KR101071199B1 - sounder of inducing brainwave - Google Patents

Abstract

Among the brain waves generated by the human brain, it stores acoustic data that induces brain waves that intuitively affect the human body, and generates the corresponding brain wave induced sounds according to the user's needs to stimulate the human brain, thereby resonating the same sound as the brain waves. It relates to an EEG-induced sound device that induces EEG so that the brain can concentrate and relax.

An EEG-guided sound device comprising: a mode setting unit for selecting a desired EEG guide frequency and a digital sound source stored in a PCM storage unit by a user's manipulation; An analog sound generator for generating brain wave induced analog sounds consisting of alpha waves, beta waves, theta waves, and delta waves based on triangular and square waveforms; A harmonic analyzer for analyzing the fundamental natural harmonics of the EEG-derived analog sound generated by the analog sound generator to store harmonic values for triangular and square waveforms; A PCM synthesizing unit for setting a value of a component ratio such that the digital sound source stored in the PCM storage unit has the same structure as the triangular waveform and the square waveform according to the harmonic value of the brain wave induced analog sound; An electroencephalogram storage unit for converting and storing an electroencephalogram-induced analog sound whose harmonic value is analyzed through the harmonic analysis unit into a digital data form recognizable by a control program unit; A control program unit for controlling and outputting the brain wave induced sound analyzed by the harmonic analyzer and the PCM sound stored in the PCM storage unit to have the same harmonic structure and waveform structure; A PCM storage unit which stores various types of digital sound sources and provides corresponding sound sources according to control signals of the control program unit; A D / A converter converting the digitized brain wave induced sound and the PCM sound signal transmitted from the control program unit into an analog signal and transmitting the analog signal to a speaker unit; It relates to an EEG-guided acoustic device consisting of; a speaker unit for outputting the brain wave induced sound and PCM sound having the same harmonic structure and waveform structure.

EEG, sound device, overtone, waveform, PCM sound

Description

EEG sound wave device

The present invention relates to an EEG-induced acoustic device, and more particularly, to store the EEG-induced EEG sound according to the user's needs by storing acoustic data inducing EEG to intuitively affect the human body. By applying a stimulus to the brain of the human body, the EEG resonates with the same sound wave to induce an EEG to induce a concentration and relaxation of the brain to the sound wave induction apparatus.

In general, the brain waves generated in the human brain have a weak periodic current with various wavelengths. These brain waves vary according to the level of mental activity and stimulus consciousness, and are widely used as basic data for brain function diagnosis and disease diagnosis. The natural phenomenon of the brain that matches or resonates with the frequency of the stimulus generated from the outside is called EEG, and the frequency that induces a specific EEG using this phenomenon is called EEG.

The kinds of brain waves generated in the human brain are divided into alpha waves, beta waves, theta waves, and delta waves depending on the frequency. The alpha waves are brain waves generated when we close our eyes and relax the body. It has a frequency between 14 kHz, the beta wave is most of the brain waves generated when the consciousness is awake, the frequency of 14 to 30 kHz or more, Theta wave occurs in a shallow sleep state, than the alpha wave It has a lower frequency of 4-8 kHz, is produced at the boundary of perception and dream, and the delta wave has a frequency below 4 kHz lower than theta wave, and is most measured in sleep or unconscious state. EEG.

Referring to the conventional EEG generator, as shown in Figure 1, the drive control unit for outputting the corresponding frequency data of the health wave (alpha, beta, theta wave, etc.) for each type selected by the user through the mode setting key and A sound source supply unit for receiving type-specific data output from the driving control unit and transmitting corresponding waveforms to the left and right sides of the headphones, and a light emitting signal corresponding to the type-specific data output from the driving control unit on the left side of the glasses provided with a light emitting element; It consists of a configuration of the lighting supply portion to send to each and the right.

