameters directly. The deaf person needs time to figure out which frequency gain and sound is appropriate in a particular situation and apply it to the fitting.

Fourth, the fitting is performed in a general place from the viewpoint of the place, and the fitting is performed in a quiet place.

In order to compensate for the above disadvantages, the hearing impaired person needs to adjust his / her hearing aid's various parameters (adjustment at each frequency, gain at a low noise, normal sound, and loud noise) to fit the user's taste. It is important.

The present invention has been made to solve the above-described problems, an object of the present invention is to select a sound source that can be heard best by the person who is hearing impaired by receiving a sound source to which parameters are applied from a sound source generating device via wire or wireless The present invention provides a method for fitting a hearing aid using a parameter-applied sound source and a hearing aid using the method, in which a parameter is extracted from a sound source to which a is applied and then applied to the hearing aid.

In order to solve the above problems, a hearing aid performing fitting using a sound source to which the parameter is applied according to an embodiment of the present invention is a sound source receiver for receiving a sound source to which the fitting parameter is applied from a sound source generating device through a short range communication module or an audio input port, A parameter extraction unit for extracting a fitting parameter from a sound source to which the received fitting parameter is applied, a fitting unit for fitting a hearing aid according to the extracted fitting parameter, and a hearing loss satisfying a sound source to which the fitting parameter received through the sound source receiver is applied In this case, the control unit includes a control unit for controlling the operation of the parameter extraction unit and the fitting unit to execute the hearing aid fitting.

According to an aspect of an embodiment of the present invention, the sound source generator is a storage unit for storing a basic sound source, a sound source generator for generating a sound source to which a fitting parameter is applied by changing the basic sound source according to the input fitting parameter, the fitting A sound source transmitter for transmitting the sound source to which the parameter is applied to the hearing aid through a short range communication module or an audio output port, and a control unit for controlling the sound source generator to change the basic sound source by interpreting the input fitting parameters.

According to an aspect of an embodiment of the present invention, the sound source generator further comprises a display unit for displaying at least one fitting parameter setting object for receiving a fitting parameter, the control unit is a fitting parameter setting object displayed on the display unit In the case of detecting a touch on the control unit, the control unit generates a sound source to which the fitting parameter is applied by applying the selected fitting parameter to the basic sound source.

In order to solve the above problems, in another embodiment of the present invention, a hearing aid fitting method using a sound source to which a parameter is applied includes transmitting a stored basic sound source to a hearing aid through a short range communication module or an audio output port, and generating a sound source. The device receives a fitting parameter from a parameter input device, the sound source generator generates a sound source to which the fitting parameter is applied by changing the basic sound source according to the input fitting parameter, the sound source generator is based on the sound source to which the fitting parameter is applied Transmitting to the sound source receiver of the hearing aid through the communication module or the audio output port, and when the hearing loss satisfies the sound source to which the fitting parameter received through the sound source receiver is applied, the hearing aid extracts the fitting parameter from the sound source to which the fitting parameter is applied; Extracted fitting According to d m and a step of performing a fitting of the hearing aid.

According to an aspect of another embodiment of the present invention, the sound source generator is characterized in that the step of receiving the fitting parameter from the parameter input device is made by touching at least one fitting parameter object displayed on the display unit.

According to the present invention as described above, when hearing aids are fitted, the hearing loss listens to a clean sound source through a wireless or wired line, rather than an unintentional echo generated when a sound source is input through a speaker or a noise mixed according to the environment. By doing so, there is an advantage in that hearing aid fitting suitable for hearing loss of a deaf person.

In addition, by fitting the hearing aid by extracting the parameter from the sound source to which the parameter is applied, the hearing loss when fitting the hearing aid has the advantage that the fitting can be easily performed without selecting a control button for separately setting the hearing aid fitting.

In addition, it is possible to solve the problem caused by the spatial constraints to proceed the fitting in a quiet environment, such as a soundproof room having a conventional auditorium.

1 is a block diagram illustrating a conventional hearing aid fitting method.
2 is a block diagram for fitting a hearing aid according to an embodiment of the present invention.
3 is a flowchart illustrating a method of fitting a hearing aid according to an embodiment of the present invention.
4 is a block diagram for fitting a hearing aid using a smart device according to an embodiment of the present invention.
5 is an image diagram of a user interface for fitting a hearing aid in a smart device according to an embodiment of the present invention.

The following detailed description is only illustrative, and merely illustrates embodiments of the present invention. In addition, the principles and concepts of the present invention are provided for the purpose of explanation and most useful.

