KR101859909B1 - System and Method for Precasting and Tracking Red Tied Using Drone - Google Patents

Abstract

The present invention relates to a method and apparatus for monitoring a red tide occurrence symptom prior to a red tide caution step using a drone equipped with a detection device and being guided by a moving vehicle and monitoring the movement of red tide in a red tide warning step, The present invention relates to a red tide forecasting and tracking system and method, and more particularly, to a red tide forecasting and tracking system and method, A sound pickup unit for picking up a picture or an image of the water to be inspected, a sound wave detector for dropping the sound wave on the water to be inspected and oscillating the ultrasonic wave and measuring the backscattering wave generated by the sound wave, A detection unit comprising a detection device including the detection device; A communication unit having a bidirectional wireless transmission / reception function; And an integrated control unit incorporated in a PC provided in the vehicle, wherein the integrated control unit controls the flight of the drones and the tide of the detection equipment through the communication unit, and the detection equipment collects And a base station unit for receiving and processing a result of an observation to generate observation information and performing various controls for monitoring enhancement. The photographing unit includes a thermal imaging camera for measuring a temperature of the water to be inspected, Wherein the thermal image camera and the high resolution camera are selectively provided on the drones, and the sound wave detecting unit includes a cable wound around the winding unit of the mounting means, and a cable The ultrasound waves are emitted to the target water body to receive the backscattering waves And an acoustic wave processing board for processing the backscattered waves, converting the backscattered waves into digital signals, and transmitting the digital signals to the integrated control unit of the base station unit via the communication unit, The cover is fixed to the ultrasonic probe in a state of being electrically connected to the cable by a plurality of containers opened and closed by a control signal of the integrated control unit of the base station unit, Characterized in that the buoy is detachably mounted.

Description

TECHNICAL FIELD [0001] The present invention relates to a red tide using drone,

The present invention relates to a system and method for tracking and monitoring red tide using drones, and more particularly, to a system and method for monitoring red tide occurrence symptoms prior to a tide caution step using a dron, The present invention also relates to a system and method for tracking and tracking red tide using a dron for tracking the movement of red tide in a step so that the control can be performed in a timely manner.

Red tide is a phenomenon in which phytoplankton propagates in large quantities and changes the color of sea or river. As a result, the concentration of dissolved oxygen in water is lowered, causing massive loss of fish and shellfish, damaging the aquaculture industry and further damaging the marine ecosystem and tourism industry directly or indirectly have.

The red tide often proliferates rapidly to more than 2200 cells / ㎖ within a week when the population reaches 150 ~ 170 cells / ㎖. In Korea, the red tide alert is issued for over 300 cell / ㎖, I am coping.

If the red tide is full-scale, the damage amount reaches several hundred billion won, but if it is detected beforehand and the control is done in a timely manner, the damage amount can be reduced by 60 to 70%. The red tide detection method used so far is to detect red tide by the naked eye, A method of measuring the number of red tide after sampling, a method of irradiating a laser to the water surface, and a method of determining the red tide by spectroscopically measuring a scattering signal of light.

However, the naked eye identification method requires visualization of red tide, and the collection method has a lot of time and manpower consuming, and there is a limit in establishing a systematic control plan based on the above method, especially in red tide having characteristics of simultaneous appearance.

In addition, although the laser irradiation method can detect the symptom of red tide occurrence before visualizing the red tide, in order to obtain a reliable scatter signal, the laser irradiation equipment must be fixed on the ground, and the red tide There is a burden to be installed in various places along the shore in order to have an effective detection system for the fish.

On the other hand, a technology for detecting red tide using ultrasonic waves has been introduced. This technique utilizes the characteristic that the acoustic scattering intensity of the marine microorganism placed in the irradiation region differs according to the size and density of the microorganism by irradiating ultrasound in water As technology, it is utilized for the presence of red tide and its density.

In other words, main phytoplankton species which are the cause of red tide in Korea are smaller than those of zooplankton and exhibit acoustic scattering waveforms different from those of other microorganisms in the frequency band of 3 to 5 MHz. In addition, it is possible to estimate the density of red tide populations by irradiating ultrasound within the depth of the water by dropping an ultrasonic probe that irradiates the frequency band floating in a colony within a depth of 10 m, You can find out in advance.

However, since the survey range is shorter than 10cm, it still remains at the survey level using the ship, so that the utilization can not be maximized.

