KR101832400B1 - System for analyzing magnetic field harmful to human body - Google Patents

Abstract

The present invention relates to a system for analyzing a magnetic field harmful to a human body which effectively performs a geographic information system (GIS)-superposed analysis for a distribution map of defining whether mounding and cutting of earth exist, a rock type classification map, a underground water level deviation, a soil contamination distribution map, a water permeability coefficient of the ground, an aquifer appearance distribution map of the ground, a unit weight distribution map of the ground, a discontinuous surface distribution map of a fault, a structural line, etc., an estimated distribution map of a mine and a sink hole, an earthquake appearance past record, and a field study result value related to a magnetic field intensity applied to a human body as a harmful factor, calculates a vulnerable grade by at least a plurality of grades to effectively investigate the magnetic field, and utilizes the same for furniture arrangement, structure arrangement, an activity place, etc. of a residence, an office, and a new construction site on the basis thereof, such that a better life environment can be created. The system of the present invention comprises: a database; a magnetic field evaluation module for selecting intensity of a magnetic field; a priority selection module; a mounding and cutting of earth distribution analysis unit; a rock type classification analysis unit; a discontinuous surface analysis unit of a fault and a structural line; a ground aquifer appearance analysis unit; a underground water level deviation analysis unit; a water permeability coefficient analysis unit; a mine and sink hole distribution analysis unit; a past earthquake appearance analysis unit for dividing a discontinuous surface activity of the ground into grades; a soil contamination distribution analysis unit; and a field study measuring result analysis unit.

Description

[0001] The present invention relates to a magnetic field analysis system harmful to a human body,

The present invention relates to a magnetic field analysis system harmful to a human body, and more particularly, to a magnetic field analysis system harmful to a human body, and more particularly to a magnetic field analysis system which is harmful to a human body, The geographic information system (GIS) overlay analysis is used to determine the distribution of rocks, rock mass distribution, rock mass distribution, ground mass distribution, fault distribution such as fault and structure line, tunnel and sink hole distribution, At least at a plurality of grades, to efficiently identify the magnetic field, and thereby to make a living environment more harmonious to the human body, which can be utilized for furniture arrangement, structure arrangement, and activity place such as residence, ≪ / RTI >

Magnetic field analysis and measurement harmful to the human body In the background, the water vein is said to generate a special energy wave in the soil that forms the boundary between groundwater and groundwater due to the underground water stream in the ground. At this time, it is said that the emitted waves affect the electromagnetic field of the human body. German physicist Dr. Schumann proved that the earth's natural frequency of oscillation is 7.8 Hz, which is the harmless ground frequency.

However, the snakes coming out from the interface between the water and the soil are not normal frequencies but abnormal waves caused by electromagnetic interference. When the natural vibrational wave of the earth vibrates up and down by the water vein, the brain wave of the person above it also resonates with it. It is like if a car passes by the side of the TV, the interference wave comes in and the screen shakes. The human brain waves can not go down to 4Hz below the sleep state, and when they become resonant by the water sump, they stay in the state of 7 ~ 8Hz, which means that they can not sleep deeply in the sleep of medicine (REM) sleep. There is a device called MC Square which is used for concentration study. It is a device that keeps EEG waves in the ALPA band. Considering that the Earth's natural frequency of vibration is 7.83 Hz, the most effective band among the alpha waves is 8 to 10 Hz.

There are two ways to find these sumps: using sump exploration equipment and using human sensing capabilities. The most commonly used methods are electrical resistivity meters, seismometers, sonar detectors, magnetism detectors, and detection methods using manually operated elbows and weights.

However, what can not be explained by the existing water theory is the international award cities such as Venice and Amsterdam. This is far from a scientific approach to geotechnical engineering.

Korean Patent No. 10-0325896

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems,

The distribution of soil cover, soil classification, groundwater level variation, soil contamination distribution, permeability coefficient of soil, distribution of soil rock mass, soil mass distribution, fault and structure line related to magnetic field strength (GIS), which is based on the GIS (Geographic Information System) analysis, by calculating the dis- tribution pattern of the discontinuity, the estimated distribution of the tunnel and the sink hole, the historical record of the earthquake, and the field survey results. The object of the present invention is to provide a magnetic field analysis system which is harmful to the human body and which can create a higher living environment by utilizing the furniture arrangement, the structural arrangement, and the activity place such as residence, office and new construction site.

