KR101636879B1 - A method of searching bentonite with data on sar - Google Patents

Abstract

The present invention relates to a method of searching for bentonite with a synthetic aperture radar (SAR) image. The method, which uses the property of bentonite that bentonite swells in volume when absorbing moisture, includes: generating an SAR interferogram showing displacement of a ground surface by combining an SAR image during dry weather and an SAR image of the same location during humid weather, the SAR images obtained by radiating a microband radio wave from a sensor of an SAR and receiving a reflected wave from the ground surface; and exploring a wide area where bentonite may exist by using the SAR interferogram. The SAR interferogram of the present invention makes it possible to accurately measure a few mm to a few cm displacement of the ground surface in a wide area of several km^2. Thus, efficiency of exploration of a probable bentonite bearing site can be significantly increased.

Description

TECHNICAL FIELD [0001] The present invention relates to a method of detecting a bentonite by a satellite radar image,

The present invention relates to a method of detecting a bentonite by a satellite radar image, wherein a bentonite (clay mineral) is swollen in volume due to absorption of water, and a sensor of a synthetic aperture radius (SAR) (SAR interferogram) that can detect the displacement of a surface by combining a radar image at the same position and a radar image at the time of wetting obtained by radiating a radio wave of a band and receiving a reflected wave from the ground surface And by the radar interference diagram, it is possible to quickly and effectively explore the area where the bentonite is available for a wide area at a lower cost.

Bentonite is a swellable clay mineral mainly composed of montmorillonite (bentonite), which is a fine clay minerals that are produced by volcanic eruption. It is a mixture of clay minerals and volcanic ash. It is also called the soil of miracles.

In other words, it contains 66 recommended minerals that are essential to the human body and is the most important minerals due to its diversity of applications, so that there is almost no use in foods, medicines, cosmetics, petroleum refining, And the current output of bentonite is limited, so that the price of minerals is gradually increasing. In each country, competitively searching for bentonite is being carried out.

Conventional mineral exploration has been carried out on geophysical information based on geophysical exploration, geochemical exploration, and geophysical exploration, but it has a problem that considerable time and human resources are required.

In addition, satellite radar survey has been used mainly for geological disaster such as subsidence, landslide, and volcano by analyzing the displacement of the surface, but satellite radar survey has not been carried out previously only for bentonite exploration.

It is an object of the present invention to provide a "method for exploration of bentonite by satellite radar imagery" capable of exploiting precious valued bentonite available areas as industrial mineral resources over a wide area in a more economical, quick and effective manner.

Another object of the present invention is to provide a radar image which is obtained by a satellite radar through a microwave and which is in the same position in a dry state and a radar image at the time of wetting by using a swell characteristic of the volume due to the water absorption of bentonite A method of exploring a bentonite by a satellite radar image ", which is capable of easily detecting a bentonite available area by creating a radar interference figure that can detect the displacement of an indicator by using the radar interference map have.

A satellite radar (SAR) that moves along a satellite orbit radiates a microwave of a specific frequency to the ground and obtains reflected waves reflected from the ground. The two or more satellite radars The radar image at the time of drying and the radar image at the time of wetting are obtained and the radar image obtained is synthesized to subtract the phase of the radar image at the time of drying from the phase of the radar image at the time of drying, To generate the radar interference diagram indicating the displacement of the indicator.

The area where the bentonite can be present is estimated by the radar interference degree, and various data such as the geological distribution map and the bentonite mine area are added to the map to analyze the area, and the area having the highest possibility of the bentonite in the radar interference is explored .

Satellite radar probing basically emits radio waves in the microwave band from the sky to the ground in a satellite radar sensor.

The frequency used in satellite radar uses three frequencies: X-band (8-12GHz), C-band (4-8GHz) and L-band (1-2GHz).

The higher the frequency, the better the resolution (resolution) of the image. However, it is difficult to obtain accurate images in areas where the scattering of trees and the like is large due to poor transparency.

In the present invention, since the clay mineral is likely to be located in an untapped mountainous region, the L-band radar such as JERS-1 and ALOS-2, which can obtain accurate images even when there are many scatterers on the ground, And a satellite image is mounted.

Since the microwaves emitted from the satellite radar can be transmitted through the clouds, the microwaves emitted from the satellite radar sensor can be obtained at a speed of light, And again receives reflected waves reflected by scattering on the ground.