KR 10-1338039 B1 2013.12.02.

 Ocean and Polar Research 2013 Development and Evaluation of Real Time Acoustic Detection System for Harmful Red Tide Using Ultrasonic Wave

A problem to be solved by the present invention is to use a dron equipped with means for detecting red tide to detect the symptom of red tide occurrence before the tide caution step, to track the movement of red tide when the red tide occurs, And to provide a system and method for tracking and monitoring red tide using a dron that can be controlled in a timely manner.

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According to an aspect of the present invention, there is provided a red tide tracing and tracking system using a drone, comprising: a flight unit for flying a target water area using a dron equipped with an auto grid flight function; A sound pickup unit for picking up a picture or an image of the water to be inspected, a sound wave detector for dropping the sound wave on the water to be inspected and oscillating the ultrasonic wave and measuring the backscattering wave generated by the sound wave, A detection unit comprising a detection device including the detection device; A communication unit having a bidirectional wireless transmission / reception function; And an integrated control unit incorporated in a PC provided in the vehicle, wherein the integrated control unit controls the flight of the drones and the tide of the detection equipment through the communication unit, and the detection equipment collects And a base station unit for receiving and processing a result of an observation to generate observation information and performing various controls for monitoring enhancement. The photographing unit includes a thermal imaging camera for measuring a temperature of the water to be inspected, Wherein the thermal image camera and the high resolution camera are selectively provided on the drones, and the sound wave detecting unit includes a cable wound around the winding unit of the mounting means, and a cable The ultrasound waves are emitted to the target water body to receive the backscattering waves And an acoustic wave processing board for processing the backscattered waves, converting the backscattered waves into digital signals, and transmitting the digital signals to the integrated control unit of the base station unit via the communication unit, The cover is fixed to the ultrasonic probe in a state of being electrically connected to the cable by a plurality of containers opened and closed by a control signal of the integrated control unit of the base station unit, Characterized in that the buoy is detachably mounted.

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In addition, the red tide prediction and tracking method using the dron according to the present invention can be realized by a plan preparation process for establishing a dron flight schedule of a target water area and a dron with a high resolution camera flying before the red tide flight, A reference data collection step of photographing the reference data; The dron equipped with the thermal imaging camera will fly in the auto grid according to the schedule mentioned above, and the water temperature measurement process to measure the water temperature of the target water area and the drone equipped with the high resolution camera will fly the auto grid according to the schedule, A blooming symptom monitoring step in which a sleeping photographing process for transmitting the sleeping photographing process to the integrated control unit is selectively performed; When a spot of a red tide symptom, which is a temperature higher than a reference in the water temperature measurement process, is found, or when a reference point data collection process and a sleep surface photograph taken in a sleep photographing process are compared with each other, An ultrasound measuring process of measuring the intensity of the backscattered wave by dropping the probe and a method of measuring the intensity of the backscattered wave when the intensity of the backscattering wave is measured to be higher than a reference intensity, A collection step of collecting water at a corresponding point by using a sailor comprising a plurality of containers and returning to the vehicle of the base station unit; And a monitoring step of observing the collected water to determine whether the microorganism contained in the water is a bloom-induced species or a population per unit volume, and in the monitoring data collection step, And a correction of the reference illumination to the reference illumination is performed, and the illuminance measurement for the brightness is accompanied by the operation of the sleep imaging process.

In addition, in the red tide prediction and tracking method using the drones according to the present invention, if the number of microbial populations of the red tide-inducing species and the number of the microbial populations is 150 to 170 cells / ml in the above determination process, And generating a distribution map of the redeye symptom points that is greater than or equal to the reference value and transmitting the generated distribution chart to the redeye general headquarters.

In addition, in the red tide prediction and tracking method using the drones according to the present invention, a point at which the color deviation is maximum among the red tide symptom points is selected, and an ultrasonic probe is dropped at the corresponding point to determine the intensity of the back scattered wave, ㎖ is measured, it is reported to the head of the red tide control unit, and the frequency of the flight of the drones is increased to enhance the photographing work for the target water zone. If a photograph of the red tide band is found in this process, And a tracking process of capturing a moving image and transmitting the moving image in real time.

