KR101636949B1 - The method and apparatus for treating tinnitus - Google Patents

Abstract

Disclosed are a method and an apparatus for treating tinnitus. The method for treating tinnitus includes the steps of: detecting, by a tinnitus treatment apparatus, a tinnitus frequency of each of left and right ears of a user; decoding, by the tinnitus treatment apparatus, a music file and converting the decoded music file into a music signal in a frequency domain based on an FFT scheme; removing, by the tinnitus treatment apparatus, a first low level music signal in a tinnitus treatment removal target band which is determined based on at least one of the tinnitus frequencies of the left and right ears among the music signals in the frequency domain; amplifying, by the tinnitus treatment apparatus, a second low level music signal in a tinnitus treatment amplification target band which is determined based on at least one of the tinnitus frequencies of the left and right ears among the music signals in the frequency domain; and generating, by the tinnitus treatment apparatus, a music file for treating tinnitus by performing IFFT and encoding the music signal from which the first low level music signal is removed and of which the second low level music signal is amplified.

Description

[0001] The present invention relates to a method and apparatus for treating tinnitus,

The present invention relates to a method and apparatus for treating a tinnitus, and more particularly, to a method and apparatus for treating a tinnitus based on a tinnitus frequency.

As the modern society becomes aging, interest in the health care industry of the elderly is increasing rapidly. Tinnitus, which occurs mainly in the elderly, is becoming a social problem not only to the individual's discomfort with stress but also to social problems and communication with family members. These tinnitus symptoms can be easily found in adolescents. Tinnitus is caused by hearing damage caused by indiscreet high-volume music listening.

There are hearing aids for tinnitus treatment that provide simple shielding sounds to treat tinnitus symptoms and sound generators that can play white noise (constant noise such as waterfall or radio noise) Despite the high price of hundreds of dollars in the treatment effect is uncertain.

In addition, in the case of white noise, it is difficult to expect a great effect because the compliance is lowered because the sound source provided by the hospital is provided and continuously listened.

KR 10-2005-0007238

One aspect of the invention provides a method for treating tinnitus.

Another aspect of the present invention provides an apparatus for treating tinnitus.

A tinnitus treatment method according to an aspect of the present invention includes a tinnitus treatment device searching for a tinnitus frequency for each of a left ear and a right ear of a user, and the tinnitus treatment device decodes a music file and outputs the decoded music file to an FFT converting a tinnitus treatment device to a music signal in a frequency domain based on a fast fourier transform of the music signal in the frequency domain and a tinnitus treatment based on a tinnitus frequency of at least one of the left ear and the right ear among the music signals in the frequency domain Removing the first lower music signal on the elimination band, wherein the tinnitus treatment apparatus comprises a tinnitus treatment amplification band determined based on the tinnitus frequency for the at least one of the left ear and the right ear of the music signal in the frequency domain Amplifying the second lower music signal on the basis of the tinnitus And a step of generating a music file for tinnitus treatment by inverse fast fourier transform (IFFT) and encoding the music signal on which the first lower music signal has been removed and the second lower music signal has been amplified .

On the other hand, the tinnitus treatment elimination zone may include a half octave band higher than the tinnitus frequency and a half-octave band lower than the tinnitus frequency based on the tinnitus frequency.

In addition, the tinnitus treatment amplification band may be a frequency band adjacent to the tinnitus treatment elimination band.

In addition, the second lower music signal may have a signal amplification of 1.5 to 3 dB.

Further, the tinnitus frequency is searched in a band below 10 kHz, and the tinnitus frequency can be searched by providing a signal of a designated frequency band out of the frequency band of 10 kHz or less to each of the left ear and the right ear of the user at a set volume have.

A tinnitus treatment apparatus according to another aspect of the present invention includes a processor, which searches for a tinnitus frequency for each of a left ear and a right ear of a user, decodes a music file, and outputs the decoded music file to a fast fourier transforming the tune of the music signal in the frequency domain based on the tinnitus frequency of at least one of the left ear and the right ear among the music signals in the frequency domain, Amplifies a second lower music signal on the tinnitus treatment amplification band determined based on the tinnitus frequency for the at least one of the left ear and the right ear of the music signal in the frequency domain, Removing the music signal and amplifying the second lower music signal To the music signal IFFT (inverse fast fourier transform) and encode may be implemented to generate a music file for two people treatment.

