TWI620173B - Method of mixing frequency following response evokded sounds with music to modulate neuronal networks associated with multiple intelligences in the brain - Google Patents

Abstract

The invention relates to a method for introducing sound waves into the corresponding eight major multi-intelligent neural circuits in the brain, which comprises sound wave mixing and combined magnetic resonance imaging: synthesis and establishment of sound waves with a frequency emulation reaction, and introduction The frequency imitates the reaction sound waves into the music database, and the frequency emulates the reaction sound waves into the music to trigger the collection and analysis of the magnetic resonance imaging data of the brain nerve activity, and a step of establishing a monitoring biological indicator. Thereby, the present invention can establish the sound wave frequency through the frequency emulation reaction, and combine the mixing method and the music synthesis, and develop a frequency emulation reaction sound wave import music method capable of adjusting the corresponding eight multi-intelligent neural circuits in the brain, which can be used as a music import. Stimulate the objective quantitative biological indicators and derivative products of the eight major multi-intelligence neural responses in the brain, including: Chinese intelligence, logical mathematics intelligence, spatial intelligence, limb kinesthetic intelligence, music intelligence, interpersonal intelligence, introspective intelligence, nature Observe intelligence.

Description

Adjustable eight multi-intelligent FFR sound waves corresponding to different neural circuits in the brain (frequency Imitate the reaction sound wave) import music method

The invention relates to a frequency emulation reaction sound wave introduction music method combined with magnetic resonance imaging data to establish a technical field which can help to adjust the objective quantitative biological index of the corresponding eight major multi-intelligence neural responses in the brain, specifically to use a frequency to imitate the reaction sound wave. Synthesis and establishment, import frequency emulation reaction sound wave into music database, frequency emulation reaction sound wave introduction music triggers the collection and analysis of brain nerve activity magnetic resonance imaging data, and a step to establish monitoring biological indicators.

According to the past evidence and technology, only the brain wave frequency energy adjustment corresponding to the external brain wave and the frequency emulation reaction is provided. The present invention first uses the method of sound wave mixing combined with magnetic resonance imaging to provide different neural circuits corresponding to the eight major intelligences in the brain. Adjustment.

Frequency Following Response (FFR) is a physiological phenomenon in which the frequency of activity of brain neurons is synchronized with the frequency of external stimuli. Therefore, we can guide the activity frequency of brain neurons through auditory tones, visual flashes, and tactile taps. There have been many studies confirming the frequency emulation reaction. It can bring beneficial physiological and psychological effects, and frequency mimicking the response therefore has very good research prospects and the potential to be an alternative and complementary treatment.

On the other hand, the theory of multiple intelligence applied in education was proposed by Gardner, a psychophysicist at Harvard University's Institute of Education in 1983. Gardner proposed this theory by studying the traumatic patients in the brain who discovered their differences in their ability to learn. Although multiple intelligences are so detailed in terms of endowments, they should not be used to limit people to a certain type of intelligence, and each has a unique set of intellectual combinations. According to existing evidence, human intelligence can be divided into at least eight categories, including language intelligence, logical mathematics intelligence, spatial intelligence, limb kinesthetic intelligence, music intelligence, interpersonal intelligence, introspective intelligence, and natural observation intelligence.

Through studies of patients with brain damage, diseases or injuries in certain areas of the brain selectively damage specific intelligence while maintaining its intelligence integrity. For example, damage to the Broca area in the left frontal lobe of the brain can destroy a person's ability to speak or read, but the individual is usually able to draw, sing, skate or smile because of these functions and the undamaged area of the brain. Related. However, individuals with damage to the right lobes may lose the ability to adjust tone, but retain the ability to speak, read, and write. Broadly speaking, the available evidence points out that the corresponding major brain regions of the eight major intelligences are as follows: language intelligence: left-leaf and frontal lobe; logical mathematics: left prefrontal and right parietal; spatial intelligence: occipital and parietal Area (especially the right hemisphere); Limb kinesthetic intelligence: cerebellum, basal ganglia, motor cortex; music intelligence: right leaf; interpersonal intelligence: anterior leaf, leaf (especially right hemisphere), side Edge system; introspective intelligence: frontal lobe, parietal lobe, limbic system; natural observation intelligence: left parietal lobe (important for distinguishing between "biological" and "non-biological").

