KR101391855B1 - Simulator for selecting hearing aid - Google Patents

Abstract

The present invention is characterized in that a front end switching unit for connecting an interface and a signal processing unit to change a fitting parameter of a signal processing unit, a rear stage switching unit for connecting a basic hearing aid having only a microphone and a receiver to a signal processing unit, And a controller for controlling the front-end switching unit and the rear-end switching unit so as to perform hearing aid fitting.
According to the present invention, since the hearing aid can be selected in accordance with the characteristics of the microphone and receiver of the hearing aid by switching control of the hearing aid simulator while the hearing aid is inserted into the ear, the user can select a different hearing aid, There is an advantage in that it is possible to provide a simulation environment in which various hearing aids can be selected in a simpler manner.

Description

SIMULATOR FOR SELECTING HEARING AID}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a simulator for selecting a hearing aid, and more particularly, to a simulator for selecting a hearing aid which can select a signal processing device optimized for characteristics of a microphone and a receiver of a hearing aid.

Hearing aids are a type of amplification device that is attached to the ear to compensate for hearing loss. The principle of the hearing aid is that the sound wave is converted into an electric vibration by a microphone, and then amplified by an amplifier according to the hearing power of each frequency of the hearing loss, and outputted to a sound wave through a speaker (receiver). In general, a hearing aid comprises a microphone for converting sound into an electrical signal, a digital signal processor for controlling and amplifying the input electrical signal, and a speaker for outputting the amplified sound.

These types of hearing aids include pocket type that attaches to the body according to its shape and size, ear type which is behind the ear, eagle type which fills the ear canal and eagle system, ear canal which partially fills the ear canal entrance, It can be divided into two types.

In order to use the hearing aid, it is necessary to measure the hearing ability of the user and set the hearing correction (fitting, fitting) of the hearing aid to be most suitable. Here, the hearing correction setting of the hearing aid means a process of selecting a proper hearing aid according to the degree of hearing loss of the hearing impaired person and adjusting the amplification degree and the maximum output range of each hearing aid frequency band so that the hearing aid user can listen well.

FIG. 1 is a diagram for explaining a process of selecting a hearing aid suitable for a hearing impaired person.

As shown in FIG. 1, in order to select a hearing aid suitable for his hearing, a hearing aid uses a tubular sound transmission mechanism 10 for transmitting sound output from the receiver of the hearing aid to his eardrum. The hearing aid inserts one side of the sound transmission mechanism 10 into his or her ear and inserts the hearing aid composed of the receiver 21, the signal processing section 22 and the microphone 23 into the insertion section 11 of the sound transmission mechanism, (For example, TM 'HI-PRO') capable of fitting to the hearing aid of the hearing impaired by changing the fitting parameters in the signal processing unit of the hearing aid, and fitting through the computer 40 .

However, in the process of selecting the hearing aid suitable for the hearing impaired person, the hearing aid is not inserted directly into his or her own ear but inserted into the other side 11 of the sound transmission mechanism and transmitted through the internal passage of the sound transmission mechanism 10, The difference is that the acoustic characteristics of the physical structure are altered and the hearing aid is inserted directly into the ear. In other words, it is not possible to perform fitting with the hearing aid fitted to the ear in the ear. In addition, there is an inconvenience in that a hearing aid is required to be complicatedly connected to the insertion unit 11 of the sound transmission mechanism and to the interface 30 every time the other hearing aid is replaced. Also, since the sound felt by the hearing impaired person changes depending on the characteristics of the microphone and the receiver, there is a problem that the signal processing unit capable of optimizing the characteristics of the microphone and the receiver can not be selected.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a hearing aid having a built-in ear cap and a microphone and a receiver of the hearing aid, The present invention provides a simulator for selecting a hearing aid which can select a signal processing apparatus optimized for the characteristics of a hearing aid.

In order to solve the above problems, a simulator for selecting a hearing aid, which is an embodiment of the present invention, includes a front stage switching unit for connecting an interface and a signal processing unit to change fitting parameters of a signal processing unit, a basic hearing aid having only a microphone and a receiver, And a control unit for controlling the front end switching unit and the rear end switching unit so that the basic hearing aid is connected to any one of the plurality of signal processing units to perform the hearing aid fitting.

According to one embodiment of the present invention, the basic hearing aid is characterized in that the ear cap manufactured by picking up the ear lobe of the hearing impaired person is coupled.

According to an aspect of the embodiment of the present invention, the rear stage switching unit is characterized in that the hearing aid has two hearing aid connection terminals so that the hearing aid can simultaneously select the hearing aid for the amount.

According to the present invention, when a user selects a hearing aid, a hearing aid having a built-in ear cap attached thereto is inserted into the ear canal to perform fitting, so that the acoustic characteristics of the surroundings and the physical structure are altered There is an advantage that it can be prevented.