Accordingly, various forms that can be implemented by those of ordinary skill in the art, as well as not intended to provide a detailed structure beyond the basic understanding of the present invention through the drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram for fitting a hearing aid according to an embodiment of the present invention.

As shown in FIG. 2, the hearing aid 300 that performs fitting using the sound source to which the parameter is applied includes a sound source receiver 310 that receives a sound source to which the fitting parameter is output from the sound source generator 100, and the received fitting parameter. Parameter extraction unit 320 for extracting the fitting parameters from the sound source is applied, the fitting unit 340 for fitting the hearing aid according to the extracted fitting parameters and the controller 330 for controlling the operation of the parameter extraction unit and the fitting unit It includes.

First, the sound source generator 100 generates a sound source to which fitting parameters are applied and transmits the sound source to the hearing aid.

The parameter input device 200 inputs a fitting parameter for setting a wide dynamic range compression (WDRD) according to a frequency of a specific band, a volume setting, and a hearing loss level according to a hearing loss selection. It can be output to the sound source generating apparatus 100 through. The fitting parameter may be a variable for setting the size of the output sound source, the gain ratio according to the size of the input signal in each frequency band, the compression ratio, and the like.

The sound source generator 100 includes a sound source generator 120, a storage 130, a sound source transmitter 140, and a controller 150.

The storage unit 130 stores a basic sound source to which the input fitting parameter is applied, and any one of the stored basic sound sources is selected under the control of the controller 150 and is output to the hearing aid 300 through the sound source transmitter 140. Can be. The basic sound source is transmitted to the hearing aid as sound source data having a size, a gain ratio, a compression ratio, and the like of a predetermined frequency band, which are basically preset according to the degree of hearing.

The sound source generation unit 120 performs a function of generating a sound source to which the changed fitting parameter is applied according to the fitting parameter input to the basic sound source through the parameter input device 200. That is, the sound source generator 120 generates a sound source to which the fitting parameter is applied by applying a fitting parameter that sets gain selection, compression ratio, and volume according to the input signal size of the frequency band of the basic sound source to the sound source generation command of the controller 150. The sound source to which the fitting parameter is applied may include information on the applied fitting parameter.

The sound source transmitter 140 transmits the sound source to which the fitting parameter generated by the sound source generator 120 is applied to the hearing aid 300 wirelessly or wired through the short range communication module 141 or the audio output port 142. do. That is, the conventional sound source transmitted to the hearing aid through the speaker as a medium may be mixed with unwanted noise, it may be difficult for the hearing impaired person to listen to the sound source to determine whether it fits correctly to their hearing. However, in the present invention, when transmitting the sound source to the hearing aid, by transmitting the sound source to which the fitting parameter is applied to the hearing aid through the short-range communication module 141 or the audio output port 142 (Direct Audio Output), noise according to the surrounding environment is not mixed. As a result, the deaf person can check whether the sound source currently being listened to is suitable for him. Here, the short range communication module 141 refers to a module for short range communication. Bluetooth, Radio Frequency Identification (RFID), infrared data association (IrDA), Ultra Wideband (UWB), ZigBee, and the like can be used as a short range communication technology.

The controller 150 controls the overall operation of the sound source generating apparatus, for example, controls the sound source generator to change the basic sound source by interpreting the input fitting parameter, and the sound source to which the fitting parameter is applied through the short range communication module or the audio output port. It can be controlled to be transmitted to the hearing aid.

The hearing aid 300 receives a sound source to which a fitting parameter transmitted from the sound source generator 100 is applied through the sound source receiver 310, and when the fitting setting command is input, the hearing aid 300 receives the current sound source receiver 310. A parameter may be extracted from a sound source to which the received fitting parameter is applied, and the fitting of the hearing aid may be performed using the extracted parameter. For example, when the fitting setting command satisfies the sound source (the sound source to which the fitting parameter received through the sound source receiver is applied) of the hearing loss, the sound generation occurs using the fitting setting command output function provided in the parameter input device. The device may be transmitted to the hearing aid through the device, and may be generated using the fitting setting completion button provided in the hearing aid itself.

Therefore, when hearing aids are fitted in the prior art, hearing aids can be listened to and fitted with a clean sound source through wireless or wired, rather than unintentional reflections generated when the sound source is input through a speaker, or noise mixed with the environment. Hearing aid fittings can be fitted as shown. In addition, the control unit of the hearing aid extracts the fitting parameter from the sound source selected by the user and automatically performs the fitting of the hearing aid so that the hearing impaired person can easily perform the fitting alone without the help of an inspector.

3 is a flowchart illustrating a method of fitting a hearing aid according to an embodiment of the present invention.