Therefore, we have learned from past research: (1) frequency emulation reaction can pull brain activity at a specific frequency; (2) different brain regions correspond to the neural basis of eight multi-intelligence.

However, today we are still unknown about the ability to adjust the frequency response of the corresponding eight multi-intelligent neural circuits. In addition, in the past, only the influence of brain wave frequency energy corresponding to the frequency-like response of the brain outside the head shell was provided. The present invention directly uses the method of sound wave mixing combined with magnetic resonance imaging to directly provide the adjustment of the corresponding eight major intelligent neural circuits in the brain. Evidence, mixed to adjust the frequency corresponding to different cognitive function brain regions to imitate the reaction of audio and music, successfully developed a frequency-modulated response sound wave into the music method that can adjust the eight multi-intelligent correlation neural circuits, in order to match the frequency emulation reaction is very good Cognitive regulation and therapeutic alternative or therapeutic complementarity potential provide objective quantitative performance indicators.

A step of synthesizing and establishing sound waves by using frequency emulation: firstly, recording frequencies of different frequencies to imitate the reaction sound waves, with a stable sound wave of 100 Hz and a sine wave of 5 to 44 Hz oscillation, in units of 1 Hz. Synthesize 40 kinds of frequencies to imitate the reaction sound waves; a step of introducing the frequency to simulate the reaction sound waves into the music database: the frequency of the different frequencies is simulated and the sound waves are mixed into the music track by the mixing method, in the original music. The mixed frequency emulates the response sound wave and is divided into eight albums, which are 5~9 Hz, 10~14 Hz, 15~19 Hz, 20~24 Hz, 25~29 Hz, 30~34 Hz, 35~39. Hertz, 40~44 Hz; a frequency emulation reaction sound wave into the music to trigger the collection and analysis of the magnetic resonance imaging data of the brain nerve activity: it broadcasts the unsynthesized original music and the synthetic music imported into the sound to the subject. And use nuclear magnetic resonance angiography instrument to collect brain activity and analysis in the brain, compare the general music and frequency emulation reaction sonic synthesis music to verify the effect of frequency emulation reaction sound wave music on the different neural circuits corresponding to the eight multi-intelligence in the brain; and establish monitoring The steps of the biological indicator: the analysis compares the general music and frequency emulation to the sound wave music to verify the effect of the frequency emulation reaction sound wave music on the neurological activity of the subject's brain and the effect of different degrees of behavior, further confirm the frequency emulation reaction sound wave music pair The influence of different neural circuits corresponding to the eight multi-intelligence in the brain; finally, the establishment of external import frequency emulation Acoustic music on the brain regulating the biological effect of promoting objective and quantitative indicators and music.

Therefore, through the specific implementation of the foregoing technical means of the present invention, the frequency emulation reaction sound wave of the present invention is introduced into the music method through the frequency emulation reaction sound wave music database, and the magnetic resonance imaging data collection and analysis are developed to develop different frequencies. The frequency imitates the objective index of the influence of the sound wave music on the different neural circuits corresponding to the eight multi-intelligence, and provides the quantitative biological effect of the music promoting effect.

The following is a preferred embodiment of the present invention, and is described in detail with reference to the accompanying drawings. At the same time, those who are familiar with the technical field can implement it.

(S01) ‧‧‧Synthesis and establishment of frequency-like response sound waves

(S02)‧‧‧ Import frequency emulates reaction sound waves into the music database

(S03)‧‧‧Collection and analysis of magnetic resonance imaging data of brain nerve activity

(S04) ‧ ‧ Establish monitoring biological indicators

The first picture is a schematic flow chart of the method for adjusting the frequency of the sound waves into the music of the different neural circuits in the brain.

The second figure is a schematic diagram of the detailed process of the method for adjusting the frequency of the sound waves into the music by the eight different multi-intelligence corresponding to the different neural circuits in the brain.

The third figure: The invention can adjust the eight multi-intelligent intelligence corresponding to the frequency of different neural circuits in the brain. The emulation reaction sound wave introduction music method is applied to the intracerebral nervous system regulation of female subjects.

The fourth picture: the invention can adjust the eight multi-intelligent intelligence corresponding to the frequency of different neural circuits in the brain. The emulation reaction sound wave introduction music method is applied to the brain nervous system regulation of male subjects.

