KR100907032B1 - Apparatus and method for controlling vermin capturing apparatus - Google Patents

Abstract

Disclosed are an apparatus and method for controlling insects. The insect trap control apparatus of the present invention includes a generation unit for generating image information corresponding to an object photographed by an imaging unit, an analysis unit for analyzing the generated image information to determine whether the object is a pest, and the object Is determined to be a pest, the extraction unit extracts pest information from the image information, and a processing unit for processing the extracted pest information based on the selected operation setting information.

Reptile light, imaging, image information, pest information, operation setting information

Description

Insect control device and method {APPARATUS AND METHOD FOR CONTROLLING VERMIN CAPTURING APPARATUS}

The present invention relates to an apparatus and method for controlling insect insects.

As the economy develops, living standards are gradually improving, and pests that have been overlooked in the past are now becoming a vigilant point for everyone. However, due to industrialization or industrialization, a large amount of waste is generated, and accordingly, pests are increasing.

The pest is a concept that collectively refers to insects or animals that harm humans and livestock, and these pests eat food or textiles, causing considerable damage to life, and excretion carry harmful pathogens to the human body. In recent years, such pests are increasing due to the polluted environment, the pest removal is a big problem.

In order to remove such pests, insect repellents are widely used. By the way, the conventional insect repellents operate only on their own to capture and remove pests. Therefore, in the related art, in order to know whether a pest is trapped by a pest control worker, there is a problem in that the insect must approach the insects and check the status of the insects.

The present invention has been made to improve the prior art as described above, an object of the present invention is to determine the status of the insect reptile light even in a remote location, and to control the insect repellent light control device and method that can be set by the operation To provide.

Another object of the present invention is to provide an apparatus and a method for controlling an insect lamp, which can control an operation of an insect lamp, based on operation setting information from the outside or the inside.

It is still another object of the present invention to provide an insect pest control device and method that can extract pest information more accurately and quickly from image information of a photographed object and transmit the pest information to a central server providing a pest control service in real time. will be.

It is still another object of the present invention to provide a control device and method for controlling insects and insects that can transmit pest information to a central server in real time, so that the pest control service can be accurately provided in real time in the central server.

It is still another object of the present invention to provide an insect repellent control device and method that can set the priority of pests to be eliminated for each customer by giving priority to pest information based on the selected operation setting information.

Still another object of the present invention is to provide an insect trap control device and method that can provide a customized service by assigning a pest control priority to each customer.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object and solve the problems of the prior art, the insect lamp control apparatus according to an aspect of the present invention, the generation unit for generating image information corresponding to the object imaged by the imaging means, and the generated image An analysis unit for determining whether the object is a pest by analyzing the information, an extracting unit for extracting pest information from the image information when the object is determined to be a pest, and extracting the selection based on the selected operation setting information It includes a processing unit for processing the pest information.

According to another aspect of the present invention, there is provided a method of controlling an insect lamp, the method comprising: generating image information corresponding to an object photographed by an imaging unit, analyzing the generated image information, and determining whether the object is a pest; And if the object is determined to be a pest, extracting pest information from the image information, and processing the extracted pest information based on the selected operation setting information.

Specific details of other embodiments are included in the detailed description and the accompanying drawings.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, only the present embodiments to make the disclosure of the present invention complete, and common knowledge in the art to which the present invention pertains. It is provided to fully inform the person having the scope of the invention, which is defined only by the scope of the claims. Like reference numerals refer to like elements throughout.

According to the present invention, it is possible to check the status of the insect reptiles even in a remote location, it is possible to control by setting the operation of the insect reptiles.

According to the present invention, the operation such as the insect can be controlled based on the operation setting information from the outside or the inside.

According to the present invention, the pest information can be extracted more accurately and quickly from the image information of the photographed object, and the pest information can be transmitted in real time to the central server providing the pest control service.

According to the present invention, by transmitting the pest information to the central server in real time, it is possible to accurately provide the pest control service in real time in the central server.

According to the present invention, by prioritizing pest information based on the selected operation setting information, it is possible to set the priority of the pest to be eliminated for each customer.

According to the present invention, it is possible to provide a customized service by assigning a pest control priority to each customer.

Hereinafter, with reference to the accompanying drawings will be described in detail the insect control device and the control method according to the present invention.

1 is a block diagram illustrating an insect trap control apparatus according to an embodiment of the present invention.

Referring to FIG. 1, the apparatus for controlling the insect lamp, the generator 101, the analyzer 102, the extractor 103, the processor 104, the detector 105, the receiver 106, and an external interface unit ( 107, an input unit 108, a attracting unit 109, a display unit 110, a power transmission unit 111, and a battery manager 112.