In the conventional EEG generator, when a user selects and inputs a specific mode such as sleep or activity, the driving controller outputs the type-specific data corresponding to the specific mode selected by the user to the sound source supply unit and the lighting supply unit, respectively. The sound source supply unit reads an audio sound source having a frequency of the health wave corresponding to the type-specific data and outputs it through the left and right output terminals of the headphones, respectively, and the lighting supply unit according to the frequency of the health wave corresponding to the type-specific data. By generating a light emitting signal in a flashing cycle to output to the left and right optical output terminals of the glasses worn by the user, the specific health wave selected by the user is output as sound and light to induce and stimulate the user's brain waves.

However, in order to use a conventional EEG generator, the user has to wear headphones provided with a sound source supply unit and wears glasses provided with an illumination supply unit, which is inconvenient in use, and the EEG frequency generator is used alone. It is a situation that has not been widely popular because it is configured and manufactured as a device and sold at a high price, and there is a problem in that it is inconvenient to use because it must be used separately from a general portable device.

On the other hand, overtone is a sound that is mixed with a number of notes other than the one heard in the ear when one note is sounded, and the overtone refers to the ringing of another note of the constant multiple from the frequency of the first sound. The harmonic structure indicates that the basic sound (harmonic sound) is present to indicate the characteristics of the sound, and that the sound is expressed by being combined with the frequencies of other multiples.

A waveform is a wave shape used to transmit a signal, and is generated by changing a phase of a frequency. Looking at the type of the waveform, a signal wave, which is a fundamental waveform, is formed in a sinusoidal form of a trigonometric function. The alternating current from the power plant has a frequency of 60 Hz, the sawtooth wave is a wave whose triangle is triangular or serrated, and the square wave is rectangular, which is used to transmit digital signals. Waveform.

Therefore, there is a need for an acoustic device capable of generating sound having a harmonic structure and waveform structure having the same shape as the EEG induced frequency according to various waveform structures by applying the technology of harmonic theory to human brain wave sound.

The present invention has been made to solve the above problems, by outputting the EEG-induced sound according to the user's state by outputting the PCM sound modulated in the same harmonic structure and waveform structure as the EEG-induced sound at the same time, The user has the purpose of stimulating the EEG through the EEG-induced sound, which allows the brain to concentrate or relax while listening to a variety of desired music.

In order to achieve the above object, an EEG-guided sound device comprising: a mode setting unit for selecting a desired EEG induced frequency and a digital sound source stored in a PCM storage unit by a user's operation; An analog sound generator for generating brain wave induced analog sounds consisting of alpha waves, beta waves, theta waves, and delta waves based on triangular and square waveforms; A harmonic analyzer for analyzing the fundamental natural harmonics of the EEG-derived analog sound generated by the analog sound generator to store harmonic values for triangular and square waveforms; A PCM synthesizing unit for setting a value of a component ratio such that the digital sound source stored in the PCM storage unit has the same structure as the triangular waveform and the square waveform according to the harmonic value of the brain wave induced analog sound; An electroencephalogram storage unit for converting and storing an electroencephalogram-induced analog sound whose harmonic value is analyzed through the harmonic analysis unit into a digital data form recognizable by a control program unit; A control program unit for controlling and outputting the brain wave induced sound analyzed by the harmonic analyzer and the PCM sound stored in the PCM storage unit to have the same waveform structure such as triangular waveform and square waveform; A PCM storage unit which stores various types of digital sound sources and provides corresponding sound sources according to control signals of the control program unit; A D / A converter converting the digitized brain wave induced sound and the PCM sound signal transmitted from the control program unit into an analog signal and transmitting the analog signal to a speaker unit; It is intended to implement an EEG-induced acoustic device consisting of; a speaker unit for outputting the electroencephalogram induced sound and PCM sound having the same harmonic structure and waveform structure.

