KR100564282B1 - Method of Measuring Aura of Human Body - Google Patents

Abstract

Aura computer measuring system according to the present invention is composed of aura sensor unit and a computer system for aura (aura) measurement, the aura sensor unit is composed of a right hand measurement sensor 200 and a left hand measurement sensor 100, The right hand measuring sensor 200 includes a thumb sensor 201, an upper index sensor 202, a lower sensor 203, a stop sensor 204, and a ring finger for measuring a physiological signal from each of the right fingers of the subject. The upper sensor 205, the ring finger lower sensor 206, the holding sensor 207, palm upper sensor 208, and palm lower sensor 209, the left hand measuring sensor 100 is the left side of the subject Thumb sensor 106, detection sensor 105, stop sensor 104, ring finger upper sensor 102, ring finger lower sensor 103, holding sensor 101 for measuring the physiological signal from each finger, palm top Left sensor 107, palm top right Stand 108 is composed of a left portion palm stop sensor 109, the right hand stop sensor unit 110, and the palm sensor lower end (111). The computer system may also include a computer for processing measured data, a monitor and / or printer for outputting the processed values, and a camera (digital camera, video camera, PC camera, capture board) for capturing the subject's appearance. Etc.).

Description

Method of Measuring Aura of Human Body

1 is a schematic perspective view of a human body aura computer measurement system in accordance with the present invention.

Figure 2 is a schematic block diagram of a human body aura computer measurement system according to the present invention.

3 is a flowchart showing a measuring method of the human body aura computer measuring system according to the present invention.

4 is a schematic front view of a human aura computer measuring system according to the present invention.

5 is a schematic side view of a human aura computer measurement system according to the present invention.

* Brief description of the major symbols in the drawings *

100: left hand measuring sensor 200: right hand measuring sensor

101: left hand holding sensor 102: left hand ring finger upper part sensor

103: left hand ring finger lower part sensor 104: left hand stop sensor

105: left hand detection sensor 106: left hand thumb sensor

107: left palm upper left part sensor 108: left palm upper right part sensor

109: left palm stop left part sensor 110: left palm stop right part sensor

111: left palm lower part sensor 201: right hand thumb sensor

202: Right hand detection upper part sensor 203: Right hand detection lower part sensor

204: Right hand stop sensor 205: Right hand ring finger upper part sensor

206: Right hand ring finger lower part sensor 207: Right hand holding sensor

208: right palm upper part sensor 209: right palm lower part sensor

Field of invention

The present invention relates to a human body aura computer measurement system. More specifically, the present invention detects a physiological signal caused by temperature, blood flow, pulse, skin conductivity, electromyography, etc. from the palm of the human body and analyzes it through a computer, and then visually confirms the internal energy state of the subject through a monitor or a printer. To one measurement system. The present invention also includes a method for measuring a human aura.

Background of the Invention

In recent years, interest in Ki has been increasing, and the term 'ki' is used very often in our daily life. `` I feel good '', `` I am stuck '', `` I am cold '', `` I am dead '', `` I am upset '', `` I am lacking '', `` I am exhausted '', `` I am exhausted '') ), 'Popularity', 'weather' and so on. These groups can be called energy, power, or simply energy. Chi doesn't have size, shape, color, weight, or smell, but it's definitely the driving force behind the body. Creeper is transmitted as sound, light, and wavelength.

Gi in the human body can be divided into spirit (元氣), regular (精 氣), Jin (眞 氣). Energy is a finite energy that has been received from parents since birth, and regular energy is the energy that comes from oxidizing food through breathing, and it is the basic energy of life activity. This is this energy. The novelty is manifested by the mind, controlled by the mind, and the quality of energy varies according to the level of the mind.

In 1939, Kirlian, the best electrical engineer in the USSR, gathered prominent scientists from the Soviet Union and showed the human body's bioenergetic energy through his invention. Is the beginning of. A scientist asked Kirlean to take two leaves of the same plant and take a picture of Kirlian, and as a result, one showed clear bright light while the other had only faint light, showing different kinds of leaves. Seemed to It turned out that a leaf was taken from a diseased plant. For this experiment, Kirlian says, "It seems that there are two bodies in living beings. The physical body that anyone can see and the second body, which is visible only in high-frequency pictures, the energy body. This is the same for humans. "If it's applied to medicine, it's going to be a breakthrough in that it can identify diseases that don't show signs yet." I said. This means that the visual status of the human body is of great medical value.

One big step in Kirlian photography studies is Kendall Johnson of the United States. He observed a much wider and clearer aura in his relaxed body through meditation, furthermore, stimulating acupuncture points produces more auras around the fingers, and is clearer and brighter than the patient's aura after being treated. This experiment was verified.