On the other hand, the tinnitus treatment elimination zone may include a half octave band higher than the tinnitus frequency and a half-octave band lower than the tinnitus frequency based on the tinnitus frequency.

In addition, the tinnitus treatment amplification band may be a frequency band adjacent to the tinnitus treatment elimination band.

In addition, the second lower music signal may have a signal amplification of 1.5 to 3 dB.

Further, the tinnitus frequency is searched in a band below 10 kHz, and the tinnitus frequency can be searched by providing a signal of a designated frequency band out of the frequency band of 10 kHz or less to each of the left ear and the right ear of the user at a set volume have.

According to one aspect of the present invention, a tinnitus frequency band of a user is searched based on a tinnitus treatment method and apparatus, and post-processing is performed on a tinnitus frequency band of the listener based on the tinnitus frequency band of the user, Can alleviate the symptoms of tinnitus.

1 is a conceptual diagram showing a phenomenon of generation of a tinnitus signal;
2 is a graph relating to the effect of tinnitus treatment.
3 is a flowchart illustrating a method for treating a tinnitus according to an embodiment of the present invention.
FIG. 4 is a graph illustrating a process for a tinnitus frequency band according to an embodiment of the present invention. Referring to FIG.
5 is a conceptual diagram illustrating a tinnitus frequency search method according to an embodiment of the present invention.
FIG. 6 is a frequency analysis graph of music performed by the tinnitus treatment method according to the embodiment of the present invention.
FIG. 7 is a cumulative frequency analysis graph of music performed by the method of treating tinnitus according to an embodiment of the present invention.
FIG. 8 is a conceptual diagram illustrating a tinnitus treatment music selection method according to an embodiment of the present invention
FIG. 9 is a block diagram showing a tinnitus treatment apparatus according to an embodiment of the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the drawings.

Tinnitus is an auditory awareness that can be heard in the ear or head without being stimulated by external sound sources, and is a phenomenon distinct from psychotic auditory hallucinations. When deafferentation occurs in the frequency domain where the hearing loss occurs, the peripheral region becomes free from lateral inhibition, and thus becomes more excited to increase the synchronicity. Tinnitus may occur in the auditory nervous system due to increased spontaneous activity of the nerves as the syn- chronization of the surrounding area increases.

1 is a conceptual diagram showing a phenomenon of generation of a tinnitus signal;

Referring to FIG. 1, if an afferent blocking occurs in the frequency region where the hearing loss occurs, such as the A portion 100, the surrounding region may be free from lateral suppression and the peripheral region tunability may be increased. If the peripheral zone's synchronicity is increased, the tinnitus signal can occur in the auditory nervous system due to increased spontaneous activity of the nerve.

According to the tinnitus treatment method according to the embodiment of the present invention, tinnitus can be suppressed by stimulating the frequency region on the side rather than the tinnitus frequency region where the excitement is increased based on this mechanism of the tinnitus.

2 is a graph relating to the effect of tinnitus treatment.

Referring to FIG. 2, Vannetste et al. (2013) showed that music therapy in which a hearing loss area is supplemented through a double-blind, randomized control study has no effect at all. In the case of excessive supplementation as shown in FIG. 2, Of the total population.

Magneto-encephalo graphy (MEG) is a technique to measure a very small magnetic field formed by the current flowing between neurons in the brain. Positron Emission Tomography (PET) Unlike functional magnetic resonance imaging (fMRI), which detects electrical changes in direct neuronal activity, it is an imaging technology that can display a very active part of the brain, which is activated. In 2009, it was revealed that the brain area that causes tinnitus using the imaging technology is the auditory cortex and limbic system.

According to the results of a clinical experiment through the brain, the auditory cortex of the opposite brain was activated in the brain of the patient with only one ear, and both hemispherical auditory cortices of the brain were activated in patients with both ears. Based on these results, it is shown that it is possible to treat the tinnitus by stimulating a specific part of the brain. Tinnitus is caused by loss of lateral suppression due to afferent block in the corresponding frequency domain. Therefore, if a method of enhancing lateral suppression is used, the effect of tinnitus treatment may be expected.

