SoC AssessPoints (6): Upper Left Area - Neural Connections

YWS

(3rd Edition, 2018-2019)

 

 

This article is a continuation of "SoC AssessPoints (5): Left Area - Old Inertia".

 

Below is a summary of the AssessPoints for "Area 6".

 

--------Table of Contents--------

*Part 1: Visual Nerve System

1. Image Capture Section

   - 1.1. Number of focus points on the current image

   - 1.2. Key tendencies in visual focus

   - 1.3. Ignored parts

   - 1.4. Proportion of information received unconsciously

   - 1.5. Influence of primary focus points on other parts

   - 1.6. Degree of influence of subjective beliefs on visual images

2. Visual Transmission Section

   - 2.1. Upload ratio of non-focused images

   - 2.2. Upload accuracy of non-focused images

   - 2.3. Degree of image loss during transmission

   - 2.4. Proportion of external alteration during transmission

3. Visual Memory Section

   - 3.1. Emotional influence on visual memory

   - 3.2. Cognitive influence on visual memory

   - 3.3. Proportion of unconscious images

   - 3.4. Degree of image distortion caused by time

 

*Part 2: Auditory Nerve System

1. Sound Collection Section

   - 1.1. Number of focus points in sound

   - 1.2. Key tendencies in auditory focus

   - 1.3. Influence of visual information on auditory information

   - 1.4. Parts blurred in sound waves

   - 1.5. Completely ignored parts

   - 1.6. Proportion of auditory blind spots caused by belief systems

   - 1.7. Distortion caused by language system conversion

   - 1.8. Influence of individual subjective intentions

2. Sound Transmission Section

   - 2.1. Influence of belief systems

   - 2.2. Influence of subconscious tendencies

   - 2.3. Influence of subjective presets

3. Sound Storage Section

   - 3.1. Degree of distortion due to method conversion

   - 3.2. Subjective preset introduced during storage

4. Sound Recall Section

   - 4.1. Influence of emotions

   - 4.2. Influence of time-induced forgetting

   - 4.3. Influence of new and different subjective purposes

 

*Part 3: Autonomic Nervous System

1. Influence on the Material Level

   - 1.1. Interaction between excitement and calmness

   - 1.2. Influence of flow and smoothness

   - 1.3. Influence of cross and penetration

2. Influence of External Stimuli

   - 2.1. Influence of particle motion direction

   - 2.2. Influence of particle vibration frequency

   - 2.3. Influence of particle aggregation

3. Influence of Region and Whole

   - 3.1. Trigger and spread of reaction flow

   - 3.2. Overall stability and regional damage

4. Relationship with Other Nervous Systems

   - 4.1. Relationship with the sensory nervous system

   - 4.2. Relationship with the motor nervous system

----------

 

 

Certain functions of the human physical body interact and integrate with the spiritual body (*). This includes the transmission from physical functions upwards and the transmission of spiritual functions downwards. It is a bidirectional process. The human nervous system is responsible for this transmission work.

 

*For more on the relationship between the physical body and the spiritual body, refer to another article by YWS: "The Multidimensional Human Body-Complex Structure (1): Single Body-Complex".

 

There are 3 major parts:

 

Part 1: Visual Nerve System

Part 2: Auditory Nerve System

Part 3: Autonomic Nerve System

 

----

 

 

Part 1: Visual Nerve System

 

The visual nerve section transmits the images received through the human visual imaging system. The process involves a certain degree of distortion and deformation, meaning that the images are not entirely objective.

 

*Overall Quantified Data (Distortion/Deformation Level):

Human average: 50-60%.

 

There are 3 smaller sections:

 

1. Image Capture Section

2. Visual Transmission Section

3. Visual Memory Section

 

---

 

1. Image Capture Section

 

*Overall Quantified Data:  

Human average: 70%.

 

There are 6 key points:

 

1.1 Number of Focus Points in the Current Scene:

   The percentage of the current scene that the individual is paying attention to.  

 

*Quantified Data:

   Human average: 60%.