According to the system and method of red tide tracing and tracking using the drones according to the present invention, it is possible to provide a drones that fly by the auto grid flight function, a photographing unit which photographs photographs or images of the target water zone, A base station unit for generating a tide information by receiving and processing a tide result collected by the detection equipment and a water dropper dropped by the water to be analyzed and measuring the backscattering wave generated by the tide sensor, Since the symptoms of red tide occurrence can be detected before the red tide caution step, a systematic red tide control plan can be established.

Brief Description of the Drawings Fig. 1 is a schematic diagram for explaining a red tide forecasting and tracking system using a dron according to the present invention; Fig.
2 is a schematic diagram illustrating a tide flight of a dredge for red tide in accordance with the present invention;
3 is a block diagram showing a red tide prediction and tracking method using a dron according to the present invention;

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

FIG. 1 is a schematic diagram for explaining a red tide forecasting and tracking system using a drone according to the present invention, and FIG. 2 is a schematic diagram illustrating a tide flight of a reddish tide drone according to the present invention.

Referring to FIGS. 1 and 2, the drones for red tide inspection according to the present invention are drones having specifications optimized for red tide monitoring activities. However, It is possible to fly during normal flight, and it is possible to fly normally on a strong sea breeze or sudden gust (90 km / h limit wind speed).

In addition, the wireless remote-controllable distance is up to 5km, so it is necessary to fly over the visible range, so that the GPS-based flight takes place. In particular, Auto-Grid flight function to obtain high- Respectively.

As shown in FIG. 2, the auto-grid flight is a flight control function for automatically flying a specific type of route such as a zigzag route while keeping the drones at a predetermined altitude in a designated area based on the position information obtained through the GPS When the camera stops at the point (a) located at a predetermined interval on the path, the camera, which is a detection device, photographs a high-resolution photograph and combines the high-resolution photograph into a high-resolution photograph by the integrated controller 43 described later.

Since the synthesized high-resolution photograph is photographed at a low altitude (about 50 m), the resolution of the synthesized high-resolution photograph is higher than that of the aerial photographed through a general airplane using the same performance camera, .

In addition, the autogrid flight path can be stored and used during regular tidal activity before red tide. In addition, if a specific point (b) (hereinafter referred to as "red tide symptom point") in which a red tide occurrence symptom is found is found, the route may be changed at any time during regular flight to fly to that point. Here, the symbol A in FIG. 2 denotes a unit flight area in which mission execution and return can be performed stably without battery replacement.

The rear surface of the drone 11 is provided with a mounting means for installing a camera or an ultrasonic probe 21 required for a tentative activity. In order to obtain a clear image or a picture, a vibration generated during the flight should not be transmitted to the camera And the ultrasonic probe 21 is dropped into water and detected. The gimbal for mounting the camera and the winder for raising and lowering the ultrasonic probe 21 are used as the mounting means.

On the other hand, when the drones 11 can not fly due to an external factor such as a blast, or when an abnormality in gas is detected, the drones 11 are automatically landed on the nearest coast or automatically returned to the base station unit 40 Function.

A red tide prediction system using a dron according to the present invention includes a flight unit 10 for flying a target water area by using the drones 11, a detection unit mounted on the drones 11, 20), a communication unit (30) responsible for the flight of the drones (11) and for wireless transmission and reception of the detection equipment, and a control unit (30) for controlling the flight of the drones (11) And a base station unit 40 for receiving and processing the results of the taps obtained from the detection equipment and generating tide information.

The flying unit 10 includes a drones 11 and associated accessories necessary for carrying out the mission of the drones 11 and includes the batteries provided in the drones 11 and the mounting means described above . The battery is a replacement battery used for a quick next flight of the returned drones 11 after the flight of the unit flying area A has been completed, and activation of the mounting means is performed by an instruction of the base station unit 40. [

The detection device of the detection unit 20 includes a photographing unit, a sound wave detection unit, and a water collector. The photographing unit is configured to photograph a photograph or an image of a target water area, and a thermal image camera or a high resolution camera (HD Zoom Camera) is selectively installed according to the mission. Each camera measures the temperature, And a red tide band tracking function will be described later in detail.

The sonic wave detection unit is configured to measure the number of phytoplankton per unit volume of the phytoplankton using ultrasonic waves. The sonic wave detection unit comprises a cable wound around a winding unit of the mounting means, an ultrasonic probe 21 connected to the cable, and a sound wave processing board.

