CN111916115A - Method for manufacturing double-ear beat low-frequency sound wave pulse - Google Patents

Abstract

The invention provides a method for manufacturing a binaural beat low-frequency sound wave pulse, which comprises the following steps of: s1: determining three frequencies which are effective for brain wave intervention as a, c and e and a sound wave difference value x through an electroencephalogram and topographic map instrument; s2: making low-frequency sound waves based on a binaural beat principle; s3: according to the sound wave difference value x, making a sound wave c and a sound wave d of which the sine values are greater than those of the sound wave a and the sound wave b; s4: three synthesized sound waves ab-xHz, cd-xHz and ef-xHz are combined together according to the time length proportion of 1:1:4 to form a sound wave h with gradually increased sound amplitude based on the difference value of x, and the sound wave h generates impact effect on auditory nerves of brain along with the gradual increase of the intensity of the single-track sound wave. Through carrying out pulse type wave frequency clipping with ears beat wave frequency and forming sound wave impact effect, the intervention of brain waves can be better realized, and the reciprocating impact effect can effectively balance the larger fluctuation of the brain waves and carry out deeper stimulation.

Description

Method for manufacturing double-ear beat low-frequency sound wave pulse

Technical Field

The invention relates to the field of audio editing and manufacturing, in particular to a method for manufacturing binaural beat low-frequency sound wave pulses.

Background

Binaural Beat music (BBT) was discovered by the german scientist heinrichi william doctor in 1839, and applied to brain science by the american scientist jarred oester in 1973, and is used for brain function state adjustment, consciousness state adjustment, and mental state adjustment.

When the two ears receive music beats with slightly different frequencies, respectively, the listener feels that the sound is emitted directly from the deep brain. Binaural beats realize binaural auditory nerve excitation differences based on binaural beat auditory differences, further induce cerebral nerve excitation differences, and realize intervention of music on cerebral brain waves. Based on the fact that the most sensitive value of the brain to the auditory resolution of the left ear and the right ear is within 30Hz, the binaural beat is made by applying low-frequency sound waves within 200Hz (for example, 160Hz and 168Hz of the left ear and the right ear, namely, the binaural beat sound waves with the left-right ear difference value of 8 Hz).

Binaural beats are low-frequency audio that employ different sound beats and are sufficient to effectively stimulate excitation of cerebral neurons. By applying the BBT technology, brain wave states of the brain can be effectively improved, accurate binaural beats and rhythms can accurately stimulate corresponding areas of the brain, biological effects are generated, and emotions and states are improved.

However, the conventional double-beat music has slow intervention efficiency on brain waves, has weak stabilizing effect on the condition of large brain wave fluctuation, and cannot realize deep stimulation of a planned intervention value.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a method for making binaural beat low-frequency sound wave pulses, which is used for editing multiple single binaural beat music to make the low-frequency sound wave pulse music based on binaural beat attributes, so that the effect of binaural beat music can be better realized.

In order to achieve the purpose, the invention is realized by the following technical scheme:

a method for manufacturing a binaural beat low-frequency sound wave pulse comprises the following steps:

s1: determining three frequencies which are effective for brain wave intervention as a, c and e and a sound wave difference value x through an electroencephalogram and topographic map instrument;

s2: the method comprises the steps of making low-frequency sound waves based on a binaural beat principle, making sine wave sound waves a and sine wave sound waves b independently according to a set value signal generator, wherein the difference value of the two sound waves is x, and synthesizing the left and right sound channels of the sound waves a and the sound waves b into sound waves ab-xHz by music editing software to realize the synthesized sound waves ab-xHz with the difference value of the left and right ear beats being x;

s3: according to the sound wave difference value x, making a sound wave c and a sound wave d of which the sine values are greater than the sound waves a and b, and synthesizing the sound waves c and d into a synthesized sound wave cd-xHz; then, in a sequential mode, a sound wave e and a sound wave f with sine values larger than the sound waves c and d are made and synthesized into a synthesized sound wave ef-xHz; thus, the synthesized sound waves ab-xHz, cd-xHz and ef-xHz with double-beat effect are obtained; the sine value of the synthesized sound wave of the three double beats is gradually increased (ab-xHz < cd-xHz < ef-xHz);

s4: combining three synthesized sound waves of ab-xHz, cd-xHz and ef-xHz according to a time length proportion of 1:1:4 to form a sound wave h with gradually increased sound amplitude based on an x difference value, wherein the sound wave h generates an impact effect on auditory nerves of the brain along with the gradual increase of the intensity of the single-track sound wave;

s5: and cyclically superposing the sound wave h according to the pulse rhythm to form the reciprocating type binaural beat low-frequency sound wave pulse with the cyclicity changed from weak to strong.