In order to accomplish the above object, the present invention relates to a method and apparatus for analyzing a high aerial photograph, a geological map, a drilling survey, a groundwater level, a drainage grade, a mining information, an earthquake record, a point pollution source, A database in which evaluation factors for prioritization of field surveys are stored;

A magnetic field evaluation module for calculating an evaluation rating of a magnetic field generated in the ground and artificial structures based on the respective data and for selecting an intensity of a magnetic field exceeding an evaluation rating of the set magnetic field;

And a priority order selection module for calculating a cost and effectiveness of the maintenance and improvement business based on the evaluation factor with respect to the intensity of the magnetic field estimated by the magnetic field evaluation module to select a priority order of the maintenance and improvement business,

The prioritization module calculates grades 1, 2, 3, 4, and 5 through GIS (geographic information system) overlay analysis based on the evaluation factor, and determines the intensity and location of the magnetic field, And a priority of the activity place is given to the human body.

Also, the high aerial photograph, the geological map, the drilling survey, the groundwater level, the drainage grade, the mine search, and the earthquake record of the database of the present invention are stored in a database provided with respective data in the national institution comprehensive information system. To a magnetic field analysis system.

In addition, the point pollution source of the database of the present invention is related to a harmful magnetic field analysis system which is provided with data at a portal map support online site and is stored in a database.

In addition, the field survey of the database of the present invention relates to a human-friendly magnetic field analysis system characterized in that data directly measured by field survey or drill survey is provided and stored in a database.

In the magnetic field evaluation module of the present invention,

A clay and clay soil distribution analyzing unit that receives graphic data of a high aerial photograph from the database to grasp the embankment and the cut soil and classifies the difference value of the magnetic field intensity generated in the ground and the ground;

A cancer classification analyzer for receiving data of the geology from the database and classifying the difference value of the intensity of the arm kind into a class;

A discontinuity analysis unit for a single layer and a structure line for classifying the discontinuities of the single layer and the structure line by receiving the data of the geological map and the data of the drilling survey from the database;

A ground rock appearance analysis unit for receiving drilling survey data from the database and classifying a difference value of the magnetic field intensity occurring according to whether the rock depth is low or low on the ground;

A groundwater level deviation analysis unit for receiving data on groundwater from the database and classifying a difference value of a magnetic field intensity occurring according to high and low groundwater levels;

A permeability coefficient analyzer in the ground that receives data on groundwater and drainage grade data from the database and classifies difference values of magnetic field strength generated according to the permeability coefficient of each soil layer in the ground;

A tunnel and sinkhole distribution analyzing unit that receives data of the mining information from the database and classifies difference values of the magnetic field intensity generated in accordance with the presence or absence of the ground and the existence of the tunnel and the metal mineral or nonmetal mine of the lower rock mass;

A past earthquake feature analysis unit that receives data of earthquake records from the database and classifies discontinuity activities of the ground, which is a factor causing fluctuation of magnetic field strength, into classes;

A soil pollution distribution analyzing unit for receiving data of point pollution sources from the database and classifying the pollution sources which cause fluctuation of the magnetic field intensity into classes;

And a field survey measurement result analysis unit for classifying major factors that determine the field strength by receiving field survey result values from the database. The present invention relates to a magnetic field analysis system harmful to a human body.

The present invention also relates to a magnetic field analysis system harmful to the human body, characterized in that the discontinuity surface of the single layer and the structural line of the present invention is a section in which the geomagnetic field is abruptly fluctuated and is a factor affecting the main passage and flow of the groundwater.

As described above, the magnetic field analysis system which is harmful to the human body of the present invention can be applied to the human body such as magnetic field intensity related to the magnetic field intensity distribution, distribution of the soil classification, cancer classification map, groundwater level deviation, soil pollution distribution map, The geographic information system (GIS) overlay analysis is used to determine the distribution of rocks, rock mass distribution, rock mass distribution, ground mass distribution, fault distribution such as fault and structure line, tunnel and sink hole distribution, At least at a plurality of grades, to efficiently identify the magnetic field, and accordingly, a higher living environment can be created by utilizing the furniture, the structure, and the places of activity such as residence, office and new construction site.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a DB server for receiving big data according to an embodiment of the present invention and calculating the magnitude of a geomagnetic field according to a class by an analysis server for superimposing such a database on a GIS.
FIG. 2 is a schematic diagram for calculating the magnitude of a geomagnetic field according to a grade by an analysis server superimposed on a GIS according to an embodiment of the present invention.