At this time, the phase information of the surface is collected at the same time. Imaging of the indicator phase from the received reflected wave is performed. Only reflections are used to create the image.

In order to prepare the radar interference degree in the present invention, a radar image at the time of wetting when the bentonite layer is swelled and moist due to a high water content in the ground layer after the rain is turned off, Obtain the image.

The radar image obtained at this time is not an image of the scenery of the mountain trees on the ground but an image containing the phase information of the same location indicator.

The phase is distance information between the measurement point and the satellite radar sensor.

The two radar images include a part where there is no change of the indicator and a part where the change of the indicator occurs, but it is difficult to identify the change part of the indicator by each radar image alone.

If there is no abnormality in the object in the radar image repeatedly photographed at the same position, there is no difference, but when the object moves, there is a difference in phase.

Therefore, a SAR interferogram which can confirm the displacement of an indicator from the two radar images obtained by applying the SAR interferometry (SAR) is created.

That is, the two radar images are overlapped so that the same points of the two radar images coincide with each other, and the phase of the radar image at the time of overlapping and drying is subtracted from the phase of the radar image when it is wet.

 The color of the corresponding level of the color scale having no difference is displayed on the phase of the portion where the surface of the two radar images does not change, and the color of the corresponding level of the color scale is displayed on the phase difference of the portion where the surface changes.

The process of creating such a collision is performed by a computer.

According to the present invention, when the bentonite is present under the ground or inside the ground layer, if the water absorbs the water, the volume of the bentonite is increased by the fringe of the radar interference degree, Explore available areas.

The radar interference degree (SAR interferogram) may observe a small displacement of the indicator exactly it is possible to observe the displacement of the indicator with an accuracy of only a few cm to several mm or more over a wide area several tens of km ^2.

Therefore, it has been used for observation of geological disasters such as volcanic eruptions, earthquakes, landslides, and subsidence due to radar interference generated from a plurality of radar images having different timings.

However, in the present invention, the radar interference diagram representing the change of the radar indicator from the radar image at the time of drying and the radar image at the time of the wet is created, and only the change portion of the indicator is analyzed by the radar interference degree to explore the area where the bentonite exists In this regard, the inventive bentonite exploration technique is totally different from the geological observations by conventional interferometry.

 On the other hand, even if one of the indices is estimated to be an area where bentonite is present due to the radar interference degree, it can not be determined to be an area of bentonite. Therefore, the geological distribution of the bentonite mine area, By comprehensive analysis, we will explore the region where the possibility of bentonite is most likely to be found among the displacements of the surface indicated by radar interference.

It is very useful to develop a mine for mining of bentonite by forming a radar interference figure indicating an area having the highest possible presence of bentonite according to the present invention.

The present invention uses a characteristic that the volume of the bentonite swells due to water absorption, radiates a microwave to the ground by a satellite radar, synthesizes a radar image at the time of drying and a radar image at the time of wetting obtained by the reflected wave, And the radar interference map is used to search the area where the bentonite can be present. Therefore, it is necessary for the conventional explorer to individually search for the regional outlook, And the exploration ability of bentonite clay minerals is further improved. Thus, according to the present invention, anyone can easily explore the area where bentonite clay minerals are present.

In addition, it is possible to rapidly and precisely exploit the available areas of bentonite, which has been valued as an industrial mineral resource, over a wide area. Therefore, it can be applied to the development of bentonite mineral resources to further enhance the securing of bentonite mineral resources There are various effects such as can be.

FIG. 1 is a schematic diagram of an indicator measurement of a satellite radar
FIG. 2 is a graph showing the radar interference
FIG. 3 is a graph showing the distribution of lipids in Korea, Gyeongnam Pohang,
4 is an explanatory diagram of the interference degree process of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

(1) Acquisition phase of satellite radar image

1 is a schematic diagram of information collection on the earth (E) of the earth by a satellite radar (SAR);

The satellite (SAR) applied to the embodiment of the present invention is equipped with an L-band (1-2 GHz) radar such as JERS-1 or ALOS-2, The sensor radiates the 1-2 GHz microwave to the ground and receives the reflected wave reflected from the ground to obtain a radar image of the measurement area.

In order to increase the probability of exploration of an available area of bentonite (clay mineral) in the above-described satellite radar survey, the exploration of the surrounding area and the geological distribution map (P2) are preferably performed centering on the present bentonite mine area , It is desirable to probe the area (B) where the presence of bentonite is possible.