In 1987, Professor Sang-Myung Lee and Yoon-Sik Yoo of Busan Dong-I Univ. Succeeded in taking Kirlian photos with leaves. Chung is now a professional Kirlian photographer.

Resonance magnetic analyzers, which are currently being developed in the United States, can detect inherent waves in the organs of the human body to diagnose which organs are abnormal. Dr. Albert Abrams, an American physician, was convinced by experiments that not only do different waves radiate from human organs, but also the pulses emitted by bacteria vary from disease to disease.

As described above, aura represents the mental and physical state of the human body in a visual way of color and form. In order to measure the aura of the human body, the physiological signal or thermal energy measured when both hands are placed on a sensor of the most stable state is not always the same. When the emotional state of the subject is bad or abnormal due to external stress, the subject will appear different compared to the stable state, that is, the most easy state. Moreover, the change in internal energy, which can be caused by the death of the parents, business failure, and heavy work, is the biggest change. If we measure the internal energy of human and visually confirm the result and analyze it, it can be widely used as a data that can maintain the most stable state and control one's own health and mind.

Conventionally, there was a special photosensitive polaroid camera as a method of measuring the internal energy of the human body and visually confirming it. This is to take a picture of the subject, and various colors and shapes appear behind the subject in the picture developed according to the subject's inner state. However, the conventional polaroid photographs have disadvantages such as inconvenient to measure by the examinee alone, difficult to check the results immediately, and difficult to analyze the photographic results of the subject without the help of an expert.

The present inventors have overcome the above disadvantages of the conventional invention and have made the present invention possible to operate more easily and to analyze the results without the help of an expert.

An object of the present invention is to provide a device that can be easily connected to a computer to measure its own internal energy state easily.

Another object of the present invention is to provide a device capable of checking the measured internal body energy state in real time through a computer monitor.

Another object of the present invention is to provide a data that can be analyzed by the expert itself without the help of the image of the internal energy state obtained by the subject.

Still another object of the present invention is to provide an apparatus capable of increasing the reality of the resultant image by forming an aura in the shape of the subject at the time of measurement.

The above and other objects of the present invention can all be achieved by the present invention described below.

Aura computer measuring system according to the present invention is composed of aura sensor unit and a computer system for aura (aura) measurement, the aura sensor unit is composed of a right hand measurement sensor 200 and a left hand measurement sensor 100, The right hand measuring sensor 200 includes a thumb sensor 201, an upper index sensor 202, a lower sensor 203, a stop sensor 204, and a ring finger for measuring a physiological signal from each of the right fingers of the subject. The upper sensor 205, the ring finger lower sensor 206, the holding sensor 207, palm upper sensor 208, and palm lower sensor 209, the left hand measuring sensor 100 is the left side of the subject Thumb sensor 106, detection sensor 105, stop sensor 104, ring finger upper sensor 102, ring finger lower sensor 103, holding sensor 101 for measuring the physiological signal from each finger, palm top Left sensor 107, palm top right Stand 108 is composed of a left portion palm stop sensor 109, the right hand stop sensor unit 110, and the palm sensor lower end (111). The computer system may also include a computer for processing measured data, a monitor and / or printer for outputting the processed values, and a camera (digital camera, video camera, PC camera, capture board) for capturing the subject's appearance. Etc.).

Hereinafter, with reference to the accompanying drawings will be described in detail the contents of the present invention.

1 is a schematic perspective view of a human body aura computer measuring system according to the present invention, and is largely composed of an aura sensor unit and a computer system. The aura sensor unit is composed of a left hand measuring sensor 100 and a right hand measuring sensor 200, the left hand measuring sensor 100 is the bottom of each finger of the left side and the top (107, 108) of the left palm, stop (109, 110), consisting of a plurality of sensors for detecting the physiological signals due to the temperature, blood flow, pulse, skin conductivity, electromyography, etc. generated from the lower portion 111, in particular the left hand finger (102, 103) The sensor of the upper left palm 107, 108 and the left palm stop 109, 110 are separated into two sensors. It originates from the design for more accurate measurement of the physiological signal by the temperature, blood flow, pulse, skin conductivity, electromyography, etc. generated from the human hand, and is arranged in accordance with the characteristics of the physiological signal generation of the human body as described above. In addition, the right hand measurement sensor 200 may also receive physiological signals due to temperature, blood flow, pulse rate, skin conductivity, and electromyogram of the human body generated from the bottom of each finger on the right side and the top 208 and bottom 209 of the right palm. It consists of a plurality of sensors for sensing, and in particular, the sensor of the right hand index finger (202, 203), and the right hand ring finger (205, 206) is separated into two sensors. As described in the configuration feature of the left hand measuring sensor 100, this is derived from the design for more accurately measuring the physiological signal by the temperature, blood flow, pulse, skin conductivity, electromyography, etc. generated from the human hand, It is arranged according to the characteristics of the physiological signal generation of the human body. The left hand measuring sensor 100 and the right hand measuring sensor 200 are integrally formed according to the drawings, but the aura sensor unit may be easily separated and configured by those skilled in the art.