 

1.2 Key Tendencies in Visual Focus:

   Individuals tend to focus on different key aspects of what they see in front of them, depending on their personal attention preferences.

 

*Quantified Data:

   Human average: 40%.

 

1.3 Ignored Parts:

   Some parts of the image may be overlooked, leading to missing details in the visual information.  

 

*Quantified Data:

   Human average: 40%.

 

1.4 Proportion of Information Received Unconsciously:

   When an individual views without any subjective intent, the information received is more objective and comprehensive, but it is often stored in the subconscious and does not significantly impact the conscious mind.  

 

*Quantified Data:

   Human average: 20%.

 

1.5 Influence of Primary Focus Point on Other Parts:

   The individual's primary focus affects their attention to other parts of the scene, possibly causing distortion in the perception of those areas.  

   Example:

When focusing on a lush tree in a forest, the individual may perceive the entire forest as dense.

Conversely:

If focusing on a withered tree, the forest may seem unhealthy.  

 

*Quantified Data:

   Human average: 60%.

 

1.6 Degree of Influence of Subjective Beliefs on Visual Images:

   The images seen are subjectively influenced by the individual's belief system.  

 

*Quantified Data:  

   Human average: 70%.

 

 

2. Visual Transmission Section

 

There are 4 key points:

 

2.1 Upload Ratio of Non-Focused Images:

   The parts of a scene that an individual does not focus on still leave a general impression in the mind. This impression can be processed in various ways, and the amount of information uploaded differs from person to person.  

 

*Quantified Data:

   Human average: 45%.

 

2.2 Upload Accuracy of Non-Focused Images:

   The parts of the scene that are not the focus may undergo some subjective distortion during upload, so it's necessary to measure the accuracy of the uploaded information.  

 

*Quantified Data:  

   Human average: 40%.

 

2.3 Degree of Image Loss During Transmission:

   As images are transmitted upward, each layer of transmission may introduce changes and distortions. The degree of loss varies among individuals.  

 

*Quantified Data:  

   Human average: 30%.

 

2.4 Proportion of External Alteration During Transmission:

   During the upward transmission of images, external forces may influence and alter the information to some extent.  

   External alterations can include the effects of hypnotic waves, hypnotic devices, and other visual or auditory external influences.  

 

   Examples:

  1. Auditory Influence:

     If you see a forest and suddenly hear cheerful bird songs or music, the visual impression of the forest may appear more vibrant and bright.

 Conversely, if you hear eerie music, the forest image may appear darker.

  1. Adjacent Visual Influence:

     If you look down at a frightening picture and then look up at the forest, your perception of the forest might feel ominous, similar to the effect of hearing scary music.

 

*Quantified Data:  

   Human average: 40%.

 

----

 

3. Visual Memory Section

 

In different situations, visual memories undergo various changes.

 

There are 4 key points:

 

3.1 Emotional Influence on Visual Memory:  

   When recalling the same scene under different emotional states, the degree of distortion in the visual image varies.  

 

*Quantified Data:

   Human average: 35-45%.

 

3.2 Cognitive Influence on Visual Memory:

   Similar to the influence of subjective beliefs, the image recalled by an individual is affected differently depending on their cognitive thinking.  

 

*Quantified Data:

   Human average: 38%.

 

3.3 Proportion of Unconscious Images:

   When recalling a visual scene, an individual may suddenly remember details that were previously overlooked.  

 

*Quantified Data:

   Human average: 25-35%.

 

3.4 Degree of Image Distortion Caused by Time:

   As time passes, the focus points of an individual gradually fade, and even the main points of attention may become distorted.  

   Thus, memory systems, including the spiritual memory system, are constantly changing and are not fixed; they are in continuous flux.  

   Anything you recall will undergo changes and remain in a state of constant transformation.  

 

*Quantified Data:

   Human average: 45%.

 

----

 

Part 2: Auditory Nerve System

 

There are 4 subsections:  

 

  1. Sound Collection Section  
  2. Sound Transmission Section  
  3. Sound Storage Section  
  4. Sound Recall Section  

 

---

 

1. Sound Collection Section

 

There are 8 key points:

 

1.1 Number of Focus Points in Sound:

   When an individual hears a sound wave, the percentage of parts they focus on is based on their tendencies.  