A plurality of radar images, that is, a radar image in a dry state and a radar image in a wet state, are obtained by the surface probe of the satellite radar.

4 is a schematic view of a radar image when wet, and D2 is a schematic view of a radar image when it is dry.

The original radar image is shown as black and white graduation, but when the fringe is added during the creation of the interference figure, the radar interference is represented by a color pattern.

(D1) and (D2) of the two radar images are represented by a color pattern of a color scale cs indicating a phase in a square of a predetermined size. D2) in a color pattern.

The high and low indexes H and L of the radar image can be estimated by referring to the color scale of the color pattern when the two radar images D1 and D2 are separately viewed. It is difficult to do.

Therefore, a radar interference figure (SAR) is generated that can detect the displacement of the indicator from the two radar images.

(2) Creation and analysis phase of radar interference figure

In this embodiment, a radar interference technique (in SAR) is applied to generate a degree of interference D3 that can detect the change of the indicator by the radar image D2 in the dry state and the radar image D1 in the wet state.

That is, the two radar images D1 and D2 shown in FIG. 4 overlap with each other on the same coordinates on a certain square expressed by latitude and longitude. There is no point in merging with different points.

Next, the phase of the radar image D2 at the time of wetting is subtracted from the phase of the radar image D2 when it coincides with the dry time.

 The subtraction of the phase of one radar image from the phase of one radar image means the subtraction between the phases of each identical point of a certain square distributed in a plane on each radar image.

When the phase of the radar image D2 at the time of drying is subtracted from the phase of the radar image D1 at the time of the wetting at the phase of the radar image D2 at the time of drying, there is no phase difference between the portions of the two radar images D2 (D3), for example, is white, which means zero at the level of the color scale.

In addition, since there is a difference in phase between the portions of the two radar images D1 and D2 where the displacements are present, the corresponding color of the color scale cs corresponding to the difference remaining in the radar interference degree D3, , And yellow.

According to the radar interference diagram (D3) in Fig. 4, a portion (white) having no displacement of the indicator and a portion having a displacement of the indicator (yellow) can be distinguished from each other by the color pattern of white and yellow.

The radar interference diagram P1 of FIG. 2 is the radar interference diagram of the present invention, and is represented by a color pattern of green and red. In the coherence (P1), the green part is the part without the displacement of the surface and the red part is the part where the displacement of the surface occurs. The displacement area of the indicator can be easily known by the radar interference degree P1.

The difference between the phase of the radar image at the time of dryness and the phase of the radar image at the time of wetting is the elevated part of the surface. The index is the only displaced surface, It is hard to tell.

Therefore, the geological distribution map of Fig. 3, or the data of the distribution of bentonite mines, is added to the map, and the result is finally analyzed to find the area having the highest possibility of bentonite.

According to the radar interference degree of the present invention, it is possible to easily explore the area where the bentonite (clay mineral) can be present over a wide area of several tens km ² or more, and the time and human effort can be greatly reduced .

By creating the radar interference map showing the region with the highest possible presence of bentonite by the present invention, it is possible to further promote the development of bentonite resources, which are valued as industrial mineral resources, and to provide a mine for mining of bentonite It can be very useful in development.

ASR: satellite radar D1: radar image when wet
D2: radar image when dry D3: interference degree H; High indicator L: Low indicator
B: Bentonite available area P1: Radar interference P2: Geological distribution

Claims (5)

In the satellite radar image,
A radar interference map capable of recognizing the displacement of the surface by synthesizing a radar image at the time of dry measurement and a radar image at the time of wetting by repeatedly measuring the same area is created and the displacement region of the index represented by the radar interference degree is defined as a region Wherein the satellite is radar image. The method according to claim 1,
Wherein the radar image is an information image of an indicator measured by a reflected wave by radiating a microwave of 1-2 GHz frequency to the ground in a phase radar equipped with a JERS-1 or ALOS-2 L-band radar. . The method according to claim 1,
Wherein the radar interference degree is obtained by synthesizing two radar images having different timings and subtracting another radar image from the one radar image and displaying the difference in a plane view. The method according to claim 1,
And determining whether the bentonite exists in an available region by analyzing the displacement portion of the surface on the radar interference map. The method according to claim 1,
Wherein the radar interference degree is represented by a color scale color pattern in which a phase shift of an indicator caused by a subtraction between two radar images due to the addition of a fringe is represented by a color pattern of a color scale.

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