The present invention having such characteristics can be more clearly described by the preferred embodiments thereof.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Before describing in detail several embodiments of the present invention with reference to the accompanying drawings, it is to be understood that the present invention is not limited to the details of construction and the arrangement of components shown in the following detailed description or illustrated in the drawings will be. The invention may be embodied and carried out in other embodiments and carried out in various ways. It should also be noted that the device or element orientation (e.g., "front," "back," "up," "down," "top," "bottom, Expressions and predicates used herein for terms such as "left," " right, "" lateral, " and the like are used merely to simplify the description of the present invention, Or that the element has to have a particular orientation. Also, terms such as " first "and" second "are used herein for the purpose of the description and the appended claims, and are not intended to indicate or imply their relative importance or purpose.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a DB server receiving big data according to an embodiment of the present invention and calculating the magnitude of a geomagnetic field by an analysis server that superimposes the database on a GIS. FIG. FIG. 4 is a schematic diagram for calculating the magnitude of the geomagnetic field by the analysis server superimposed on the GIS according to the embodiment; FIG.

1 and 2, the magnetic field analysis system harmful to the human body of the present invention includes a high aerial photograph 110, a geological map 120, a drilling survey 130, An evaluation factor for prioritization of groundwater level 140, drainage grade 150, mining information 160, seismic record 170, point pollution source 180, and field survey 190 A database 100 in which a plurality of databases are stored; A magnetic field evaluation module (not shown) for calculating an evaluation rating of a magnetic field generated in the ground and an anatomical structure based on each of the DBs and for selecting an intensity of a magnetic field exceeding an evaluation rating of the set magnetic field; And a priority selection module (not shown) for calculating the cost-effectiveness of the maintenance and improvement projects based on the evaluation factors with respect to the intensity of the magnetic field estimated by the magnetic field evaluation module to select the priorities of maintenance and improvement projects .

Here, the high-altitude aerial photograph 110, the geological map 120, the drilling survey 130, the mining information 160, the earthquake record 170, the groundwater level 140, the drainage grade 150, The point source pollution source 180 provided in the portal map 20 and the field survey database 210 are collected in the database server 100 and then the distribution points of the plurality of steps for each database are designated through the analysis server 200, Then, at least 5 grades are calculated by the GIS superimposition function, and the GIS superimposition analysis 230 is generated by performing the precise survey by classifying the geomagnetic field intensity into grades. As a result of this selection and concentration, the limited survey volume will identify the geomagnetic field strength more efficiently than before, and the result will be the priority of furniture placement and activity place in the indoor space 40, It will be used when selecting a ranking target.

The evaluation factors of the priority ranking module include the aerial photograph 110, the geology 120, the drilling survey 130, the groundwater level 140, the drainage grade 150, the mining information 160, The prioritization module calculates the first, second, third, fourth, and fifth grades based on the evaluation factors, and determines the intensity of the magnetic field and the priority of the position determination .

The high aerial photograph 110, the geological map 120, the drilling survey 130, the groundwater level 140, the drainage grade 150, the mining information 160, and the earthquake record 170 of the database 100 Each data is provided in the state organ comprehensive information system 10 and stored in the database 100. [

Here, the point pollution source 180 of the database 100 is provided in the portal map support online site 20 and is stored in the database 100. At this time, various methods such as receiving information after an online site agreement on which the map is supported are used.

The field survey 190 of the database 100 provides data directly measured by the geophysical survey or drilling survey at the site 30 and is stored in the database 100. The geophysical survey may include gravity survey, , The resistivity survey, the natural potential survey, the seismic survey, the electromagnetic survey, the physical logging, the radar survey, and the dugging survey are selectively used, and the drilling is perforated with a small hole in the ground, It is a method which can confirm the characteristics of the device through direct examination or indoor (40) test.

Since the field survey measurement method has a high correlation with the main factors that determine the magnetic field strength, it should be able to be selected appropriately according to the conditions of the site.

In the analysis server 200 as the magnetic field evaluation module, the analysis server 200 includes a clay soil and cut soil distribution analysis unit 211, a carcinoma classification analysis unit 212, a discontinuity surface analysis unit 212a of a single layer and a structural line, a ground rock appearance analysis unit 213, A groundwater level variation analysis unit 214, a groundwater permeability coefficient analysis unit 214a, a tunnel and sink hole distribution analysis unit 215, a past earthquake feature analysis unit 216, a soil pollution distribution analysis unit 217, And an irradiation measurement result analysis unit 218.