The ultrasonic probe 21 is dropped into the water by the cable and ascends and descends at a depth of 2 to 10 meters at the dropping point. The ultrasonic probe 21 oscillates and receives the backscattering waves generated through the ultrasonic probe 21 and transmits the backscattered wave to the sound processing board through the cable. On the other hand, as described above, a transducer having a frequency band of 3 to 5 MHz is used as the ultrasonic probe 21 in order to obtain a back acoustically amplified waveform having discrimination for phytoplankton.

The sonic wave processing board processes the backscattered waves and converts the backscattered waves into digital signals and transmits them to the base station unit 40 through the communication unit 30. To this end, an ultrasonic wave receiving module connected to the cable, An amplifier and a filter connected to the module for performing an ultrasonic signal amplification and a noise removing function, an envelope detector for detecting an envelope of an ultrasonic signal (backscattering wave) through the amplifier and the filter, and an A / D converter connected to the detector The A / D converter is connected to the CDMA module of the communication unit 30, and the intensity value of the backscattering wave converted into a digital signal is transmitted to the integrated controller 43 of the base station unit 40 in real time.

Here, the magnitude of the envelope has a correlation with the intensity of the backscattering wave, so that the population density of the phytoplankton can be calculated.

The water dispenser includes a plurality of containers whose lid is opened and closed by a control signal of the integrated control unit 43 of the base station unit 40. The water dispenser is fixed to the ultrasonic probe 21 in an electrically connected state to the ultrasonic probe 21 21). ≪ / RTI >

The communication unit 30 is a bidirectional signal transmission unit for wireless communication between the flight unit 10 and the base station unit 40 and between the detection unit 20 and the base station unit 40, A GPS antenna, a wireless communication antenna, and a CDMA module connected to the wireless communication antenna, which are respectively provided in the vehicle 41 of the station unit 40.

In the case of the GPS antenna provided in the drone 11, in order to fly the corresponding point of the position information received from the base station unit 40 through the wireless communication antenna, the auto grid flight or the flight of the redeye symptom point (b) It becomes possible.

The vehicle 41 is also moved along the drones 11 to automatically return to the position of the vehicle 41 via the GPS antenna provided in the base station unit 40, The positional information is grasped and transmitted to the drone 11 through the wireless communication antenna so as to be used for automatic return.

The CDMA module wirelessly transmits and receives the status information of the drones 11 and the detection equipment, the image information of the photographing unit, the sound wave information of the sound wave detecting unit, and the control signal of the base station unit 40.

The base station unit 40 moves the shore along the drones 11 in consideration of the characteristics of the drones 11 to be returned after completing the flight of each unit flight area A due to the limitation of the flying time due to the battery capacity limit A unit for controlling the flight unit 10 and the detection unit 20 and generating the tide information by receiving and processing the digital image signal of the photographing unit and the sound wave information of the sound detection unit, And an integrated control unit 43 incorporated in a PC provided in the personal computer 41.

The vehicle 41 is provided with a GPS antenna, a wireless communication antenna and a CDMA module as described above, where the drone 11 completed the unit flight area A returns.

The integrated control unit 43 is an application program that supervises the tide activities of the flight unit 10 and the detection unit 20 and is connected to the CDMA module of the vehicle 41. The PC monitor includes a CDMA Together with status information of the flight unit 10 and the detection unit 20 received from the module, environmental information, tally information, and input information necessary for controlling the drones 11 and the detection equipment are displayed.

The state information includes the location information of the drones 11 and the remaining battery level, and the environmental information includes the weather and the wind direction and the wind speed at the point where the drones 11 are flying.

The tide information includes an image of a sleeping surface, an image, an image of a water area to be observed, a color intensity value of a backscattered wave, and a population density of a phytoplankton corresponding thereto.

3 is a block diagram illustrating a red tide forecasting and tracking method using a drones according to the present invention. 1 through 3, the method of the present invention can be applied to a preparation step (S10), a blooming symptom monitoring step (S20), a measurement step (S30) and a measurement step And monitoring enhancement step (S40). It is possible to capture the red tide occurrence sign before the red tide notice, and to provide the tracking and red tide image in real time after the red tide is generated.

The preparing step S10 is a step of preparing a reference data collection process in which a basic photographing operation necessary for capturing the signs of red tide is performed in the planning step S11 and the monitoring step S20 for the regular tide activity of the assigned target water area (S12).

The planning process S11 is a process of establishing a daily schedule and a weekly schedule while setting a unit flight area A of a target water area to be inspected. As shown in FIG. 2, (D), and the schedule area can be established by strengthening the monitoring activities of the monitoring area (S20) rather than the general area.