In addition, the switching of the hearing aid simulator allows the user to select the signal processing unit that matches the characteristics of the microphone and receiver of the hearing aid while the hearing aid is inserted in the ear. Therefore, the hearing aid can be easily operated There is an advantage of providing a simulation environment in which various hearing aids can be selected.

FIG. 1 is a diagram for explaining a process of selecting a hearing aid suitable for a user with a conventional hearing loss.
2 is a block diagram of a simulator for selecting a hearing aid according to an embodiment of the present invention.
FIG. 3 is a flowchart illustrating a process of selecting a hearing aid according to an embodiment of the present invention.
4 illustrates a hearing aid connected to a simulator according to an embodiment of the present invention.

The following detailed description is merely an example, and is merely an example of the present invention. Further, the principles and concepts of the present invention are provided for the purpose of being most useful and readily explaining.

Accordingly, it is not intended to provide a more detailed structure than is necessary for a basic understanding of the present invention, but it should be understood by those skilled in the art that various forms that can be practiced in the present invention are illustrated in 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 of a simulator for selecting a hearing aid according to an embodiment of the present invention.

2, the simulator 100 for selecting the hearing aid of the present invention connects the interface 30 and the signal processing unit 130 in order to perform fitting to fit the hearing loss of the hearing impaired person by changing the fitting parameters in the signal processing unit A rear stage switching unit 140 for connecting the basic hearing aid 210 having the front stage switching unit 120, the microphone 211 and the receiver 212 to the signal processing unit 130 and the basic hearing aid 210, And a controller 110 for controlling the front-end switching unit 120 and the rear-end switching unit 140 so as to perform hearing aid fitting in connection with any one of the processing units.

The interface 30 is provided with a protocol for connecting the computer 40 and the signal processing unit 130 of the simulator 100 so as to transmit and receive the hearing aid control data for fitting, The signal processing unit 130 can change the fitting parameter according to the hearing loss measurement result of the hearing impaired person. In the present invention, the basic hearing aid units 210 and 220 are not provided with a signal processing unit, and mean hearing aids composed of only microphones 211 and 221 for receiving external sounds and receivers 212 and 222 for outputting analog signals output from the signal processing unit by sound.

The signal processing unit 130 includes a plurality of digital signal processing chips 130a to 130n (hereinafter referred to as a DSP chip) and is connected to the interface 30 through the first connection terminals 122 of the front- ). The signal processor 130 is connected to the basic hearing aids 210 and 220 through the hearing aid connection terminals 141a and 141b of the rear stage switching unit 140. The signal processing unit 130 filters the sound inputted through the basic hearing aid 210 according to the fitting control command inputted from the interface 30 and divides the frequency into a plurality of frequency bands, Linearly or nonlinearly with appropriate gain to output to the receiver. In addition, the signal processing unit 130 can analyze the gain of each frequency band and control the acoustic feedback (howling) by phase cancellation or gain reduction. The amplitude, frequency, and temporal characteristics of the inputted acoustic signal are analyzed By controlling unnecessary noise, the signal-to-noise ratio can be improved.

The signal processor 130, which performs the above-described functions, is manufactured by a plurality of manufacturers and differs in selling price and performs a voice processing function (for example, improvement of threshold value, sound comfort, directionality, There is a difference in. The characteristics of the hearing aid may vary depending on the characteristics of the microphone and the receiver connected to the signal processing unit. Therefore, when a hearing person chooses a hearing aid, he or she considers whether he or she suits his or her hearing loss and environment or whether the price is appropriate. In this case, hearing aids can be selected without complicated procedures according to the combination of various receivers, The environment must be able to be provided.

When the hearing aid selects the hearing aid using the simulator 100, the simulator 100 includes two hearing aid connection terminals 141a and 141b that can simultaneously connect two basic hearing aids, so that the hearing aid hears the sound to one ear In addition to listening to the sound through both ears (sheep), you can choose a hearing aid in a condition that suits your environment according to your hearing loss. Although the two hearing aid connection terminals are shown here, the hearing aid connection terminal may be configured to correspond to the number of different basic hearing aids such that a plurality of basic hearing aids having different microphones and receivers can be simultaneously connected to the simulator.

Hereinafter, a description will be given of a series of processes for selecting a signal processing unit when one basic hearing aid is connected to a hearing aid connection terminal. In the case where two basic hearing aids are connected, the description is equivalent to that of one basic hearing aid, .