The invention has the following beneficial effects:

through carrying out pulsed wave frequency with ears beat wave frequency and cutting formation sound wave shock effect, the intervention of realization brain wave that can be better, reciprocating shock effect can effectual balanced brain wave's great fluctuation moreover to carry out deeper stimulation, the two beat low frequency sound wave pulse has more efficient effect for basic ears beat music intervenes consciousness state, and is obvious with the improvement effect of regulating power to the stability of consciousness mood.

Example 1:

a method for making low-frequency sound wave pulse with double-ear rhythm includes editing multiple single double-beat music to make low-frequency sound wave pulse music based on double-ear rhythm attribute, and realizing effect of double-ear rhythm music.

A method for manufacturing a binaural beat low-frequency sound wave pulse comprises the following steps:

s1: determining three frequencies which are more effective for brain wave intervention to be 170Hz, 230Hz and 260Hz respectively through an electroencephalogram (EEG) topographer, wherein the difference wave frequency is 8 Hz;

s2: the method comprises the steps of manufacturing low-frequency sound waves based on a binaural beat principle, independently manufacturing sine wave sound waves 170Hz and sound waves 178Hz according to a set value signal generator, wherein the difference value of the two sound waves is 8Hz, and synthesizing left and right sound channels of the sound waves 170Hz and the sound waves 178Hz into sound waves 170178-8Hz by music editing software to realize a synthesized sound wave 170178-8Hz with the difference value of the left and right ear beats being 8 Hz;

s3: according to the sound wave difference value of 8Hz, sound waves 230Hz and 238Hz are made, the sine values of which are greater than that of the sound waves 170Hz and 178Hz, and the sound waves 230Hz and 238Hz are synthesized into synthesized sound waves 230238-8 Hz; then, in a sequential mode, a sound wave 260Hz and a sound wave 268Hz are made, and the sine value of the sound wave is larger than the sound wave 230Hz and the sound wave 238Hz, and the sound wave 260Hz and the sound wave 268Hz are synthesized into a synthesized sound wave 260268-8 Hz; thus, synthesized sound waves with double beat effects of 170178-8Hz, 230238-8Hz and 260268-8Hz are obtained; the sine value of the synthesized sound wave of three double beats is gradually increased (170178-8Hz < 230238-8Hz < 260268-8 Hz);

s3: three synthesized sound waves 170178-8Hz, 230238-8Hz and 260268-8Hz are clipped together according to the time length proportion of 1:1:4 to form sound waves 170230260-8Hz with gradually increased sound amplitude on the basis of 8Hz difference, and with the gradual increase of the intensity of the single-track sound waves, the sound waves 170230260-8Hz generate impact effect on auditory nerves of the brain;

s4: according to the pulse rhythm, the sound waves 170230260-8Hz are cyclically superposed to form reciprocating binaural beat low-frequency sound wave pulses with the cycles changing from weak to strong.

Example 2:

a method for making low-frequency sound wave pulse with double-ear rhythm includes editing multiple single double-beat music to make low-frequency sound wave pulse music based on double-ear rhythm attribute, and realizing effect of double-ear rhythm music.