Hereinafter, an embodiment of the present invention introduces a linear octave frequency potential method to convert an environmental sound of a deaf-well region into a sound of a normal region to be heard. According to the embodiment of the present invention, it is possible to enhance the side suppression by avoiding the tinnitus frequency by stimulating only the periphery without stimulation of the tinnitus frequency region showing overactive by using the music in which the one-octave potential noise is completely removed at the center of the tinnitus frequency.

3 is a flowchart illustrating a method for treating a tinnitus according to an embodiment of the present invention.

FIG. 3 discloses the operation of a tinnitus treatment device that blocks tinnitus frequency and amplifies its ambient sound to enhance side suppression.

Referring to FIG. 3, a tinnitus frequency is searched (step S300).

The tinnitus treatment device can search the frequency band of the user's left ear and the upper right tinnitus for the treatment of the tinnitus, and the magnitude of the sound.

The tinnitus treatment device performs a tinnitus frequency search for each of the left ear and right ear of the user. The human audible frequency is usually formed between 20 Hz and 20 kHz. There are various kinds of tinnitus symptoms such as a beeping sound and a cricket sound, and the frequency band that is generated is also different, but it is usually formed at less than 10 kHz. Therefore, the function of finding the tinnitus frequency may be set not to exceed a maximum of 10 kHz in consideration of the characteristics of the tinnitus symptom. Hereinafter, for convenience of explanation, a method of searching for a tinnitus frequency at 10 kHz or less is disclosed, but this limitation is only one example. The tinnitus treatment apparatus can search for the tinnitus frequency by not setting the search frequency separately or by setting the search frequency of another size.

Tinnitus frequency search can be performed based on various methods. For example, the tinnitus treatment apparatus can search for a tinnitus frequency by sequentially telling a frequency band from 250 Hz to 10000 Hz, or to selectively tune a frequency band such as 500 Hz and 1000 Hz to search for a tinnitus frequency. The sine wave output allows the user to know the frequency of the tinnitus and the magnitude of the volume at which the tinnitus occurs. When the tinnitus frequency search procedure for one ear ends, a tinnitus frequency search procedure for the opposite ear can be performed.

Because the tinnitus frequency bands of both ears may be different and the volume at which the tinnitus occurs in both ears is different, the tinnitus treatment apparatus searches for the tinnitus frequency for each of the left and right ears for tinnitus treatment in the tinnitus frequency search procedure, Tinnitus volume for each ear and right ear can also be stored together.

The music file is decoded and FFT is applied (step S310).

Prior to the actual filtering process to remove the tinnitus frequency band from the music file in order to check the tinnitus frequency of the user based on the tinnitus frequency search and to achieve the effect of treating the tinnitus, Decoding and a procedure of converting sound source data of a time domain into a frequency domain.

Decoding, and FFT processes, the signal corresponding to a specific tinnitus frequency band can be removed from the entire frequency band corresponding to the music signal through a filtering process, Can be increased. It is possible to separate header data of a music file and PCM (Pulse Code Modulation) data containing real music data through decoding procedures for music files such as WAV and MP3. The header data includes information of the music file, and the PCM data may include substantial music data expressed in hexadecimal.

After the decoding operation, the PCM data can be switched from the time domain to the frequency domain. Equation (1) below is a formula for a fast fourier transform (FFT) used to convert PCM data from the time domain to the frequency domain.

&Quot; (1) "

        An FFT can represent all of the periodic or aperiodic signals as the sum of the complex sinusoids. Based on the FFT, an input signal can be expressed as a sum of signals with several frequencies. f represents frequency, and t represents time. Through this process, the actual tinnitus frequency processing can be performed.

Processing for the tinnitus frequency band is performed (step S320).