The reference data collection process (S12) is a process of photographing a sleeping image using a high-resolution camera for analyzing the color of the water or the contrast of the water for comparative analysis of the water temperature in the target water zone before the red tide occurs. S22), which is used for comparison with the sleep photographs. In other words, the chromaticity and brightness of the sea surface vary depending on the turbidity of the sea water and the seabed topography, and also the fine change occurs when the red tide occurs.

Here, chromaticity is a property of color irrespective of brightness, but brightness depends on the weather on the day of photographing, which is changed by the brightness. Therefore, the illuminance is measured with photographing, and the illuminance is corrected to a reference illuminance (for example, illuminance on a clear day) And for the same reason, an illuminance measurement operation for brightness is carried out in the sleep photographing process (S22) of the red tide symptom monitoring step S20 to be described later.

The tidal symptom monitoring step S20 is an ordinary tidal activity in which the automatic grid flight is performed for each unit flight area A according to the schedule set in the preparation step S10 and the water temperature measurement step S21 and the sleep surface shooting step S22 are selected .

Generally, red tide occurs at a temperature of 15 ° C or higher, and the water temperature measurement process (S21) is performed in an auto grid flight with a thermal imaging camera mounted on the drones 11, If the water temperature at a specific point is abnormally high, a measurement step S30 to be described later is performed at the point.

In the sleep photographing process S22, a high-resolution camera is mounted on the drones 11 to take a photograph of a sleeping surface, and when the sleeping photograph is transmitted to the integration control unit 43, the integrated control unit 43 divides the sleeping photograph into predetermined pixels, The chromaticity or brightness of the pixel is measured, and then a comparison is made with the reference water surface photograph taken in the reference data collection process S12. This pixel division operation is also performed in the same manner as in the sleeping image photographed in the reference data collection step S12.

Here, in the case of the brightness measurement, since the sleep photograph is corrected according to the difference between the illuminance and the reference illuminance measured together during the photographing process, the pixel segmentation operation is performed.

The measuring step S30 comprises an ultrasonic wave measuring step S31 and a sampling step S32.

The ultrasound measuring process S31 may be performed when the difference value of the chromaticity or brightness of the redeye symptom point b is equal to or greater than a predetermined reference value in the comparison of the sleeping photographing process S22, And the intensity of the backscattered wave is measured by dropping the ultrasonic probe 21 at the symptom point (b).

If the intensity of the backscattering waves measured in the ultrasound measuring process S31 is an intensity value corresponding to the red-blooming population of 150 to 170 cells / ml, the water collection process (S32) (40) to the vehicle (41).

The monitoring enhancement step S40 includes a determination step S41, a distribution investigation and reporting step S42, and a tracking step S43.

In the determining step S41, the microorganism observing the water collected in the watering step S32 is performed to determine whether the microorganism is a bloom-inducing species and the number of the population per unit volume.

Considering the characteristics of the red tide appearing simultaneously and concurrently, the distribution survey and report process (S42) is performed in the case where the number of microbes in the water collected in the discrimination process (S41) is 150-170 cells / ml Photographs are taken throughout the water area of the observation area, and a distribution map of the red tide symptom point (b) with a color deviation value equal to or greater than the reference value is made and transmitted to the red tide general headquarters.

The tracking step S43 is a step of selecting a point having the maximum color deviation among the redeye symptom points b and performing an operation similar to the ultrasound measuring step S31 of the measuring step S30 at the corresponding point, That is, whether or not the intensity of the backscattered wave is equal to or higher than the intensity value corresponding to 300 cells / ml of red tide population is performed.

In addition, when the backscattering wave corresponding to 300 cells / ml is measured, it is reported to the head of the red tide control unit, and the frequency of flight of the drones 11 is increased to strengthen the photographing operation for the target water area. When a photographed image is found, the red tide band is tracked and photographed, and transmitted to the integrated controller 43 in real time.

In order to facilitate the identification of the dynamics of the red tide signs, it is necessary to determine the dynamics of the red tide signs before the appearance of the red tide strips. In order to facilitate the identification of the reddish tide dynamics, A buoy may be dropped at a plurality of points (b).