A method for manufacturing a binaural beat low-frequency sound wave pulse comprises the following steps:

s1: determining three frequencies which are effective for brain wave intervention to be 110Hz, 180Hz and 210Hz respectively through an electroencephalogram (EEG) topographer, and determining the difference wave frequency to be 6.5 Hz;

s2: the method comprises the steps of manufacturing low-frequency sound waves based on a binaural beat principle, independently manufacturing a sine wave sound wave 110Hz and a sound wave 116.5Hz according to a set value signal generator, wherein the difference value of the two sound waves is 6.5Hz, and synthesizing left and right sound channels of the sound wave 110Hz and the sound wave 116.5Hz into sound waves 110116.5-6.5Hz by music editing software to realize a synthesized sound wave 110116.5-6.5Hz with the difference value of the left and right ear beats being 6.5 Hz;

s3: according to the sound wave difference value of 6.5Hz, sound waves 180Hz and 186.5Hz with the sine values larger than the sound waves 110Hz and 116.5Hz are made, and the sound waves 180Hz and the sound waves 286.5Hz are synthesized into synthesized sound waves 180186.5-6.5 Hz; then, sequentially making a sound wave 210Hz and a sound wave 216.5Hz with sine values larger than 180Hz and 186.5Hz, and synthesizing the sound waves into a synthesized sound wave 210216.5-6.5 Hz; thus obtaining the synthesized sound waves 110116.5-6.5Hz, 180186.5-6.5Hz and 210216.5-6.5Hz with double beat effect; the sine value of the synthesized sound wave of three double beats is gradually increased (170178-8Hz < 230238-8Hz < 260268-8 Hz);

s4: the method comprises the steps of cutting 110116.5-6.5Hz, 180186.5-6.5Hz and 210216.5-6.5Hz synthesized sound waves together according to a time length ratio of 1:1:4 to form 110180210-6.5Hz sound waves with gradually increased sound amplitude on the basis of a 6.5Hz difference value, wherein the 110180210-6.5Hz sound waves have an impact effect on auditory nerves of a brain along with the gradual increase of the intensity of single-track sound waves;

s5: according to the pulse rhythm, the sound waves 110180210-6.5Hz are cyclically superposed to form reciprocating binaural beat low-frequency sound wave pulses with the cyclical property changed from weak to strong.

Example 3:

a method for making low-frequency sound wave pulse with double-ear rhythm includes editing multiple single double-beat music to make low-frequency sound wave pulse music based on double-ear rhythm attribute, and realizing effect of double-ear rhythm music.

A method for manufacturing a binaural beat low-frequency sound wave pulse comprises the following steps:

s1: determining three frequencies which are effective for brain wave intervention to be 260Hz, 230Hz and 180Hz respectively through an electroencephalogram (EEG) topographer, and determining the difference wave frequency to be 12 Hz;

s2: the method comprises the steps of manufacturing low-frequency sound waves based on a binaural beat principle, independently manufacturing sine wave sound waves 260Hz and sine wave sound waves 272Hz according to a set value signal generator, wherein the difference value of the two sound waves is 12Hz, and synthesizing left and right sound channels of the sound waves 260Hz and the sound waves 272Hz into sound waves 260272-12Hz by music editing software, so that synthesized sound waves 260272-12Hz with the difference value of left and right ear beats of 12Hz are realized;

s3: according to the sound wave difference value of 12Hz, sound waves 230Hz and 242Hz with the sine values smaller than the sound waves 260Hz and 272Hz are produced, and the sound waves 230Hz and 242Hz are synthesized into synthesized sound waves 230242-12 Hz; then, sequentially making a sound wave 180Hz and a sound wave 192Hz with sine values larger than the sound wave 230Hz and the sound wave 242Hz, and synthesizing the sound waves into a synthesized sound wave 180192-12 Hz; thus, synthesized sound waves with double beat effects of 260272-12Hz, 230242-12Hz and 180192-12Hz are obtained; the sine value of the synthesized sound wave of the three double beats is gradually reduced (260272-12Hz > 230242-12Hz > 180192-12 Hz);

s4: the three synthesized sound waves 260272-12Hz, 230242-12Hz and 180192-12Hz are clipped together according to the time length proportion of 1:1:4 to form the sound wave 260230180-12Hz with the gradually reduced sound amplitude on the basis of the 12Hz difference, and the sound wave 260230180-12Hz generates the impact effect on the auditory nerve of the brain along with the gradual weakening of the intensity of the single-track sound wave;

s5: the sound waves 260230180-12Hz are cyclically superposed according to the pulse rhythm, so that the reciprocating binaural beat low-frequency sound wave pulse with strong and weak cyclicity is formed.