The cause of tinnitus is usually caused by compensating the cerebrum for not providing normal stimulation due to hearing loss. As the part of the cortex that is not stimulated by the specific frequency sound reacts to the other frequency, the synchronicity with the adjacent neurons increases, resulting in synergistic nerve activity and perception of the tinnitus. Thus, in the tinnitus treatment method according to the embodiment of the present invention, the excitation activity of the cortex can be suppressed and the therapeutic effect can be obtained through the process of removing the tinnitus frequency and amplifying the ambient sound.

In step S310, the tinnitus frequency band may be removed from the PCM data converted to the frequency domain. The primary filtering process can be performed by removing the signal corresponding to one octave from the tinnitus frequency band obtained in the tinnitus frequency search procedure of step S300. The band of the signal to be removed may include a half octave band higher than the tinnitus frequency around the tinnitus frequency and a half-octave band lower than the tinnitus frequency around the tinnitus frequency. The removed band may be expressed by the term tinnitus treatment elimination band, and the signal (or data) corresponding to the tinnitus treatment elimination band may be all treated as zero.

Then, in order to enhance the effect of treating the tinnitus, it is possible to amplify the noise around the tinnitus frequency band to a certain size (for example, 1.5 dB to 3 dB). Through these processes, it is possible to obtain the effect of suppressing excitatory activity of the cerebral cortex, and it is possible to obtain more excellent effect of tinnitus treatment by amplifying the peripheral sound. The amplified band can be represented by the term tinnitus treatment amplification band.

Processes the PCM data through the inverse FFT (step S330).

The tinnitus treatment apparatus can restore the music file for tinnitus treatment based on the inverse FFT procedure after the end of the actual filtering process for tinnitus treatment as shown in step S320. The music file for the treatment of the tinnitus may be a file including the amplified signal for the tinnitus treatment amplification band and the signal corresponding to the tinnitus treatment elimination band is removed. In step S330, the FFT process of converting the PCM data of the time domain into the frequency domain is performed in step S310 as shown in Equation (2) below.

&Quot; (2) "

        The signal can be converted back from the frequency domain to the time domain based on the IFFT procedure disclosed in Equation (2).

Since the user's tinnitus frequency may also be different for both ears, steps S320 and S330 must be performed independently for each ear. When listening to music, the above-described procedures may be performed in real time or the user may listen to the desired music, and the music that the user listens to may help in the treatment of the tinnitus.

That is, the tinnitus treatment method can search the tinnitus frequency for each of the left ear and the right ear of the user, decode the music file, and convert the decoded music file into the music signal on the frequency domain based on the FFT . In addition, the tinnitus treatment apparatus removes the first lower music signal on the tinnitus treatment elimination band determined based on the tinnitus frequency of at least one of the left ear and the right ear of the music signal in the frequency domain, And amplify the second lower music signal on the tinnitus treatment amplification band determined based on the tinnitus frequency for at least one of the right ear and the right ear. In addition, the tinnitus treatment apparatus can generate a music file for tinnitus treatment by IFFT (inverse fast fourier transform) and encoding the music signal on which the first lower music signal is removed and the second lower music signal is amplified.

FIG. 4 is a graph illustrating a process for a tinnitus frequency band according to an embodiment of the present invention. Referring to FIG.

FIG. 4 shows a method of removing a signal of the tinnitus treatment elimination band and amplifying a signal of the tinnitus treatment amplification band.

Referring to FIG. 4, the signal of the tinnitus remedy band 420 determined based on the tinnitus frequency 400 may be removed. The tinnitus treatment elimination band 420 may be a signal corresponding to one octave band around the tinnitus frequency band obtained in the tinnitus frequency search procedure.

In addition, in order to enhance the effect of treating the tinnitus, the signal of the tinnitus treatment amplification band 440, which is the peripheral band of the removed tinnitus treatment band 420, may be amplified by about 3dB at 1.5 dB. This tinnitus treatment method can obtain the effect of suppressing the excitatory activity of the cerebral cortex, and it can obtain the excellent effect of the tinnitus treatment through the amplification of the peripheral sound.

5 is a conceptual diagram illustrating a tinnitus frequency search method according to an embodiment of the present invention.