The buoy is equipped with a marking having a discriminating power even at a long distance or is provided with a position detecting signal generating means capable of receiving a direct signal by the integrated control unit 43 or the redeye overall command unit and is detachably attachable to the mounting means of the drone 11 .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10: Flying unit
11: Drones
20: Detection unit
21: Ultrasonic probe
30: Communication unit
40: Base station unit
41: vehicle
43:

Claims (8)

delete delete A flight unit (10) for flying a target water area using a drone (11) equipped with an auto grid flight function;
A sound pickup unit for picking up a picture or an image of the water to be inspected, a sound wave detector for dropping the sound wave to the observation target water body and measuring the backscattering wave generated by the ultrasonic wave, A detection unit (20) comprising detection equipment including the detection device (10) and the detection device (20);
A communication unit (30) having a bidirectional wireless transmission / reception function; And
A vehicle 41 in which the return of the drones 11 is performed and an integrated control unit 43 incorporated in a PC provided in the vehicle 41. The integrated control unit 43 is connected to the communication unit 30 via the communication unit 30, A base station unit 40 for controlling the flight of the drones 11 and the prediction of the detection equipment, receiving and processing the observation results collected by the detection equipment to generate observation information, and performing various controls for monitoring enhancement;
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The photographing unit is composed of a thermal imaging camera for measuring the water temperature of the water to be inspected and a high-resolution camera for photographing the color of sleep color or lightness and the red tide band of the water to be inspected, and the thermal imaging camera and the high- Optionally,
The ultrasonic probe 21 includes a cable wound around a winder of the mounting means, an ultrasonic probe 21 for dropping the ultrasonic wave into the target water zone by the cable, receiving the backscattered wave through the ultrasonic wave, And a sound wave processing board which processes the backscattered waves, converts the backscattered waves into digital signals, and transmits the digital signals to the integrated control unit 43 of the base station unit 40 through the communication unit 30,
The water collector includes a plurality of containers whose lid is opened and closed by a control signal of the integrated control unit 43 of the base station unit 40. The water collector is fixed to the ultrasonic probe 21 in a state of being electrically connected to the cable,
Wherein the mounting means is provided with a buoy with detachable signal generating means detachably attached thereto.
delete delete The planning process (S11) for establishing the flight schedule of the drone (11) in the target water area and the drone (11) equipped with the high-resolution camera before the red tide are flying in the auto grid. A preparation step (S10) comprising a step (S12);
The water temperature measurement step S21 for measuring the water temperature of the target water area and the drones 11 equipped with the high resolution camera fly according to the schedule (S20) in which a sleep photographing process (S22) for selectively photographing a sleeping photograph and transmitting it to an integrated control unit (43) is selectively performed;
When a red spot symptom point b which is a temperature higher than a reference in the water temperature measuring step S21 is found or a sleep surface photographing step S12 and a sleep photographing step S22 are compared, An ultrasonic measurement step S31 of measuring the intensity of the backscattered wave by dropping the ultrasonic probe 21 at the bellows symptom point b when the symptom point b is found, When the water is measured, collects the water at the point by using a water sampler which is fixed to the ultrasonic probe 21 and the cover is opened and closed by a control signal of the integrated control unit 43 of the base station unit 40, A measurement step S30 consisting of a collection process S32 of returning to the vehicle 41 of the unit 40; And
A monitoring step (S40) including a step (S41) of determining whether the microorganism contained in water is a blooming-induced species and the number of individuals per unit volume by observing the collected water;
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The reference data collection step S12 may include a step of measuring the illuminance at the time of brightness measurement and correcting the illuminance at the reference illuminance at step S12 and the illuminance measurement operation of brightness at the sleep photographing step S22. Red Tide Forecasting and Tracking Method Using.
The method according to claim 6,
When the microbial population of the red tide inducing species is in the range of 150 to 170 cells / ml in the discrimination process (S41), a photograph is taken over the whole area of the observation target water body and the distribution of the red tide symptom point (b) And a reporting step (S42) of transmitting the generated information to the redeye general command center.
8. The method of claim 7,
When the intensity value corresponding to the intensity of the backscattering wave of 300 cells / ml per unit volume is measured by dropping the ultrasonic probe 21 at the point where the color deviation is maximum among the redeye symptom points b (11) to increase the frequency of flight of the drones (11) to strengthen the photographing work for the target water zone. If a photograph of a red tide band is found in this process, the red tide band is tracked and photographed And a tracking step (S43) of transmitting the drones in real time.

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