The control program unit converts the triangular waveform and the square waveform according to the harmonic value of the EEG induced sound set by the PCM synthesizer to reproduce the digital sound source stored in the PCM storage unit. A control unit for controlling to output the; A frequency modulator for modulating the acoustic harmonic structure and the waveform structure of the PCM sound source stored in the PCM storage unit on the basis of the harmonic value information of the EEG induced sound set by the PCM synthesizer by receiving the control signal of the controller; A tempo holding unit for determining the output timing of the EEG-induced sound and the PCM sound at a constant tempo speed; It consists of a panning unit for separating the channel so as to output the sound alternately to the left and right speakers.

The tempo holding unit is configured to maintain the tempo at a speed of 60 bpm and a multiple of 120 bpm.

The present invention naturally induces EEG by selecting EEG-induced sounds having the same harmonic structure and waveform structure according to the user's state while the user listens to various music or psychologically comfortable sounds through the EEG-induced acoustic device according to the present invention. By doing so, there is an effect of improving the convenience of the user and increasing the utility of the product.

Hereinafter, with reference to the drawings will be described in detail with respect to the EEG acoustic apparatus applied to the present invention.

Figure 1 is a block diagram showing a conventional EEG generator, Figure 2ab is an exemplary view showing a triangular waveform and a square wave generated through the EEG-guided acoustic device applied to the present invention, Figure 3 is a present invention The overall configuration showing the EEG-induced sound device is applied.

As shown, the specific analog sound waveform generated through the analog sound generator 20 selected by the mode setting unit 10 analyzes and stores the harmonic value of the EEG-induced sound in the harmonic analysis unit 30 and stores the PCM ( Pulse Code Modulation) The synthesizer 40 sets the values of the component ratios such that the PCM sound source has the same harmonic structure and the waveform structure based on the analyzed harmonic value of the EEG-induced sound. The EEG guided sound is stored as data, and the control program unit 60 loads specific EEG guided sounds and PCM sound sources stored in the EEG storage unit 50 and the PCM storage unit 70 and places them in the same harmonic structure and waveform structure. After controlling so as to convert the analog signal through the D / A converter unit 80 is configured to output to the outside through the speaker unit 90.

The mode setting unit 10 is formed at a predetermined position outside the EEG-induced acoustic device according to the present invention, and the electric wave such as alpha wave, beta wave, theta wave, delta wave, etc., which is an electroencephalogram induced frequency according to the user's state by the user's operation The sound can be selected so that the corresponding electric sound can be output through the analog sound generator 20, and a desired sound source can be selected from the digital sound sources stored in the PCM storage unit 70.

The analog sound generator 20 generates various types of electrical sounds based on triangular and square waveforms, that is, brain wave induced analog sound such as alpha wave, beta wave, theta wave, delta wave, etc. using an oscillator. When the specific EEG-induced analog sound is selected by the mode setting unit 10, the EEG-induced analog sound can be generated accordingly.

The harmonic analysis unit 30 analyzes basic natural harmonics consisting of a triangular waveform and a square waveform generated by the analog sound generator 20, and includes brain waves such as alpha wave, beta wave, theta wave, delta wave, etc. The harmonic value for the induced sound is stored, wherein the triangular waveform is a waveform including all the harmonic multiples, and the phases of each pure waveform are combined to form the shape shown in FIG. 2A, and the square waveform corresponds to the odd number of each harmonic multiple. Only the waveforms are combined to form the shape shown in FIG. 2B.

The PCM synthesizing unit 40 applies the harmonic value of the EEG induced sound for the alpha wave, beta wave, theta wave, delta wave, etc. analyzed by the harmonic analyzer 30 to the digital sound source stored in the PCM storage unit 70 in the same manner. In order to be able to do this, various harmonic structures of the digital sound source stored in the PCM storage unit 70 are set and stored in the same structure as the triangular waveform and the square waveform according to the harmonic value of the brain wave induced sound. .

The brain wave storage unit 50 converts the brain wave induced sound from which the harmonic value is analyzed through the harmonic analyzer 30 into a digital form recognizable by the control program unit to induce brain waves such as alpha waves, beta waves, theta waves, delta waves, and the like. Data is stored in the sound.