Here, the clay and cut soil distribution analyzer 211 can receive the graphic data of the high aerial photograph 110 from the database 100 to determine whether it is buried or cut, and can detect the magnetic field strength The difference is classified into grade. At this time, the development of the urban paper in the urban area is considered to be wrong. Where the mountains were, they were cut and flattened, and the valleys and rivers were filled with the surrounding soil and flattened to form urban areas. The former has a low permeability coefficient (groundwater velocity through the soil or bedrock) of the soil below the surface of the ground, so the ground subsidence (aka sink hole) is low. On the other hand, since the latter filled the valley with the nearby soil, the permeability coefficient of the soil is high, which can lead to ground settlement (aka sink hole) as the main moving passage of the groundwater. As a result of the high aerial photograph 110 provided by the national institution comprehensive information system 10, it is possible to grasp the embankment and the cut soil, and it is necessary to distinguish the ground surface and the new ground having embankment from each other have.

The carcinoma classification analyzer 212 receives the data of the geological map 120 from the database 100 and classifies the difference value of the arm magnetic field intensity into a grade. That is, as the result of the geological map 120 provided by the national institution comprehensive information system 10, it is necessary to distinguish the geomagnetic field intensity difference value by the carcinoma type.

The discontinuity analyzing unit 212a of the single layer and the structural line receives the data of the geological map 120 and the data of the drilling survey 130 from the database 100 and classifies the discontinuities of the single layer and the structure line. In other words, as a result of the geological map 120 and the drilling survey 130 provided by the national institution comprehensive information system 10, the discontinuity of the fault and the structure line is a region in which the geomagnetic field is rapidly fluctuated, It is necessary to distinguish this because it is a factor.

The ground rock layer appearance analysis unit 213 receives the data of the drilling survey 130 from the database 100 and classifies the difference value of the magnetic field intensity occurring according to whether the rock depth is low or deep in the ground . In other words, it is necessary to distinguish the geomagnetic field intensity difference value as the result of the drilling survey (130) information provided by the national institution comprehensive information system (10)

The groundwater level variation analyzer 214 receives the data of the groundwater level 140 from the database 100 and classifies the differences of the magnetic field strengths occurring according to the high and low groundwater level 140 . That is, it is necessary to distinguish the geomagnetic field strength difference value depending on whether the groundwater level 140 is high or low as a result of the groundwater level database 140 provided by the national institution comprehensive information system 10.

The permeability coefficient analysis unit 214a receives the data of the groundwater level 140 and the drainage class 150 from the database 100 and calculates the permeability coefficient of the ground based on the permeability coefficient of the ground Classify the difference value by grade. That is, as a result of the database of the groundwater level 140 and the drainage class 150 provided by the national institution comprehensive information system 10, the permeability coefficients of the respective ground layers are different from each other, There is a need.

The tunnel and sinkhole distribution analyzing unit 215 receives the data of the mining information 160 from the database 100 to determine whether there is any ground or underground of the ground and whether the lower rock is a metal mine or a magnetic field The difference value of intensity is classified by grade. That is, on the basis of the mining information 160 provided by the governmental institution comprehensive information system 10, the information on whether there is a waste rock and a tunnel on the lower part of the ground and whether the lower rock is a metal mine or a non- It is necessary to distinguish this.

The past seismic appearance analysis unit 216 receives the data of the seismic record 170 from the database 100 and classifies the discontinuity surface activity of the ground, which is a factor causing the fluctuation of the magnetic field strength. In other words, it is necessary to distinguish the past earthquake records provided by the National Agency Integrated Information System (10) as evidence of the discontinuity activity in the underground region, which is a cause of fluctuation in the earthquake disturbance intensity.

The soil contamination distribution analyzer 217 receives the data of the point pollution source 180 from the database 100 and classifies the pollution sources that cause fluctuation of the magnetic field intensity. In other words, the point source (180) information provided by the portal map support online site (20) is likely to cause various kinds of soil contamination on the ground, which is a factor causing the fluctuation of the earthquake disturbance.

The field survey result analyzing unit 218 receives the field survey result from the database 100 and classifies the main factors for determining the field strength. Here, there is a physical survey and drilling survey as a direct measurement method in the field 30.