 

*Quantified Data:

   Human average: 60%.

 

1.2 Key Tendencies in Auditory Focus:

   When an individual hears a sound wave, there is a primary focus point, and this tendency's degree is measured.  

 

*Quantified Data:

   Human average: 65%.

 

1.3 Influence of Visual Information on Auditory Information:

   The visual information currently received by the individual affects the recognition of the sound.  

   Example:

If an individual sees a cheerful scene, it becomes difficult or unlikely to hear uncomfortable sounds, and even ordinary sounds may be perceived more positively.  

   Sound Wave Explanation:

Sound waves consist of four components: wavelength, amplitude, waveform, and distortion. Each part affects the transmission process, altering the wave's shape and making it dynamic rather than static.  

 

*Quantified Data:

   Human average: 60%.

 

1.4 Parts Blurred in Sound Waves:

   In the sounds heard, some parts may be processed as blurry because the individual's brain doesn't fully understand or hear them clearly.  

   Some individuals are aware of this, while others believe they have heard or understood the sound clearly.  

 

*Quantified Data:

   Human average: 45-55%.

 

1.5 Completely Ignored Parts:

   Parts of the sound that the individual doesn't hear at all.  

   The human auditory mechanism has brief periods of silence, which vary among individuals.  

   Typically, after listening to a segment, there is an automatic pause during which the sound is not heard.  

   This can be trained to delay the frequency of these pauses.  

 

*Quantified Data:

   Human average: 28%.

 

1.6 Proportion of Auditory Blind Spots Caused by Belief Systems:

   Individuals hear what they believe or want to hear.  

   This is selected by their belief system.  

 

*Quantified Data:

   Human average: 35%.

 

1.7 Distortion Caused by Language System Conversion:

   Individuals proficient in different languages experience varying changes and impacts on how they recognize each language.  

 

*Quantified Data:

   Human average: 27%.

 

1.8 Influence of Individual Subjective Intentions:

   The individual's current intentions and purposes greatly influence sound recognition.  

   Different purposes lead to hearing different information.  

 

*Quantified Data:

   Human average: 37%.

 

---

 

2. Sound Transmission Section

 

There are 3 key points.

 

2.1 Influence of Belief Systems:

   Sound waves undergo changes during transmission due to the influence of belief systems.

 

*Quantitative data:  

   Human average: 55%.

 

2.2 Influence of Subconscious Tendencies:

   Sound waves undergo changes during transmission due to the influence of subconscious tendencies.

 

*Quantitative data:  

   Human average: 38%.

 

2.3 Influence of Subjective Presets:

   Sound waves undergo changes during transmission due to the influence of individual subjective goals and presets.

 

*Quantitative data:  

   Human average: 55%.

 

---

 

3. Sound Storage Section

 

The storage of sound is rather unique and requires conversion into a different form for storage.

This conversion causes a certain degree of distortion and may also introduce other elements, leading to further distortion.

 

*Comprehensive quantitative data (distortion rate):  

Human average: 5060%.

 

There are 2 key points.

 

3.1 Distortion Caused by Conversion:

   The distortion rate caused purely by the conversion process.

 

*Quantitative data:  

   Human average: 45%.

 

3.2 Subjective Presets Introduced During Storage:

   Due to subjective reasons, some subjective elements may be added during storage, leading to further distortion.

 

*Quantitative data:  

   Human average: 70%.

 

----

 

4. Sound Recall Section

 

When recalling sound, individuals may be influenced by various factors, resulting in distortion.

 

*Comprehensive quantitative data (distortion rate):  

Human average: 45%.

 

There are 3 key points.

 

4.1 Influence of Emotions:

   The individual's subjective emotions during sound-related recall can cause distortions in sound memory.

 

*Quantitative data:  

   Human average: 60%.

 

4.2 Influence of Time-Induced Forgetting:

   The degree of distortion caused by the passage of time.

What remains is mostly a combination of "residual partial memory + subjective tendencies."