The control program unit 60 controls to output an EEG-induced sound and a PCM sound having a frequency of the same waveform according to a user's state, and includes a control unit 61, an acoustic modulation unit 62, and a tempo holding unit ( 63) and a panning unit 64. The control unit 61 converts an EEG induced sound and a PCM sound source into an EEG storage unit based on information selected according to a user's state through the mode setting unit 10. 50) and the PCM storage unit 70, and then modulated into a harmonic structure and waveform structure of the same frequency through the acoustic modulator 62 to be transmitted to the D / A converter unit 80.

The acoustic modulator 62 receives a control signal from the controller 61 and performs a control operation on the PCM storage unit 70 based on the triangular waveform and the square waveform information according to the harmonic value of the electroencephalogram induced sound set by the PCM synthesizer 40. The frequency harmonic structure and the waveform structure of the imported PCM sound are modulated in the same manner, and the tempo maintaining part 63 has a speed of 120 bpm (Beats per Minute) which is a multiple of the basic tempo 60 bpm at which the human heart beats when outputting the sound. It is possible to determine the output timing of the EEG-induced sound and PCM sound to maintain the, and when the panning unit 64 outputs the same waveform, the software program to output the sound alternately left and right speakers alternately To be separated.

The PCM storage unit 70 stores digital sounds such as various types of sounds, that is, MP3 music files, natural sounds, or human voices, so that the corresponding sound sources can be provided according to control signals of the control program unit 60. do.

The D / A converter 80 outputs a digital signal transmitted from the control program unit 60, that is, an EEG-induced sound and a PCM sound signal modulated with the same harmonic structure and waveform structure as the EEG-induced sound. Convert into an analog signal that can be recognized by the transmit to the speaker unit (90).

The speaker unit 90 is capable of simultaneously outputting the brain wave induced sound and the PCM sound having the same harmonic structure and waveform structure.

The operation of the EEG-induced acoustic device constructed by one embodiment of the present invention as described above will be described.

The user selects various EEG-induced sounds and PCM sound sources through the mode setting unit 10 and freely listens to music while enhancing their concentration, deep relaxation, and sound sleep through the desired EEG-induced waveforms, ie, alpha waves, beta waves, theta waves, and delta waves. The user can select the brain waves that can induce the back, but when the EEG-induced waveform and the PCM sound source are output, they can be made of the same harmonic structure and waveform structure, so that the user can listen to the desired music in a psychologically comfortable state. You can listen to EEG guided sound.

When the user selects an alpha wave to improve concentration and memory among the brain wave induced sounds through the mode setting unit 10 and selects a specific MP3 file which is a digital sound source stored in the PCM storage unit 70, an analog sound is generated. The oscillator of the unit 20 is operated to generate an alpha wave, which is an electroencephalogram-derived analog waveform based on a triangular waveform and a square waveform.

The alpha wave generated through the analog sound generator 20 may analyze the basic harmonic in the harmonic analysis unit 30 to store a harmonic value for the harmonic structure and the waveform structure of the alpha wave, and the harmonic analyzer On the basis of the harmonic value of the alpha wave, which is the brain wave induced sound analyzed in (30), the PCM synthesizer 40 has a digital waveform stored in the PCM storage unit 70 and a triangular waveform and a square wave according to the harmonic value of the alpha wave. After setting the value of the composition ratio so as to have the same structure, it is stored.

The alpha wave whose harmonic value is analyzed by the harmonic analysis unit 30 is converted into a digital signal recognizable by the control program unit 60 and stored in the brain wave storage unit 50. The control unit of the control program unit 60 61 reads the alpha wave data stored in the EEG storage unit 50, imports the specific MP3 sound source data of the PCM storage unit 70 selected through the mode setting unit 10, and then sends the data to the acoustic modulation unit 62. The control signal is applied to modulate the acoustic frequency of the MP3 sound source data with a component ratio value consisting of a triangular waveform and a square waveform set by the PCM synthesizer 40.