Example 4:

a method for making low-frequency sound wave pulse with double-ear rhythm includes editing multiple single double-beat music to make low-frequency sound wave pulse music based on double-ear rhythm attribute, and realizing effect of double-ear rhythm music.

A method for manufacturing a binaural beat low-frequency sound wave pulse comprises the following steps:

and S1, determining that the three frequencies which are effective for brain wave intervention are 140Hz, 180Hz and 260Hz respectively through the electroencephalograph, and determining that the difference wave frequency is 18 Hz.

S2: the method comprises the steps of manufacturing low-frequency sound waves based on a binaural beat principle, independently manufacturing sine wave sound waves 140Hz and harmonic waves 158Hz according to a set value signal generator, wherein the difference value of the two sound waves is 18Hz, and synthesizing left and right sound channels of the sound waves 140Hz and the harmonic waves 158Hz into sound waves 140158-18Hz by music editing software to realize the synthesized sound waves 140158-18Hz with the difference value of left and right ear beats being 18 Hz;

s3: according to the sound wave difference value of 18Hz, sound waves 180Hz and 198Hz are made, the sine values of which are larger than 140Hz and 158Hz of the sound waves, and the sound waves 180Hz and 198Hz are synthesized into synthesized sound waves 190198-18 Hz; then, in a sequential mode, a sound wave 260Hz and a sound wave 278Hz are made, and the sine value of the sound wave is greater than the sound wave 190Hz and the sound wave 198Hz, and the sound wave 260Hz and the sound wave are synthesized into a synthesized sound wave 260278-18 Hz; thus, the synthesized sound waves 140158-18Hz, 190198-18Hz and 260278-18Hz with double beat effect are obtained; the sine value of the synthesized sound wave of three double beats is gradually increased (140158-18Hz < 190198-18Hz < 260278-18 Hz);

s34: three synthesized sound waves 140158-18Hz, 190198-18Hz and 260278-18Hz are clipped together according to the time length proportion of 1:1:4 to form a sound wave 140190260-18Hz with gradually increased sound amplitude on the basis of the 18Hz difference value, and the sound wave 140190260-18Hz generates a shock effect on the auditory nerve of the brain along with the gradual increase of the intensity of the single-track sound wave;

s5: according to the pulse rhythm, the sound waves 140190260-18Hz are cyclically superposed to form reciprocating binaural beat low-frequency sound wave pulses with the cycles changing from weak to strong.

Experimental case

Yihua-somewhat, women, 37 years old, general supervision of sale, long-term anxiety, sleep disorder, inability to fall asleep quickly, long time for deep sleep and low sleep quality. The wave frequency frequencies which are easy to act on the brain and detected by the electroencephalograph are respectively 180Hz, 140Hz and 96Hz, the difference value is 6.5Hz, then the theta wave frequency (6.5Hz reduced frequency wave frequency 18014096-6.5Hz) sound waves are made to conduct consciousness relaxation sleep-aiding guide training, people listen to the sound waves for 15min before noon break and night sleep every day, the sleep quality is gradually improved after listening, the sound wave guide is gradually separated from the sound wave guide after 23 days, and the people can automatically fall asleep.

Second, what is, male, age 19, high school students, sleep deficiency, energy deficiency, inability to fall asleep quickly, early reading, and inability to enter the state quickly. The electroencephalogram topographer detects that the wave frequency of the brain which is easy to act is 240Hz180Hz Hz and 120Hz respectively, the difference value is 8.5Hz, then alpha frequency (8.5Hz decreasing wave frequency 240180120-8.5Hz) for guiding sleep and SMR wave frequency (14Hz increasing wave frequency 150170210-14Hz) sound wave for lifting consciousness arousal are produced to conduct consciousness relaxation sleep-aid guiding training and consciousness arousal lifting training, before sleeping, consciousness relaxation sleep-aid guiding training is listened every day, consciousness arousal lifting training is listened every morning, after listening, the sleep quality and early consciousness regulating ability are enhanced, after 14 days, the sound wave pulse training is basically separated, and autonomous regulation is achieved.