 

*Quantitative data:  

   Human average: 45%.

 

4.3 Influence of New and Different Subjective Goals:

   Each time a memory is recalled, the content may be distorted differently due to different subjective goals.

 

*Quantitative data:  

   Human average: 55%.

 

----

 

 

Part 3: Autonomic Nervous System

 

The autonomic nervous system is a set of nerves controlled and governed by the subconscious.

During this process, the part responsible for the subconscious is subject to various interferences and influences.

 

The main influencing factors are as follows:

 

There are 4 sections.

 

1. Influence on the Material Level  

2. Influence of External Stimuli  

3. Influence of Region and Whole  

4. Relationship with Other Nervous Systems

 

---

 

1. Influence on the Material Level

 

The individual is significantly influenced by the material level, which can be as high as 75%.

 

*Comprehensive quantitative data (distortion rate):  

Human average: 55%.

 

There are 3 key points.

 

1.1 Interaction Between Excitement and Calmness

   The difference in the distortion of information received by an individual in two different states.

 

*Quantitative data:  

   Human average: 65%.

 

1.2 Influence of Flow and Smoothness

   The impact of the degree of flow and volatility of information received by the individual.

 

*Quantitative data:  

   Human average: 48%.

 

1.3 Influence of Cross and Penetration

 

   Divided into 3 layers:

 

   1). Left-handed induction (left-spinning induction);

   2). Right-handed induction (right-spinning induction);

   3). Central induction.

 

   These three layers of induction are the upward application of the dual-vortex amplification mechanism, generating mutual cross and penetration effects.

 

   These effects lead to a series of collision reactions, which bring about a series of chemical changes in the physical body, further affecting the internal movement processes of the physical body.

 

   This is also known as the dual-vortex principle composed of left-handed and right-handed spirals.

 

*Quantitative data:  

   Human average: 60%.

 

----

 

2. Influence of External Stimuli

 

This influence arises from the resonance of information particles at the same frequency, leading to a series of effects.

 

*Comprehensive quantitative data (influence rate):  

Human average: 2535%.

 

There are 3 key points.

 

2.1 Influence of Particle Motion Direction

   Movement in the same direction induces a comfortable feeling.  

   Movement in different directions causes discomfort.  

   Long-term movement in different directions can lead to bodily function disorder, eventually causing illness.  

   Different directions of movement include linear and rotational directions.  

   Linear movement often leads to acute diseases, while rotational movement typically causes chronic diseases.  

   If the rotation is multi-layered, the more layers there are, the more complex the disease becomes.

 

*Quantitative data:  

   Human average: 30%.

 

2.2 Influence of Particle Vibration Frequency

   These influential effects can trigger rapid stress responses in the individual, commonly encountered in daily life.  

   Symptoms of certain diseases might actually be brief stress responses. Without careful recognition, its easy to mistakenly think one is ill.  

   In this state, a person is in a high-speed operational mode.  

   This aspect is also related to the activation of human potential.  

   In experiments, the vibration frequency of external structures can be simulated to induce resonance within the physical body, achieving experimental results.  

   For example, the impact of sound frequency is one such influence, offering numerous avenues for research.  

   For instance, some hypnotic music can induce internal bodily movements, leading to illusions and confusion in judgment.  

   This influence is also widely applied in the societal brainwashing of the Hypnotic Reincarnation System (*).  

   When an individual encounters a corresponding scenario, it triggers an internal bodily response, thereby reinforcing this tendency.  

   This is also a process of the control cycle of the hypnotic reincarnation system.

 

*Quantitative data:  

   Human average: 40%.

 

   *For more on the Hypnotic Reincarnation System, please refer to another article by YWS, "What is Hypnotic Reincarnation."*

 

2.3 Influence of Particle Aggregation

   Some information particles at the same frequency are attracted and gather together, potentially causing obstacles to the physical body.  

   This effect can be divided into latent and overt forms.

 

   - Latent: Long-term dormant particles within the physical body that have not yet taken effect. However, this situation is systemically recorded and converted into latent genes that can manifest in future generations.