At this time, the control signal is applied to the tempo holding unit 63 to adjust the timing so that the alpha wave and the MP3 sound source can be output as fast as 120 bpm, and the control signal is applied to the panning unit 64 to output the alpha wave and the MP3 sound source. , The left and right speakers can be alternately controlled to enable output.

As described above, the alpha wave and MP3 sound sources, which are brain wave induced sounds having the same harmonic structure and waveform structure through the control program unit 60, are converted into analog signals through the D / A converter unit 80, and then the speaker unit 90. It allows the user to output the sound audible.

As described above, the present invention is intended to induce a brain wave of a desired form while listening to a brain wave induced sound and a digital sound source composed of the same harmonic structure and waveform structure in a comfortable state. For those skilled in the art, various substitutions, modifications, and changes are possible without departing from the technical spirit of the present invention, and are not limited to the above-described embodiments and the accompanying drawings.

1 is a block diagram showing a conventional EEG generator

Figure 2ab is an illustration showing a triangular waveform and a square waveform generated through the EEG-guided acoustic device to be applied to the present invention

Figure 3 is an overall configuration diagram showing an EEG-induced acoustic barrier applied to the present invention

* Description of Signs of Main Parts of Drawings *

10. Mode setting unit 20. Analog sound generator

30. Overtone analysis section 40. PCM synthesis section

50. EEG storage unit 60. Control program unit

61. Control unit 62. Acoustic modulator

63. Tempo Maintainer 64. Panning Part

70. PCM storage 80. D / A converter

90. Speaker unit

Claims (3)

delete A mode setting unit for selecting a desired EEG induced frequency and a digital sound source stored in the PCM storage unit by a user's operation; An analog sound generator for generating brain wave induced analog sounds consisting of alpha waves, beta waves, theta waves, and delta waves based on triangular and square waveforms; A harmonic analyzer for analyzing the fundamental natural harmonics of the EEG-derived analog sound generated by the analog sound generator to store harmonic values for triangular and square waveforms; A PCM synthesizing unit for setting a value of a component ratio such that the digital sound source stored in the PCM storage unit has the same structure as the triangular waveform and the square waveform according to the harmonic value of the brain wave induced analog sound; An electroencephalogram storage unit for converting and storing an electroencephalogram-induced analog sound whose harmonic value is analyzed through the harmonic analysis unit into a digital data form recognizable by a control program unit; A control program unit for controlling and outputting the brain wave induced sound analyzed by the harmonic analyzer and the PCM sound stored in the PCM storage unit to have the same harmonic structure such as alpha wave, beta wave, theta wave, delta wave, etc .; A PCM storage unit which stores various types of digital sound sources and provides corresponding sound sources according to control signals of the control program unit; A D / A converter converting the digitized brain wave induced sound and the PCM sound signal transmitted from the control program unit into an analog signal and transmitting the analog signal to a speaker unit; In the brain waveguide acoustic apparatus comprising: a speaker unit for outputting the electroencephalogram induced sound and PCM sound having the same harmonic structure and waveform structure, The control program unit converts the triangular waveform and the square waveform according to the harmonic value of the EEG induced sound set by the PCM synthesizer to reproduce the digital sound source stored in the PCM storage unit. A control unit for controlling to output the; An acoustic modulator for modulating the acoustic harmonic structure and the waveform structure of the PCM sound source stored in the PCM storage unit on the basis of the harmonic value information of the EEG induced sound set by the PCM synthesizer by receiving the control signal of the controller; A tempo holding unit for determining the output timing of the EEG-induced sound and the PCM sound at a constant tempo speed; And a panning unit to separate the channel so as to output sound while switching to the left and right speakers. The method of claim 2, The tempo holding unit is a brain wave guide sound device, characterized in that configured to maintain the tempo as fast as 120bpm.

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