The computer system analyzes the physiological signals of the temperature, blood flow, pulse, skin conductivity, electromyogram, etc. measured from the hand of the human body, outputs them through the monitor or printer, and adds the actual image of the subject to add the realism of the output image. A computer for the overall control of the present invention, such as capturing a screen, a monitor for outputting an aura image of a subject on a screen, and a method for outputting the aura image of a subject on a paper together with tips such as interpretation of the aura image. It is composed of a camera for capturing the shape of the printer and the subject, the computer has a database that stores the color and shape of the aura image corresponding to the measured value of the physiological signal, the physiological signal is analyzed and analyzed Zero of a preset color and shape stored in the database corresponding to a signal value By a display on the monitor it is able to come to implement the image of physiological signals.
In general, emotional stimulation or psychological changes stimulate the sympathetic nervous system, the activity of the sympathetic nervous system affects the action of the eccrine sweat glands to change the skin conductivity, and changes body temperature, blood flow pulse, and the like. It is for this reason that when a person feels anxious or nervous, he sweats a lot. People with a tense physiological environment tend to have higher skin conductivity than those who do not, and skin conductivity is higher than usual even when they are easily excited or stressed. Lowers. In this way, the mental and physical state of the subject can be identified through temperature, blood flow, pulse, skin conductivity, and electromyography.These physiological signals are analyzed and displayed as an aura image surrounding the human body of different colors and sizes. He can see his condition at a glance.

The purpose of the present invention is to measure the aura through the hands of the human body in particular because the hand is sensitive and concentrated well compared to other parts of the body is easily generated compared to other parts of the body.

In the measuring method of the measuring system according to the present invention, a subject first executes a computer program required for driving the present invention, and then selects one of a camera use mode and a camera non-use mode. The two modes are optional for obtaining a more realistic image by capturing a real image of a subject on an image displayed on a computer monitor after aura measurement. This section is described under the premise of using the camera mode. The subject selects the camera mode of use and the subject proceeds to the next step after performing an additional procedure for placing his image to be displayed on the screen. That is, since the shape of the human body displayed on the monitor is constantly adjusted, an additional adjustment procedure is performed to fit the shape of the subject input through the camera to the shape of the predetermined size.

When the captured image appears on the monitor, the subject selects the timer function in the program menu. If the subject is in a passive test subject position to simply measure aura, and there is an operator to help the subject measure and operate the computer, the timer function is not necessary. However, it is a function that must be performed if the subject measures alone without the help of an operator. This is because the subject cannot operate both computers at the same time while making contact with the sensors 100 and 200 while performing the aura measurement. Of course, it can be measured with the help of an operator to help the measurement of the subject without using the timer function.

The timer function suspends measurement of the physiological signal from the palm for about 5 to 10 seconds while the subject presses the aura measurement execution button of the computer program and moves both hands over the sensors 100 and 200. The setting time of the timer is not necessarily limited thereto, and can be easily adjusted by those skilled in the art. When the timer time is completed, the computer reads the physiological signal from the palms of the subject's hands placed on the sensors 100 and 200, and the read physiological signal data is processed by the computer and the image by the data is displayed on the monitor in real time. Is shown in. Images of the monitor can be output through the printer and the output aura image may be attached with a detailed interpretation of the aura image so that the subject can easily understand according to the color and size.

Figure 2 is a schematic block diagram of a human body aura computer measurement system according to the present invention. The subject selectively captures his / her appearance through the camera and then optimizes his / her appearance on the computer monitor to fit the image. Then, after driving the timer through the computer, the operation button for reading the physiological signal of the subject from the sensors 100 and 200 is clicked, and both hands are placed on the sensor unit. The computer accepts the click as an operation command and waits for a set time (about 5 to 10 seconds) to hold reading of the physiological signal from the sensor unit, and then reads the physiological signal data and analyzes it in real time. Outputs the measurer's aura image through the monitor. The subject can print out his or her image on the monitor in the form of a document with interpretation and help on the image.

The computer controls the operation flow of each aura sensor unit, monitor, printer and camera of the present invention, and the flow control according to the present invention is operated by a computer program. The program is divided into a camera use mode and a camera non-use mode when measuring auras, so that a measurement aura appears in a neutral human image in a camera-free mode, and captures a real image of a person in real time in a camera-use mode. Auras are formed, which provide a more realistic image of the subject's aura image. It also has a timer function so that measurements can be made by yourself without operator assistance. The timer function is a function of setting a time such that aura measurement starts after a certain time (5 to 10 seconds). The computer communication port can be connected to one of several communication ports (com1 to com4) in the program setting menu.