The generation unit 101 may generate image information corresponding to the object photographed by the imaging unit. Here, the imaging means may be installed in the generation unit 101. The imaging means may image the object and generate a corresponding photon signal. The generation unit 101 may generate the image information by converting the photon signal generated by the imaging unit into an electrical signal. In this case, when the electrical signal is an analog signal, the generation unit 101 may generate the image information by converting the electrical signal, which is an analog signal, into a digital signal using an analog-to-digital converter (ADC). have.

The imaging means may include a complementary metal-oxide semiconductor (CMOS) image sensor or a charge-coupled device (CCD) image sensor. The CMOS image sensor converts electrons generated by light into voltage in each pixel and then outputs them through various CMOS switches. The CMOS image sensor adopts a switching scheme in which MOS transistors are made by the number of pixels and the outputs are sequentially detected using the MOS transistors. The CCD image sensor moves electrons generated by light to an output unit using a gate pulse as it is. Since the CCD image sensor has external noise in the middle, the number of electrons does not change even when the voltage is changed, so the noise does not affect the output signal. In addition, the CCD image sensor does not have a difference in output between pixels as a signal of all pixels passes through one output circuit.

The analyzer 102 may determine whether the object is a pest by analyzing the image information generated by the generator 101. That is, the analyzer 102 may determine whether the object is a pest by comparing the image information with the image information previously stored in the storage means. For example, the analyzing unit 102 compares the image information with the image information previously stored in the storage means, and if the comparison results in the same image information as the image information in the storage means, the imaged object is determined as a pest can do.

The extraction unit 103 may extract pest information from the image information when it is determined by the analysis unit 102 that the object is a pest. That is, when it is determined that the object is a pest, the extractor 103 may extract pest information including pest type information, pest size information, pest number information, or the like from the image information.

Next, the processor 104 will be described in more detail with reference to FIG. 2. FIG. 2 is a block diagram illustrating the processor of FIG. 1.

Referring to FIG. 2, the processing unit 104 may include a ranking unit 201, a storage unit 202, and a transmission unit 203. The processor 104 may process the extracted pest information based on the selected operation setting information.

Here, the operation setting information may include the level information and transmission period information for each pest type. In this case, the ranking unit 201 may give priority to the pest type information included in the pest information based on the level information for each pest type.

The storage unit 202 may classify and store the pest information based on the assigned priority. When the new pest information is extracted by the extracting unit 103, the storage unit 202 may update the pest information by reflecting the new pest information in the pest information.

The transmitter 203 may transmit the stored pest information based on the transmission period information. When the transmission unit 203 receives the inspection confirmation signal from the pest control worker through a predetermined button, the transmission unit 203 may transmit inspection performance information corresponding to the received inspection confirmation signal.

Alternatively, the operation setting information may include pest information level information and transmission period information. In this case, the ranking unit 201 may give priority to the pest size information included in the pest information based on the level information for each pest size.

The storage unit 202 may classify and store the pest information based on the assigned priority. When the new pest information is extracted by the extracting unit 103, the storage unit 202 may update the pest information by reflecting the new pest information in the pest information.

The transmitter 203 may transmit the stored pest information based on the transmission period information. When the transmission unit 203 receives the inspection confirmation signal from the pest control worker through a predetermined button, the transmission unit 203 may transmit inspection performance information corresponding to the received inspection confirmation signal.

Alternatively, the operation setting information may include level information for each pest type and information on the number of pests that can be transmitted. In this case, the ranking unit 201 may give priority to the pest type information included in the pest information based on the level information for each pest type.

The storage unit 202 may classify and store the pest information based on the assigned priority. When the new pest information is extracted by the extracting unit 103, the storage unit 202 may update the pest information by reflecting the new pest information in the pest information.

The transmitter 203 may transmit the stored pest information based on the transmittable pest number information. At this time, the transmission unit 203 may transmit the pest information when the pest number information included in the pest information is more than the transmittable pest number information. In addition, the transmission unit 203 may transmit the pest information using a wireless communication method. Here, the wireless communication method may include a ZigBee communication method. In addition, when the transmission unit 203 receives a check confirmation signal from a pest control worker through a predetermined button, the transmission unit 203 may transmit check performance information corresponding to the received check confirmation signal.

Alternatively, the operation setting information may include level information for each pest size and information on the number of pests that can be transmitted. In this case, the ranking unit 201 may give priority to the pest size information included in the pest information based on the level information for each pest size.

The storage unit 202 may classify and store the pest information based on the assigned priority. When the new pest information is extracted by the extracting unit 103, the storage unit 202 may update the pest information by reflecting the new pest information in the pest information.