The interface connection terminal to which the interface 30 is connected is connected to the first connection terminal 122a by the switching of the front end switching unit 120 so that the DSP chip 130a of the signal processing unit 130 receives the fitting control And receives the command and executes the fitting program. On the other hand, the basic hearing aid 210 is inserted into the ear of the hearing impaired person, and the sound input through the microphone 211 of the basic hearing aid 210 is connected to the hearing aid connection terminal 141a and the rear end switching unit 140 2 connection terminal 142a to the DSP chip 130a of the signal processor 130, The control unit 110 may control the switching of the front stage switching unit 120 and the rear stage switching unit 140 so that any one of the DSP chips 130a of the signal processing unit 130 can be selected.

The hearing aid can determine whether the hearing impaired is audible by listening to the sound output from the DSP chip 130a selected in accordance with the switching control of the controller 100. If not, The stage switching unit 120 and the rear stage switching unit 140 are controlled so that the hearing aid can repeatedly listen to the sound output from the other DSP chip 130b. That is, after the hearing impaired person inserts the basic hearing aids 210 and 220 into his ear, he / she controls the front end switching unit and the rear end switching unit of the simulator 100 to listen to the sound output through the plurality of signal processing units, It is possible to easily select a hearing aid having a microphone, a receiver, and a signal processing unit that can output the sound most suitable for the own hearing among a plurality of signal processing units.

FIG. 3 is a flowchart illustrating a process of selecting a hearing aid according to an embodiment of the present invention.

3, the control unit controls the front stage switching unit and the rear stage switching unit to control the interface and the basic hearing aid to be connected to the first signal processing unit (DSP chip) (S31). Thereafter, the first signal processor (DSP chip) performs the fitting program according to the fitting control command received from the interface (S33), processes the sound inputted from the microphone of the basic hearing aid, and outputs the signal to the receiver of the basic hearing aid. If the hearing loss is not satisfied, the control unit controls the switching unit so that the n-th signal processing unit (DSP chip) connects the interface with the basic hearing aid (S37). The selected n signal processor (DSP chip) performs the fitting program according to the fitting control command received from the interface (S33). The hearing aid can listen to the sound output from the newly selected n signal processor (DSP chip) have.

The control unit may store the information of the selected signal processing unit (DSP chip), the currently connected microphone and receiver information, and the applied fitting value, and transmit it to the computer 40 through the interface 30 (S39). After that, the hearing aid specialist can produce and sell the most suitable hearing aid for the hearing impaired by using the selected signal processing part (DSP chip), microphone, receiver and fitting information.

That is, when the hearing aid uses the conventional sound transmission mechanism and selects the hearing aid every time the hearing aid is replaced with another hearing aid, it controls the switching unit of the simulator 100, not the complicated process of connecting the hearing aid to the interface of the sound transmission mechanism, The user can select a signal processing unit of the product and listen to the sound according to the selected signal processing unit to determine whether the sound processing unit is suitable for the user. Also, when a plurality of basic hearing aids are connected to the simulator, the hearing impaired person can easily insert different basic hearing aids into the ear and listen to sounds according to the characteristics of the selected signal processing unit.

4 illustrates a hearing aid connected to a simulator according to an embodiment of the present invention.

As shown in FIG. 4, the basic hearing aid 400 applied to the present invention may be combined with an ear cap 410 manufactured by picking up the ear of the user. The hearing aid can select a signal processing unit for outputting a sound suited to him under the same environment as the actual use environment by wearing the basic hearing aid combined with the ear cap 410. [ Therefore, the acoustic characteristics of the sound input from the microphones of the hearing aid inserted through the conventional sound transmission mechanism are altered according to the surrounding environment and the physical structure (the structure in which the sound collected from the actual ear is transmitted to the ear via the tube) The sound outputted in a state in which the basic hearing aid having an ear cap is inserted into the ear is the same as the actual use environment, so that the sound characteristics according to the surrounding environment can be prevented from being altered.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, I will understand.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by equivalents to the appended claims, as well as the appended claims.

30: interface 40: computer
100: simulator 110: control unit
120: front end switching unit 121: interface connection terminal
122: first connection terminal 130: signal processing section
140: rear end switching unit 141a, 141b: hearing aid connection terminal
142: second connection terminal 210, 220, 400: basic hearing aid
211, 221: Microphones 212, 222: Receiver
410: Ear cap

Claims (3)

A front end switching unit for connecting the interface and the signal processing unit to change a fitting parameter of the signal processing unit,
A rear stage switching unit for connecting a basic hearing aid having only a microphone and a receiver to a signal processing unit, and
And a controller for controlling the front-end switching unit and the rear-end switching unit so that the basic hearing aid is connected to any one of a plurality of signal processing units to perform hearing aid fitting.
The method according to claim 1,
Wherein the basic hearing aid is coupled to an ear cap made by picking up an ear lobe of the hearing impaired person.
The method according to claim 1,
Wherein the rear stage switching unit has two hearing aid connection terminals so that the hearing aid can simultaneously select a hearing aid with respect to the amount of hearing aid.

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