Restore and improve human abilities
OUR MISSION
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Introduction
Using the technology developed by the company, this data is converted into acoustic waves (sound). This means that electromagnetic oscillations are translated into sound signals that can be analyzed or used for various purposes (e.g., diagnostics or therapy).
- Explanation: Each cell in the human body possesses unique oscillations that can be described as a wave spectrum. This is related to the fact that cells are made up of molecules and atoms that are constantly moving and interacting, creating electromagnetic oscillations. These oscillations can be captured using specialized equipment.
- "The eye is a part of the brain brought to the periphery." During the stage of organogenesis - the development of the human embryo - the nervous system, brain, and eyes are formed between the 4th and 8th weeks. The iris of the eyes forms during the third month of pregnancy."
Using the technology developed by the company, this data is converted into acoustic waves (sound). This means that electromagnetic oscillations are translated into sound signals that can be analyzed or used for various purposes (e.g., diagnostics or therapy).
Principle of Operation
1. Collecting Data from the Iris
- Specialized equipment is used to scan the iris and capture its electromagnetic radiation.
- The iris is unique to each individual, and its radiation contains information that can be converted into digital data.
- The collected data is processed using proprietary software, which analyzes the electromagnetic radiation and converts it into spectral data.
- The spectral data consists of 16,772,612 values, describing various characteristics of the radiation (e.g., frequencies, amplitudes, and phases).
- The software transforms the spectral data into acoustic waves (sound).
- These waves cover a wide frequency range—from 3 Hz to 100 kHz, including infrasound (below 20 Hz) and ultrasound (above 20 kHz).
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The reproduction of sound obtained from the iris of the eye, through the physical effect of resonance, stimulates the nervous system at the cellular level.
This helps maintain and enhance a person's cognitive abilities.
The science that studies the sounds of cells is called sonocytology.
Operating Principle:
Sound Conversion:
Sound obtained from the iris of the eye is converted into acoustic waves. These waves are reproduced using the physical effect of resonance.
The principle is based on the fact that certain sound frequencies can induce resonance in the body's cells and tissues.
Impact on the Nervous System:
When sound waves reach the nervous system, they can stimulate neural networks and activate specific areas of the brain.
This cellular-level impact facilitates improved signal transmission between neurons.
Enhancement of Cognitive Functions:
Through the stimulation of the nervous system, cognitive functions such as memory, attention, and concentration can be improved.
*Sonocytology:
Sonocytology is a scientific field that studies the sound characteristics of cells and their influence on physiological processes. It explores how sound vibrations can interact with biological systems and positively affect human health and functional abilities.
This helps maintain and enhance a person's cognitive abilities.
The science that studies the sounds of cells is called sonocytology.
Operating Principle:
Sound Conversion:
Sound obtained from the iris of the eye is converted into acoustic waves. These waves are reproduced using the physical effect of resonance.
The principle is based on the fact that certain sound frequencies can induce resonance in the body's cells and tissues.
Impact on the Nervous System:
When sound waves reach the nervous system, they can stimulate neural networks and activate specific areas of the brain.
This cellular-level impact facilitates improved signal transmission between neurons.
Enhancement of Cognitive Functions:
Through the stimulation of the nervous system, cognitive functions such as memory, attention, and concentration can be improved.
*Sonocytology:
Sonocytology is a scientific field that studies the sound characteristics of cells and their influence on physiological processes. It explores how sound vibrations can interact with biological systems and positively affect human health and functional abilities.
Research
Using Theta8 technology, we convert the electromagnetic radiation of the body's cells into acoustic waves of a wide range.
COMPREHENSIVE COGNITIVE SCREENING: TETA8 TECHNOLOGY IN ACTION
November 1, 2019, marked a milestone for Teta8 technology. During a unique testing process using comprehensive cognitive screening, impressive results were recorded. Volunteers who participated in the study demonstrated significant improvements in key cognitive functions:
- Concentration and Attention — Participants became more focused and better able to concentrate on tasks.
- Memory — Improvement in both short-term and long-term memory.
- Logical Thinking and Reasoning — Enhanced speed and quality of decision-making.
- Planning — More structured task management and goal achievement.
- Coordination — Improved motor skills and movement synchronization.
BIORHESONANCE DIAGNOSTICS
On December 24, 2019, we conducted tests in the field of biorhythmic diagnostics in collaboration with an experienced specialist. The study focused on the effects of acoustic waves with individual characteristics, obtained by converting electromagnetic radiation from the cells of the body. In just 5 minutes of listening, we obtained interesting results.
From the test protocol:
From the test protocol:
- Improvement in pituitary function — the main regulator of the endocrine system. The pituitary gland began to operate more harmoniously, positively affecting the overall condition of the body.
- Accurate diagnosis of dysfunctions — thanks to the resonance effect, the transformed waves allowed for the identification of disturbances in the body with incredible detail and precision.
EEG REGISTRATION OF BIOELECTRICAL ACTIVITY OF THE BRAIN: ELECTROENCEPHALOGRAPHY
On March 1, 2020, the first studies aimed at examining the electrical activity of the brain after the use of a neurotrainer were conducted at a scientific and practical medical center.
During the study, it was possible to record and analyze the bioelectrical potentials of the brain. The following key brain activity rhythms were identified:
Alpha Rhythm (8-14 Hz)
Associated with processes of recovery, debugging, and consolidation of neural connections. Alpha rhythms contribute to the activation of creative thinking, a sense of inner harmony, and emotional uplift.
Beta Rhythm (14-20 Hz)
Low-frequency beta rhythm is associated with higher cognitive functions such as information processing, concentration, and control. Its stimulation can be beneficial for improving memory, enhancing attention and performance, as well as for correcting attention deficit syndrome.
Delta Rhythm (1-4 Hz)
Delta waves play a key role in the brain's recovery after daily stress. Stimulation at this frequency helps improve sleep quality, initiates the regeneration processes of neural connections, and aids recovery from stress or trauma.
Theta Rhythm (4-7 Hz)
The theta state corresponds to deep meditation. Stimulation at this frequency enhances memory, increases emotional control, and facilitates access to unconscious processes, which can be useful for personal growth and self-regulation.
It is important to note that the study did not reveal any signs of epileptic activity or other negative effects from the use of the neurotrainer.
The work is ongoing, and information will be updated as new data becomes available.
During the study, it was possible to record and analyze the bioelectrical potentials of the brain. The following key brain activity rhythms were identified:
Alpha Rhythm (8-14 Hz)
Associated with processes of recovery, debugging, and consolidation of neural connections. Alpha rhythms contribute to the activation of creative thinking, a sense of inner harmony, and emotional uplift.
Beta Rhythm (14-20 Hz)
Low-frequency beta rhythm is associated with higher cognitive functions such as information processing, concentration, and control. Its stimulation can be beneficial for improving memory, enhancing attention and performance, as well as for correcting attention deficit syndrome.
Delta Rhythm (1-4 Hz)
Delta waves play a key role in the brain's recovery after daily stress. Stimulation at this frequency helps improve sleep quality, initiates the regeneration processes of neural connections, and aids recovery from stress or trauma.
Theta Rhythm (4-7 Hz)
The theta state corresponds to deep meditation. Stimulation at this frequency enhances memory, increases emotional control, and facilitates access to unconscious processes, which can be useful for personal growth and self-regulation.
It is important to note that the study did not reveal any signs of epileptic activity or other negative effects from the use of the neurotrainer.
The work is ongoing, and information will be updated as new data becomes available.
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