FIG. 5 discloses a method of setting a frequency band and a measurement volume between 250 Hz and 10,000 Hz for each of the left ear and the right ear, and searching for a tinnitus frequency band for the measured volume.

Referring to FIG. 5, the tinnitus frequency treatment apparatus sequentially searches for a frequency band ranging from 250 Hz to 10000 Hz, and selectively searches for a designated frequency band such as 500 Hz and 1000 Hz to search for a user's tinnitus frequency band .

The tinnitus treatment device may be a user's device (e.g., a smartphone), and the above-described tinnitus treatment method may be implemented as an application on the user device. An application for treating tinnitus can be expressed in terms of a tinnitus treatment application. The user may perform a tinnitus treatment application implemented in the user device to search for the tinnitus frequency band. When the user listens to music, the tinnitus treatment application can remove the tinnitus removal band based on the detected tinnitus frequency band and provide the user with the amplified music of the tinnitus treatment amplification band.

FIG. 6 is a frequency analysis graph of music performed by the tinnitus treatment method according to the embodiment of the present invention.

FIG. 6 is a graph illustrating the frequency of music performed filtering for tinnitus treatment when the tinnitus frequency band of the left ear is 1000 Hz and the tinnitus frequency band of the right ear is 3000 Hz.

The left side of FIG. 6 discloses a frequency analysis graph of music in which a tinnitus removal band of 1000 Hz is removed for the left ear based on the tinnitus treatment method described above with reference to FIG. Referring to the left side of FIG. 6, it can be seen that a signal near 1000 Hz is removed.

The right side of FIG. 6 discloses a frequency analysis graph of music in which a tinnitus removal band of 3000 Hz is removed for the right ear based on the tinnitus treatment method described above with reference to FIG. Referring to the right side of FIG. 6, it can be seen that the signal near 3000 Hz is removed.

FIG. 7 is a cumulative frequency analysis graph of music performed by the method of treating tinnitus according to an embodiment of the present invention.

In FIG. 7, the frequency of the music file from which the tinnitus frequency is removed is displayed on the screen when the tinnitus frequency is removed.

Referring to FIG. 7, in an application where the user is tinnitus, it is possible to provide the user with information on the removed frequency band for tinnitus treatment during music reproduction. The graph shows that the frequency band of 1000 Hz is removed for the left ear and the frequency band of 3000 Hz is removed for the right ear.

Among the existing methods for treating tinnitus, when the white noise and the tinnitus frequency are removed from the hospital, the compliance is lowered. Therefore, the effect of treating the tinnitus is insignificant. In the case of using the tinnitus treatment method according to the embodiment of the present invention, it is possible to measure the tinnitus frequency of the left and right ears from the user and select the music file built in the using device, A better effect can be expected.

FIG. 8 is a conceptual diagram illustrating a tinnitus treatment music selection method according to an embodiment of the present invention

FIG. 8 shows a method of analyzing a frequency band of music for tinnitus treatment and providing information about recommended music to a user.

The music recommendation server may receive information about the tinnitus frequency (left ear: first cinnabar frequency 800, right ear: second cinnabar frequency 810) of each of the left and right ears of the user from the tinnitus treatment device. The music recommendation server can determine the recommendation music based on the information about the tinnitus frequency of the user and provide it to the user.

The music recommendation server may analyze the frequencies of each of the plurality of sound sources in the frequency domain to determine the recommended music, and store the frequency information for each of the plurality of sound sources in the database.

According to the embodiment of the present invention, the music recommendation server can determine the recommended music for the user based on the frequency information for each of the plurality of sound sources. In addition, if the frequency band of the music selected automatically by the user or the frequency band of the music selected by the user is different from the tinnitus treatment amplification band that should be emphasized for the treatment of the tinnitus, the music recommendation server adjusts the pitch of the music signal converted into the digital signal The major range can be adjusted to be the surrounding area for tinnitus treatment.

The tinnitus frequency domain of the left ear and the tinnitus frequency domain of the right ear where the tinnitus occurs may be different. Thus, the music recommendation server can select music that includes both the tinnitus frequency region of the left ear and the tinnitus frequency region of the right ear for normal music listening through the left and right ears of the user, respectively.