The present invention is a method for adjusting the frequency of eight different intelligences in the brain corresponding to different neural circuits, emulating the reaction sound wave into the music, and the specific embodiments of the present invention and the components thereof as illustrated in the accompanying drawings, all about front and back, left and right, The top and bottom, the upper and lower portions, and the horizontal and vertical references are for convenience of description only and are not intended to limit the invention, nor to limit its components to any position or spatial orientation. The drawings and the dimensions specified in the specification may be varied in accordance with the design and needs of the specific embodiments of the present invention without departing from the scope of the invention.

The main architecture of the method of the present invention is as shown in the first and second figures, which includes a frequency. Imitate the synthesis and establishment of the reaction sound wave (S01), introduce the frequency to simulate the reaction sound wave into the music database (S02), collect and analyze the magnetic resonance data of the brain nerve activity (S03), and establish a step of monitoring the biological indicator (S04). The contents are detailed as follows: frequency emulation reaction sound wave synthesis and establishment (S01) steps: First, recording the frequency of a plurality of different frequencies to imitate the reaction sound wave, preparing a stable sound wave of 100 Hz with a sine of 5 to 44 Hz oscillation The wave, in units of 1 Hz, synthesizes 40 kinds of frequencies to simulate the reaction sound waves; the steps of establishing the binaural wave difference music database (S02): First, the reaction sound waves are simulated at the established frequency and mixed into the music track by the mixing method. In the original music, the mixed frequency emulates the reaction sound wave and is divided into eight albums, which are 5~9 Hz, 10~14 Hz, 15~19 Hz, 20~24 Hz, 25~29 Hz, 30~34. Hertz, 35~39 Hz, 40~44 Hz; the steps of collecting and analyzing the magnetic resonance imaging data of the brain (S03): the system synthesizes the sound of the unsynthesized frequency and the frequency of the sound wave The music is played to the subjects, and the magnetic resonance imaging instrument is used to collect the brain activity and analysis in the brain. The general music and synthetic music are compared to verify the frequency emulation. The effect of the sonic music on the neuronal activity in the brain, we let a 55-year-old Healthy, voluntary participation of male subjects, with a 32-year-old healthy, voluntary female subject to listen to the synthesized music of eight albums, respectively 5-9 Hz, 10-14 Hz, 15-19 Hertz, 20~24 Hz, 25~29 Hz, 30~34 Hz, 35~39 Hz, 40~44 Hz, and record the consumption rate of blood oxygen in their brains, as an indicator of the strength of brain nerve activity, and We also asked the two subjects to listen to unsynthesized general music as a standard of comparison; The steps of establishing a monitoring biological indicator (S04): First, analyzing and comparing the frequency to simulate the neural activity caused by the reaction of sound music and general music, and finding out that the frequency imitating the reaction sound wave can cause the sound that cannot be caused by the general music, The unique neural activity is related to the brain region indicators related to the eight multi-intelligence in the brain, and the frequency imitates the different degree of behavioral effects of the sonic music on the subject; then, the analysis frequency mimics the brain region and cognitive nerves that respond to the regulation of sound music In the scientific literature, eight brain intelligence data related to multiple intelligences; finally, the establishment of frequency emulation reaction sound wave intervention to regulate the brain's eight multi-intelligence-related brain regions and the objective quantitative biological indicators of music promotion effect.

In this way, the group constitutes a frequency-adjustable reaction sound wave into the music method that can be used to establish an objective quantitative biological indicator that can adjust the frequency of the eight multi-intelligence-related neural circuits in the brain.

For the specific implementation of the preferred embodiment of the present invention, please refer to the first and second figures. After that, the collection and analysis of the magnetic resonance imaging data of the brain nerve activity is performed by the 3T magnetic resonance imaging of the core facility of the National Yangming University ( MRI) conducted experimental data acquisition and analyzed the data (Statistical Parametric Mappin) developed by the University of London's Wellcome Trust Centre for Neuroimaging. After obtaining experimental data, the Institute of Neurology and Hospital of Montreal (Montreal) The brain coordinate platform (MNI coordinates) established by the Neurological Institute and Hospital presents data results.