Referring to Fig. 2, the operation flow of the present invention will be described in more detail. First, the subject determines whether to use the camera through a computer program. If the subject selects the mode of using the camera, the operation for optimizing the subject's image is first performed through a computer program.

When the image optimization task is completed, the subject again selects the use of a timer through a computer program. This is a necessary step when the subject takes aura measurements alone. If the subject has selected the function of using the timer, the computer holds the reading of the physiological signal data of the human body from the sensors 3 and 4 for a set time (about 5 to 10 seconds) by the written program. .

When the set time is exceeded, the computer starts reading the physiological signal of the human body from the sensor, and after a while, analyzes the physiological signal and outputs the aura image of the subject on the monitor in real time.

The output image of the monitor may not only be stored in the form of a file, but also may be output together with the interpretation of the image of an aura through a printer according to a selection of a subject.

In the interpretation of the aura image, data about the color and shape of the aura is built in a database (DB) in a computer program, and the interpretation of the aura image appears differently according to the aura colors and shapes of various subjects.

3 is a flowchart showing a measuring method of the human body aura computer measuring system according to the present invention.

① System is initialized by the execution of computer program for aura measurement (100).

② The subject determines whether to use the camera through the program (101).

③ When the camera is used, the real image of the subject is optimized for the image by the program (102).

④ The subject determines whether to use the timer through the program (103).

⑤ When the timer is used, the system suspends reading of the physiological signal data of the human body from the sensors 3 and 4 for the set time (about 5 to 10 seconds) by the created program (104).

⑥ When the set time is exceeded, the system starts to read the physiological signal of the human body from the sensor (105).

⑦ reads the physiological signal of the human body from the sensor, and outputs the aura image of the subject to the monitor in real time (106).

⑧ It has a flow of outputting 107 through the printer in the form of a file or storing the file in accordance with the choice of the subject.

4 is a schematic front view of the human body aura computer measuring system according to the present invention, and FIG. 5 is a schematic side view of the human body aura computer measuring system according to the present invention. As can be seen from the drawings, the present invention comprises a computer, a monitor connected to the computer, a camera, a printer, and an aura sensor unit. Further, although not shown in the drawings, a computer program absolutely necessary for driving the present invention is loaded on a memory inside the computer. The camera and the printer are additional components to be used at the request of the subject and can be appropriately used as necessary. The configuration of the present invention shown in the drawings is an example and is not necessarily limited thereto, and may be easily changed by those skilled in the art.

The human body aura computer measuring system of the present invention can easily measure its own internal energy state by connecting to a computer, and can check the measured internal energy state of the human body in real time through a computer monitor, and obtain the internal energy state of the subject. This provides the data that can be analyzed by the expert without the help of the expert, and the result of the measurement is displayed on the measurement result image of the subject as it is, and thus has the effect of increasing the reality of the result image.

Simple modifications or changes of the present invention can be easily carried out by those skilled in the art, and all such modifications or changes can be seen to be included in the scope of the present invention.

Claims (9)

delete delete delete delete delete delete delete a) selecting a mode of the system consisting of a camera use mode and a camera non-use mode, and initializing a system that displays human physiological signals as an aura image surrounding the human body; b) the subject decides to use the timer through the program and suspends reading of the physiological signal of the subject for 5-10 seconds; c) contacting both palms of the aura sensor to measure the physiological signal of the subject; d) reading the physiological signal of the subject from the sensor of the system; And e) displaying an aura image of a preset color and shape corresponding to the physiological signal on a monitor; Wherein the system comprises an aura sensor unit suitable for contacting two palms to measure a human physiological signal, and a data processing system for processing the physiological signal data; The data processing system includes a computer for analyzing read data and processing the aura image as a preset and stored image in a database, a monitor or a printer for outputting the processed data; And a camera for taking a picture of the subject. The method of claim 8, wherein the aura sensor unit is composed of a left hand measuring sensor 100 and a right hand measuring sensor 200, The left hand measuring sensor 100 is a thumb sensor 106, a detection sensor 105, a stop sensor 104, a ring finger upper part sensor 102, a ring finger lower part for measuring a physiological signal from each of the left finger of the subject Sensor 103, holding sensor 101, palm top left sensor 107, palm top right sensor 108, palm stop left sensor 109, palm stop right sensor 110, and palm bottom sensor ( 111), The right hand measuring sensor 200 includes a thumb sensor 201, an upper index sensor 202, a lower sensor 203, a stop sensor 204, and a ring finger for measuring a physiological signal from each of the right fingers of the subject. Consisting of an upper sensor 205, a ring finger lower sensor 206, a holding sensor 207, a palm upper sensor 208, and a palm lower sensor 209, Aura measuring method of the human body, characterized in that.

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