It can be assumed that the music recommendation server provides music 1 and music 2 to the user.

Music 1 takes the tinnitus frequency of the left ear into consideration and removes the tinnitus frequency band for the signal outputted through the left earphone (or the left speaker) and emphasizes the frequency band around the tinnitus frequency and outputs it through the right earphone (or the right speaker) In the case of a signal, it can be outputted as it is as the original signal or by adjusting only the pitch of the signal.

On the contrary, Music 2 performs the removal of the tinnitus frequency band and the emphasis of the frequency band around the tinnitus frequency of the signal outputted through the right earphone (or the right speaker) in consideration of the tinnitus frequency of the right ear and outputs it through the left earphone In the case of a signal to be output, it is possible to output the original signal as it is, or to adjust only the pitch of the signal.

The processor of the music recommendation server can perform the above processing for each user in consideration of the tinnitus frequency of each user.

That is, the music recommendation server for tinnitus treatment receives the information about the first tinnitus frequency 800 for the left ear of the user and the second tinnitus frequency 810 for the right ear from the music recommendation server, Can be requested. The music recommendation server also generates a sound source for tinnitus treatment based on at least one of the first tinnitus frequency 800 and the second tinnitus frequency 810 with respect to the sound source, To the user device. Also, the music recommendation server transmits information on the recommended music to the user, and the recommended music may include both the first tinnitus frequency 800 and the second tinnitus frequency 810 in the frequency domain.

The tinnitus treatment sound source may be generated based on signal processing for the tinnitus treatment elimination band and the tinnitus treatment amplification band determined based on at least one of the first and second tinnitus frequencies 800 and 810. The tinnitus treatment sound source may be generated by adjusting the pitch of the sound source in consideration of the difference between the frequency band of the sound source and at least one of the first tinnitus frequency 800 and the second tinnitus frequency 810.

FIG. 9 is a block diagram showing a tinnitus treatment apparatus according to an embodiment of the present invention.

9, the tinnitus treatment apparatus includes a tinnitus frequency search unit 900, a decoding and FFT unit 910, a tinnitus frequency band processing unit 920, an inverse FFT unit and an encoding unit 930, and a processor 940 can do. Each component of the tinnitus treatment apparatus can be implemented to perform the tinnitus treatment method disclosed in Figs. 1-8.

The tinnitus frequency search unit 900 may be implemented to search for the tinnitus frequency band of the user's left ear and the tinnitus frequency band of the right ear for tinnitus treatment. Also, the tinnitus frequency search unit 900 can be implemented to search for the volume at which the tinnitus occurs.

The decoding and FFT unit 910 decodes the music file and performs a process of converting the music file from the time domain to the frequency domain before the tinnitization frequency band processing unit 920 performs a filtering process to remove the tinnitus frequency band And can be implemented to perform.

The tinnitus frequency band processing unit 920 may be implemented to process all signals (or data) corresponding to the tinnitus treatment elimination band to 0 and to amplify signals corresponding to the tinnitus treatment amplification band.

The inverse FFT unit and the encoding unit 30 perform an inverse FFT and encoding for restoration to a music file after processing the signals corresponding to the tinnitus treatment elimination band and the tinnitus treatment amplification band by the tinnitus frequency band processor 920 Lt; / RTI >

The processor 940 may be implemented to control operations of the tinnitus frequency search unit 900, the decoding and FFT unit 910, the tinnitus frequency band processing unit 920, the inverse FFT unit, and the encoding unit 930.

Such a tinnitus treatment method may be implemented in an application or in the form of program instructions that can be executed through various computer components, and recorded in a computer-readable recording medium (a recording medium recording the access restriction method). The computer-readable recording medium may include program commands, data files, data structures, and the like, alone or in combination. The program instructions recorded on the computer-readable recording medium may be ones that are specially designed and configured for the present invention and are known and available to those skilled in the art of computer software.

Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks and magnetic tape, optical recording media such as CD-ROMs and DVDs, magneto-optical media such as floptical disks, media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like.

Examples of program instructions include machine language code such as those generated by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware device may be configured to operate as one or more software modules for performing the processing according to the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. It will be possible.