10: National Agency Integrated Information System 20: Portal map support online site
30: scene 40: indoor
100: database, DB server 110: high aerial photograph
120: Geology 130: Drilling survey
140: groundwater level 150: drainage grade
160: Mine information 170: Earthquake records
180: Point source 190: Field survey
200: Analysis server 211: Embankment and cutoff distribution analysis section
212: carcinoma classification analysis unit 212a: discontinuity analysis unit of a single layer and a structural line
213: ground rock appearance analysis section 214: groundwater level variation analysis section
214a: Permeation coefficient analysis part of the ground part 215: Tunnel and sink hole distribution analysis part
216: Past earthquake appearance analysis section 217: Soil contamination distribution analysis section
218: Field survey measurement result analysis part 210: Multi-step score standard assignment by evaluation DB
220: GIS overlay analysis

Claims (6)

(110), geology (120), drilling survey (130), groundwater level (140), drainage class (150), mining information (160), earthquake records A database 100 for storing evaluation factors for prioritization of a point pollution source 170, a point pollution source 180, and a field survey 190;
A magnetic field evaluation module for calculating an evaluation rating of a magnetic field generated in the ground and artificial structures based on the database 100 and for selecting an intensity of a magnetic field exceeding an evaluation rating of the set magnetic field;
And a priority order selection module for calculating a cost and effectiveness of the maintenance and improvement business based on the evaluation factor with respect to the intensity of the magnetic field estimated by the magnetic field evaluation module to select a priority order of the maintenance and improvement business,
The prioritization module calculates grades 1, 2, 3, 4, and 5 through GIS (geographic information system) overlay analysis based on the evaluation factors, and determines the strength and location of the magnetic field, Priority is given to furniture layout and activity places,
The magnetic field evaluation module can receive the graphic data of the high-altitude aerial photograph 110 from the database 100 to determine whether the embossed soil is cut or not. The magnetic field evaluation module classifies the difference value of the magnetic field intensity, A clay soil and slice soil distribution analysis unit 211;
A cancer classification analyzer 212 for receiving the data of the geological map 120 from the database 100 and classifying the difference value of the arm magnetic field strength into a grade;
A discontinuity analysis unit 212a of a single layer and a structure line that receives the data of the geological map 120 and the data of the drilling survey 130 from the database 100 and classifies the discontinuities of the single layer and the structure line;
A ground rock appearance casting analysis unit 213 receiving the data of the drilling survey 130 from the database 100 and classifying the difference value of the magnetic field intensity occurring depending on whether the depth of the rock is small or deep on the ground;
A groundwater level variation analyzer 214 for receiving the data of the groundwater level 140 from the database 100 and classifying a difference value of the magnetic field intensity occurring according to the high and low groundwater level 140;
The data of the groundwater level 140 and the drainage class 150 are received from the database 100 and the difference of the magnetic field intensity generated according to the permeability coefficient of each soil layer is classified into classes. A portion 214a;
The data of the mining information 160 is received from the database 100 to determine whether or not the underground mining and the underground of the ground are present and whether the difference in the intensity of the magnetic field generated according to the non- A distribution analysis unit 215;
A past earthquake feature analysis unit 216 which receives data of the earthquake record 170 from the database 100 and classifies the discontinuity surface activity of the ground, which is a factor causing the variation of the magnetic field intensity, into a grade;
A soil contamination distribution analyzer 217 for receiving the data of the point pollution source 180 from the database 100 and classifying the pollution sources that cause fluctuation of the magnetic field intensity into classes;
A field survey measurement result analyzer 218 for classifying major factors that determine field strength by receiving field survey results from the database 100;
Wherein the magnetic field analyzing system comprises a magnetic field analyzing system.
The method according to claim 1,
The high aerial photograph 110, the geological map 120, the drilling survey 130, the groundwater level 140, the drainage grade 150, the mining information 160, and the earthquake record 170 of the database 100 are stored in the national institution Wherein each data is provided in an integrated information system (10) and stored in a database (100).
The method according to claim 1,
Wherein the point source (180) of the database (100) is provided in the portal map support online site (20) and stored in the database (100).
The method according to claim 1,
Wherein the field survey (190) of the database (100) is provided in the database (100) with data directly measured by the geophysical or drilling survey at the site (30).
The method according to claim 1,
The single layer and the discontinuity of the structure line of the single layer and the structure line analysis section 212a are sections in which the geomagnetic field is abruptly changed and are factors affecting the main moving path and flow of the groundwater. . delete

Images