Third, Hui Zhi, woman, age 61, leaving the dry part, memory decline, amnesia. The electroencephalogram cartograph detects that the wave frequency of the brain easy to act is respectively 140Hz190Hz Hz and 270Hz, the difference value is 11Hz, then alpha wave frequency (11Hz frequency-decreasing and increasing wave frequency 140190270-11Hz) sound waves are made to conduct consciousness arousal promotion and guide training, the user listens for 15min in the morning and before the evening every day, the consciousness arousal degree and the consciousness state adjusting capability are gradually improved after listening, the user breaks away from the sound wave training gradually after 30 days, and the user has better consciousness state and adjusting capability.

Fourthly, Dongzhi, female, age 33, Dutaibao mother, sleep rhythm disorder, emotional instability, anxiety and irritability. The electroencephalogram terrain graph detects that the wave frequency which is easy to act on the brain is 210Hz170Hz and 140Hz respectively, the difference value is 10.5Hz, then alpha wave frequency (10.5Hz decreasing frequency wave frequency 210170140-10.5Hz) sound waves are made to conduct consciousness stability guide training, the user listens for 15min in the morning and in the afternoon every day, the consciousness stability degree and the consciousness state adjusting capability are gradually improved after listening, the user can conduct quiet heart training and enter a sleep state smoothly, the deep sleep time is displayed through wristwatch detection, the user breaks away from the sound wave training gradually after 30 days, and the user has a better consciousness state and adjusting capability.

Fifthly, congratulating on certain people, male, age 56, workers with industrial injury, craniocerebral trauma, right frontal lobe hemorrhage 50ml, and mild coma with disturbance of consciousness. The electroencephalogram topographer detects that the wave frequency of the brain easy to act is 120Hz210Hz Hz and 280Hz respectively, the difference value is 18Hz, then alpha wave frequency (18Hz frequency wave frequency of decreasing and increasing 120210280-18Hz) sound waves are made to conduct consciousness arousal promotion guide training, 30min of listening is respectively carried out between 8:00-9:00 in the morning and 2:00-3:00 in the afternoon every day, after listening, the consciousness arousal degree and the consciousness arousal duration are gradually improved, and after 30 days, the Grassge scale score is increased by 2 points.

According to the typical case, the double-beat low-frequency sound wave pulse has a more efficient effect on conscious state intervention compared with the basic binaural beat music, and has an obvious effect on the stability and the regulation capability of conscious emotion.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (3)

1. A method for manufacturing a binaural beat low-frequency sound wave pulse is characterized by comprising the following steps:

s1: determining three frequencies which are effective for brain wave intervention as a, c and e and a sound wave difference value x through an electroencephalogram and topographic map instrument;

s2: the method comprises the steps of making low-frequency sound waves based on a binaural beat principle, making sine wave sound waves a and sine wave sound waves b independently according to a set value signal generator, wherein the difference value of the two sound waves is x, and synthesizing the left and right sound channels of the sound waves a and the sound waves b into sound waves ab-xHz by music editing software to realize the synthesized sound waves ab-xHz with the difference value of the left and right ear beats being x;

s3: according to the sound wave difference value x, making a sound wave c and a sound wave d of which the sine values are greater than the sound waves a and b, and synthesizing the sound waves c and d into a synthesized sound wave cd-xHz; then, in a sequential mode, a sound wave e and a sound wave f with sine values larger than the sound waves c and d are made and synthesized into a synthesized sound wave ef-xHz; thus, the synthesized sound waves ab-xHz, cd-xHz and ef-xHz with double-beat effect are obtained;

s4: combining three synthesized sound waves of ab-xHz, cd-xHz and ef-xHz according to a time length proportion of 1:1:4 to form a sound wave h with gradually increased sound amplitude based on an x difference value, wherein the sound wave h generates an impact effect on auditory nerves of the brain along with the gradual increase of the intensity of the single-track sound wave;

s5: and cyclically superposing the sound wave h according to the pulse rhythm to form the reciprocating type binaural beat low-frequency sound wave pulse with the cyclicity changed from weak to strong.

2. A method of producing binaural beat low frequency sound wave pulses according to claim 1, characterized in that said sound wave difference x has a value in the range 0-30.

3. A method of making binaural beat low frequency sound wave pulses according to claim 1, characterized in that in step S3 the sine value of the synthesized sound wave of the three binaural beats is gradually increased, i.e. ab-xHz < cd-xHz < ef-xHz.