400: Tinnitus frequency
420: Tinnitus treatment elimination frequency band
440: Tinnitus treatment amplification frequency band
900: Tinnitus frequency search section
910: decoding and FFT unit
920: Tinnitus frequency band processor
930: Inverse FFT and encoding unit

Claims (20)

delete delete delete delete delete delete delete delete delete delete delete In a music recommendation method for treating tinnitus,
The music recommendation server receiving information about a first tinnitus frequency for a left ear of a user and a second tinnitus frequency for a right ear;
The music recommendation server receiving a sound source request from the user device of the user;
Generating the tinnitus treatment sound source through signal processing based on at least one of the first tinnitus frequency and the second tinnitus frequency for the sound source; And
And transmitting the tinnitus treatment sound source to the user device by the music recommendation server,
Wherein the tinnitus treatment sound source is generated based on signal processing for a tinnitus treatment removal band and a tinnitus treatment amplification band determined based on the at least one of the first tinnitus frequency and the second tinnitus frequency, And adjusting the pitch of the sound source in consideration of a difference between the at least one of the first tinnitus frequency and the second tinnitus frequency. delete 13. The method of claim 12,
Wherein the music recommendation server transmits information on the recommended music to the user,
Wherein the recommended music includes both the first tinnitus frequency and the second tinnitus frequency in the frequency domain. 15. The tinnitus treatment sound source according to claim 14,
Decoding the sound source and converting the decoded sound source into a music signal in a frequency domain based on a fast fourier transform (FFT);
Removing a first lower music signal on the tinnitus treatment elimination band determined based on the at least one of the first tinnitus frequency and the second tinnitus frequency of the music signal in the frequency domain;
Amplifying a second lower music signal on the tinnitus treatment amplification band determined based on the at least one of the first tinnitus frequency and the second tinnitus frequency of the music signal in the frequency domain, How to recommend music. 16. The method of claim 15,
Wherein the tinnitus treatment bands comprise a half octave band higher than the at least one of the first and second tinnitus frequencies and a half octave band lower than the at least one of the first tinnitus frequency and the second tinnitus frequency, / RTI >
Wherein the tinnitus treatment amplification band is a frequency band adjacent to the tinnitus treatment elimination band. A music recommendation server for tinnitus treatment,
Wherein the music recommendation server comprises a processor,
The processor receives information about a first tinnitus frequency for a user's left ear and a second tinnitus frequency for a right ear,
Receiving a sound source from the user device of the user,
Generating a tinnitus treatment sound source for the sound source through signal processing based on at least one of the first tinnitus frequency and the second tinnitus frequency,
And transmitting the tinnitus treatment sound source to the user device,
Wherein the tinnitus treatment sound source is generated based on signal processing for a tinnitus treatment elimination band and a tinnitus treatment amplification band determined based on the at least one of the first tinnitus frequency and the second tinnitus frequency,
Wherein the tinnitus treatment bands comprise a half octave band higher than the at least one of the first and second tinnitus frequencies and a half octave band lower than the at least one of the first tinnitus frequency and the second tinnitus frequency, / RTI >
The tinnitus treatment amplification band is a frequency band adjacent to the tinnitus treatment elimination band
Wherein the tinnitus treatment sound source is generated by adjusting a pitch of the sound source in consideration of a difference between the frequency band of the sound source and at least one of the first tinnitus frequency and the second tinnitus frequency. delete 18. The method of claim 17,
The processor being adapted to transmit information about the recommended music to the user.
Wherein the recommendation music includes both the first tinnitus frequency and the second tinnitus frequency in the frequency domain. 20. The method of claim 19,
Wherein the tinnitus treatment sound source decodes the sound source and converts the decoded sound source into a music signal on the frequency domain based on a fast fourier transform (FFT), and the first tinnitus frequency and the first tinnitus frequency Removing at least one of the first tinnitus frequency and the second tinnitus frequency based on the at least one of the two tinnitus frequencies based on the at least one of the music signals on the frequency domain, And the second music signal is generated by amplifying a second lower music signal on the tinnitus treatment amplification band determined as the second music signal.

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