   - Overt: Causes noticeable bodily obstacles, often referred to as energy blockages.

 

   The information particles that can gather are usually less active, typically manifesting as negative.  

   Positive information particles, being more active, are less likely to attract and gather.  

   In experimental research, gathered negative particles can be separated through laser irradiation.  

   This direction can serve as a frontier for medical research, focusing on different types of particles corresponding to various laser frequencies.  

   Secondly, the focus is on the technical feasibility of these operations.  

   Another key area is the detection and identification of the types of aggregated particles. This part can be combined with spiritual practices.  

   Therefore, the integration of spirituality and high technology is the future trend in medicine.

 

*Quantitative data:  

   Human average: 3545%.

 

---

 

3. Influence of Region and Whole

 

Different regions within the physical body have varying effects on the whole.

The affected object here refers to the human body, while the influencing subject is information - in other words: the impact of information on the human body.

 

*Comprehensive quantitative data (influence rate):  

Human average: 55%.

 

There are 2 key points.

 

3.1 Trigger and Spread of Reaction Flows

   The number of reaction flows triggered is related to the vitality of the physical body.  

   The more triggers activated, the faster the spread within the human body, enhancing the body's circulatory performance, improving the smoothness of operations, and contributing to better health.

 

*Quantitative data:  

   Human average: 40%.  

 

Ways to increase and activate triggers include:

   - Enhancing Sensitivity: Achievable through calm awareness or meditation.

   - Inducing Through Specific Activities: These activities are often characterized by individual traits and need to be explored personally. When an individual becomes passionate about a certain activity, corresponding trigger points are activated.

   - Through Medication: This method may close off other trigger points as compensation, making it more risky.

 

3.2 Overall Stability and Regional Damage

   The relationship between damage in a specific area and the whole, and its influence on overall stability.

 

*Quantitative data:  

   Human average: 45%.

 

There are 6 key points:

 

  1). Influence of Local Nerve Chain Breakage on the Whole:

   There are 3 main nerve chains. If any of these chains are damaged, they can compensate for each other. However, if all nerve chains are severed, it can lead to more than 80% of bodily functions ceasing and paralysis.

 

  2). Influence of Local Function on the Whole:

   When certain local functions are impaired, other stronger regions can compensate by increasing energy supply to maintain overall stability. If local damage is below 30%, this method can achieve balance. Beyond 30%, discomfort arises, potentially leading to disease symptoms. Generally, damage below 10% is considered healthy, 10-30% is sub-healthy, and above 30% is an unhealthy state.

 

  3). Influence of Regional Linkage on the Whole:

   Typically, when certain areas are damaged, the overall system isolates the affected area to prevent the spread of damage. However, certain mutation mechanisms can disrupt this isolation, triggering chain reactions that cause more significant damage. Future medical research could explore the principles of these destructive reactions to develop anti-destructive techniques to control disease progression.

 

  4). Influence of Accumulated Regional Damage on the Whole:

   Accumulated damage in certain areas can lead to severe pathological changes. In such cases, treatment may involve cutting or replacing the damaged area.

 

  5). Influence of Body-Complex Conduction:

   This is usually related to congenital physical conditions. Weaker regions can often be traced back to human body-complex factors to identify the cause.

 

  6). Influence of Familial Inheritance Mechanisms:

   Certain regions are connected to familial inheritance aspects. The causes can be found by examining the karmic history of the family.

 

---

 

4. Relationship with Other Nervous Systems

 

The autonomic nervous system's influence on other nervous systems.

 

*Comprehensive quantitative data (influence rate):  

Human average: 65%.

 

There are 2 key points.

 

4.1 Relationship with the Sensory Nervous System

   This relationship is both influential and independent.

 

*Quantitative data:  

   Human average: 48%.

 

4.2 Relationship with the Motor Nervous System

   The activity of the autonomic nervous system can promote the development of the motor nervous system. Through training, it is possible to develop certain skills in the individual.

 

*Quantitative data:  

   Human average: 50%.

 

----

 

- End of 6th Area SoC AssessPoints.

 

YWS

©Copyright Reserved.