As shown in FIG. 3, the sound source generator basically outputs a preset sound source to the hearing aid according to the operation of the hearing loss. In this case, a mode for selecting a preset default sound source may be set according to an environment in which the hearing impairment may be routinely activated (S31), and the sound source generator may output the basic sound source according to the mode setting to the hearing aid (S31). S32).

Thereafter, the sound source generator receives a fitting parameter through a fitting parameter input device or a touch screen provided in the sound source generator (S33), and generates a sound source applying the fitting parameter input to the basic sound source (S34). Next, the sound source generator transmits the generated sound source to which the fitting parameter is applied to the hearing aid using wireless or wired communication through a short range communication module or an audio output port (S35). The hearing aid outputs the sound source to which the received fitting parameter is applied through the receiver, and if the hearing aid does not determine whether the sound source is suitable for its basic taste or hearing level (S36), the new fitting parameter is again transmitted to the sound source generator. You can repeatedly listen to the sound source with the new fitting parameters.

On the other hand, if the deaf person determines that the sound source listened to his or her basic taste or hearing level (S36), fitting the hearing aid using at least one of a parameter input device, a control button of the hearing aid, and a fitting setting menu of the touch screen Can perform input to set. The hearing aid receiving the fitting setting command generated according to the operation of the hearing loss may perform fitting to change the fitting parameter of the hearing aid by extracting the fitting parameter from the sound source to which the currently received fitting parameter is applied (S37). Therefore, a hearing impaired person wearing a fitted hearing aid can listen to a sound suitable for himself by listening to a sound source to which a parameter fitted to a voice signal input through a microphone is applied through a receiver.

4 is a block diagram for fitting a hearing aid using a smart device according to an embodiment of the present invention.

As shown in FIG. 4, in one embodiment of the present invention, the sound source generating apparatus 400 may be a smart device (smart phone, tablet PC, etc.) and the fitting parameters may be touched by using a graphic user interface (GUI). When a fitting parameter setting object is displayed on the display unit 430 (here, a touch screen) and the display unit 430 for receiving an input, and a touch on the fitting parameter setting object is detected, the selected fitting parameter is applied to the basic sound source. The controller 470 may further include a controller 470 that controls to generate a sound source to which the fitting parameter is applied.

The user input unit 420 generates input data for the user to control the operation of the sound source generator 400, and the user input unit 420 includes a key pad, a dome switch, and a touch pad (static pressure / Electrostatic), jog wheel, jog switch, and the like.

The display unit 430 displays (outputs) information processed by the sound source generator 400. For example, when the fitting parameter setting object for receiving the fitting parameter applicable to the basic sound source and the hearing loss are satisfied with the sound source currently listened to, the fitting setting menu for generating the fitting setting command may be displayed. When the display unit 430 and a sensor for detecting a touch operation (hereinafter, referred to as a touch sensor) form a mutual layer structure (hereinafter, referred to as a touch screen), the display unit 430 may be used in addition to an output device. Can also be used as an input device.

The touch sensor 440 may be configured to convert a change in pressure applied to a specific portion of the display unit 430 or capacitance generated at a specific portion of the display unit 430 into an electrical input signal. When there is a touch input to the touch sensor 430, the corresponding signal (s) is sent to the touch controller. The touch controller processes the signal (s) and then transmits the corresponding data to the controller 470. As a result, the controller 470 may determine which area of the display unit 430 is touched.

The storage unit 410 stores a preset basic sound source, may store a program for the operation of the controller 470, and may temporarily store input / output data.

The sound source transmitter 450 transmits the sound source to which the fitting parameter generated by the sound source generator 471 is applied to the hearing aid 300 wirelessly or by wire through the short range communication module 451 or the interface unit 452. . The interface unit 452 serves as a passage for the hearing aid 300 connected to the sound source generator 400. For example, wired / wireless headset ports, external charger ports, wired / wireless data ports, memory card ports, ports for connecting devices with identification modules, audio input / output (I / O) ports, The video input / output (I / O) port, the earphone port, and the like may be included in the interface unit 452.

The control unit 470 controls the overall operation of the sound source generating device 400, for example, controls the sound source generating unit 471 to change the basic sound source by interpreting the input fitting parameter, the short-range communication module or the audio output port Through the control can be controlled so that the sound source to which the fitting parameter is applied to the hearing aid. The controller 470 may be implemented in the controller 470 by applying the fitting parameter input through the display unit 430 (here, the touch screen) to the basic sound source to generate the fitting sound source. 470 may be implemented separately.