The reference URL is as follows: 3T magnetic resonance imaging (MRI) of the core facilities of National Yangming University http://bclab.ym.edu.tw/mri_website/mri_index.html

Statistical Parametric Mappin developed by the University of London (Wellcome Trust Centre for Neuroimaging) http://www.fil.ion.ucl.ac.uk/spm/

Brain coordinate platform (MNI coordinates) established by the Montreal Neurological Institute and Hospital http://imaging.mrc-cbu.cam.ac.uk/imaging/MniTalairach

Finally, the establishment of monitoring biological indicators, through the analysis of magnetic resonance imaging data, found that the frequency emulation reaction sound wave into the music method applied to the female subject's brain nervous system regulation is as follows: 5-9 Hz: adjustable logic mathematical intelligence correlation Brain area; 10-14 Hz: adjustable spatial intelligence, limb kinesthetic intelligence related brain area; 20-24 Hz: adjustable music intelligence, interpersonal intelligence related brain area; 25-29 Hz: adjustable introspection intelligence related brain area 30-34 Hz: adjustable language intelligence, interpersonal intelligence related brain area; 35-39 Hz: adjustable natural observation intelligence, logical mathematics intelligence related brain area; 40-44 Hz: adjustable introspection intelligence, natural observation intelligent correlation Brain area.

The frequency emulation reaction sound wave introduction music method is applied to the brain nervous system regulation of male subjects as follows: 5-9 Hz: adjustable brain intelligence, logical mathematics intelligence related brain regions; 10-14 Hz: adjustable spatial intelligence related brain regions; 15-19 Hz: adjustable limb kinesthetic intelligence related brain regions; 20-24 Hz: Adjustable interpersonal intelligence, introspective intelligence-related brain regions; 25-29 Hz: adjustable music intelligence, limb kinesthetic intelligence, logical mathematics intelligence, spatial intelligence related brain regions.

In this way, it can be understood that the present invention is an excellent creation, in addition to effectively solving the problems faced by the practitioners, and greatly improving the efficacy, and the same or similar processing objects are not created or disclosed in the same technical field. The use, and at the same time, has an improvement in efficacy. Therefore, the present invention has met the requirements for "novelty" and "progressiveness" of the invention patent, and is the invention of the invention patent.

Refer to the brain activity area coordinates, statistical values and test values as follows:

Claims (1)

The FFR sound wave (frequency emulation reaction sound wave) corresponding to the different neural circuits in the brain can be adjusted to introduce a music method, which includes: a step of synthesizing and establishing sound waves by using frequency emulation: firstly, recording different frequencies The frequency emulates the reaction sound wave, with a stable sound wave of 100 Hz and a sine wave with a shock of 5 to 44 Hz, in a unit of 1 Hz, a total of 40 kinds of frequencies are simulated to reflect the sound wave; a step of introducing the frequency to simulate the reaction sound wave into the music database: The frequencies of different frequencies are simulated and the sound waves are introduced into the music track by the mixing method. In the original music, the mixed frequency is simulated to reflect the sound waves, and is divided into eight albums, which are respectively 5~9 Hz, 10~14 Hz, 15~. 19 Hz, 20~24 Hz, 25~29 Hz, 30~34 Hz, 35~39 Hz, 40~44 Hz; a frequency emulation reaction sound wave into the music to trigger the collection and analysis of brain magnetic activity angiography data: It broadcasts unsynthesized original music and music imported into the sound wave to the subject, and uses the magnetic resonance imaging instrument to collect brain activity and points in the brain. Analysis, compare general music and frequency emulation to reflect sonic synthesis music to verify the effect of frequency emulation reaction sound wave music on the different neural circuits corresponding to the eight multi-intelligence in the brain; and a step to establish monitoring biological indicators: the analysis of the comparison of general music and The frequency imitates the response sound wave music to verify the effect of the frequency-like response sound wave music on the neurological activity of the subject's brain and the effects of different degrees of behavior, and further confirm the effect of the frequency-like response sound wave music on the different neural circuits corresponding to the eight multi-intelligence in the brain. Finally, the external introduction frequency is established to imitate the objective quantitative biological indicator of the effect of sonic music on brain regulation and music promotion; thereby, the group constitutes a frequency that can be used to establish objective quantification to respond to sonic music to eight different intelligences corresponding to different nerves. Loop influence indicator, providing music A method of introducing quantitative biological effects of effects into a music method.