5 is an image diagram of a user interface for fitting a hearing aid in a smart device according to an embodiment of the present invention.

As shown in FIG. 5, the display unit 430 of the sound source generator 400 (smart device) may display fitting parameter setting objects 510, 520, 530, and 540 that allow the hearing loss to set fitting parameters by touch. In the fitting parameter setting object, the WDRC setting bar 510, the treble setting bar 520, the volume setting bar 530, and the bass setting bar 540 may be displayed on the display unit 430. It can be implemented in various forms to select a parameter setting object.

That is, the deaf person listens to the sound source output from the hearing aid, and then touches and drags the fitting parameter setting object displayed on the display unit 430 by using the finger 500 or the like to easily select the fitting parameter and adjust the corresponding level repeatedly. You can change the sound source you want to listen to.

The various embodiments described herein may be embodied in a recording medium readable by a computer or similar device using, for example, software, hardware, or a combination thereof.

According to a hardware implementation, the embodiments described herein include application specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), field programmable gate arrays (FPGAs), and the like. It may be implemented using at least one of processors, controllers, micro-controllers, microprocessors, and electrical units for performing other functions. The described embodiments may be implemented by the controller 180 itself.

According to the software implementation, embodiments such as the procedures and functions described herein may be implemented as separate software modules. Each of the software modules may perform one or more of the functions and operations described herein. Software code can be implemented in a software application written in a suitable programming language. The software code may be stored in a storage unit and executed by a controller.

The present invention has been described in detail with reference to exemplary embodiments, but those skilled in the art to which the present invention pertains can make various modifications without departing from the scope of the present invention. Will understand.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims below and equivalents thereof.

100: sound source generator 110: input unit
120: sound source generation unit 130: storage unit
140: sound source transmitter 141: short-range communication module
142: audio output port 200: parameter input device
300: hearing aid 310: sound source receiver
311: near field communication module 312: audio input port
320: parameter extraction unit 330: control unit
340: fitting portion 350: microphone
360: receiver 400: sound source generator
410: storage unit 420: user input unit
430: display unit 440: touch sensor
450: sound source transmitter 451: short-range communication module
452: interface unit 470: control unit
471: sound generator
510,520,530,540: fitting parameter setting object

Claims (5)

A sound source receiver configured to receive a sound source to which a fitting parameter is applied from a sound source generator through a short range communication module or an audio input port;
A parameter extractor configured to extract a fitting parameter from a sound source to which the received fitting parameter is applied;
A fitting part for fitting the hearing aid according to the extracted fitting parameter;
When the deaf person satisfies the sound source to which the fitting parameter received through the sound source receiver is applied, the fitting is performed using the sound source to which the parameter is applied, including a control unit for controlling the operation of the parameter extractor and the fitting unit to perform hearing aid fitting. hearing aid.
According to claim 1, wherein the sound source generating apparatus
A storage unit in which a basic sound source is stored;
A sound source generator for changing a basic sound source according to an input fitting parameter to generate a sound source to which a fitting parameter is applied;
A sound source transmitter for transmitting the sound source to which the fitting parameter is applied to the hearing aid through a short range communication module or an audio output port; And
A hearing aid for fitting by using a sound source to which the parameter is applied, including a control unit for controlling the sound source generator to change the basic sound source by interpreting the input fitting parameter.
According to claim 2, wherein the sound source generator
Further comprising a display unit for displaying at least one fitting parameter setting object for receiving a fitting parameter,
When the controller detects a touch on the fitting parameter setting object displayed on the display unit, the controller applies the selected fitting parameter to the basic sound source to control to generate a sound source to which the fitting parameter is applied. Hearing aid to perform the fitting.
The sound source generator transmits the stored basic sound source to the hearing aid through a short range communication module or an audio output port;
The sound source generator receives a fitting parameter from a parameter input device;
Generating a sound source to which the fitting parameter is applied by changing a basic sound source according to the input fitting parameter;
The sound source generator transmits the sound source to which the fitting parameter is applied to the sound source receiver of the hearing aid through a short range communication module or an audio output port;
In the case where the deaf person satisfies the sound source to which the fitting parameter received through the sound source receiver is applied, the hearing aid extracts the fitting parameter from the sound source to which the fitting parameter is applied, and performs fitting of the hearing aid according to the extracted fitting parameter. Hearing aid fitting method using a sound source applied.

The method of claim 4, wherein
The sound source generator receives the fitting parameter from the parameter input device
A hearing aid fitting method using a sound source to which a parameter is applied, which is performed by touching at least one fitting parameter object displayed on a display unit.

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