The transmitter 203 may transmit the stored pest information based on the transmittable pest number information. At this time, the transmission unit 203 may transmit the pest information when the pest number information included in the pest information is more than the transmittable pest number information. In addition, the transmission unit 203 may transmit the pest information using a wireless communication method. Here, the wireless communication method may include a ZigBee communication method. In addition, when the transmission unit 203 receives a check confirmation signal from a pest control worker through a predetermined button, the transmission unit 203 may transmit check performance information corresponding to the received check confirmation signal.

Referring back to FIG. 1, the operation setting information may include sensing period information. In this case, the sensing unit 105 may detect the object based on the sensing period information. Accordingly, the imaging unit (not shown) may image the object detected by the sensing unit 105.

The receiver 106 may receive the operation setting information from an external device. That is, the receiver 106 may receive the operation setting information including the level information for each pest type, the level information for each pest size, the transmission period information, the number of transmittable pests, or the sensing period information from the external device. In this case, the receiver 106 may receive the operation setting information using a wireless communication method. Here, the wireless communication method may include a ZigBee communication method. The processor 104 may process the pest information based on the operation setting information received by the receiver 106 as described above.

The external interface unit 107 may load the operation setting information from an external memory such as USB. That is, the external interface unit 107 loads the operation setting information including level information for each pest type, level information for each pest size, transmission period information, transferable pest number information, or sensing period information from an external memory such as USB. can do. In this case, the external interface unit 107 may include a Serial Peripheral Interface (SPI). The processing unit 104 may process the pest information based on the operation setting information loaded by the external interface unit 107 as described above.

For reference, the SPI is an interface that allows data to be exchanged between two peripheral devices in serial communication. The SPI operates as one of a master and the other of a slave. The SPI operates in full duplex, which means that data can be delivered simultaneously in both directions. The SPI is mainly employed in a system that communicates between a CPU and peripheral devices, but it is also possible to connect two microprocessors in the form of SPI.

The input unit 108 may receive the operation setting information from the pest control worker. That is, the input unit 108 may receive the input operation setting information when the pest control worker inputs the operation setting information by using a predetermined input button. In other words, the input unit 108 may receive the operation setting information from the pest control worker in association with the input button. As described above, the operation setting information may include the level information for each pest type, the level information for each pest size, the transmission period information, the number of transmittable pests, or the sensing period information. The processing unit 104 may process the pest information based on the operation setting information received by the input unit 108.

If it is determined by the analysis unit 102 that the object is a pest, the attractant 109 may induce the pest by spraying a pest attractant, or may attract the pest by irradiating ultraviolet (UV) light. . Here, the pest attractant may include carbon dioxide (CO2), pheromone (Pheromone), and the like.

The display unit 110 may display an operating state such as an insect repellent in cooperation with the processing unit 104. That is, when the pest information is transmitted by the processing unit 104, the display unit 110 may display the fact of transmission. For example, when the pest information is transmitted by the processor 104, the display 110 may turn on a green light emitting diode (LED) to display the transmission fact.

In addition, the display unit 110 may display a battery remaining amount such as insects. That is, the display unit 110 may display the battery remaining amount such as the insect repellent in conjunction with the battery manager 112. For example, the display unit 110 may display the battery level by turning on the blue LED when the battery level is sufficient. As another example, when the battery level is low, the display unit 110 may indicate that the battery is low by turning on a red LED. In this case, the display unit 110 may notify the processor 104 that the battery is low, and may notify the external device of the battery state such as insects through the processor 104.

The power transmission unit 111 may transmit power to the strings in order to rotate the pest trappings. The battery manager 112 may monitor the battery state. The battery manager 112 may inform the display 110 of the battery status. Accordingly, the display unit 110 may display the state of the battery.

3 is a view for explaining the operation of the insect lamp control device according to an embodiment of the present invention.

Referring to FIG. 3, the central server 303 may be installed separately from the insect trap 301 and the data collector 302 at a remote location, and the insect trap 301 and the data collector 302 may be installed apart from the same place. . The central server 303 may transmit operation setting information of the insect lamp 301 to the data collector 302. The data collector 302 may receive the operation setting information of the insect lamp 301 from the central server 303, and transmit the same to the insect lamp 301.

In this case, the central server 303 and the data collector 302 may communicate bidirectionally using a communication scheme such as Code Division Multiple Access (CDMA), Ethernet, or Public Switched Telephone Network (PSTN). Also, the data collector 302 and the insect lamp 301 may communicate in two directions using a ZigBee communication scheme.

The insect repellent lamp 301 may receive the operation setting information from the data collector 302 and process the pest information based on the received operation setting information.

That is, the insect repellent lamp 301 may generate image information corresponding to the imaged object, and then analyze the generated image information to determine whether the object is a pest. As a result of the determination, when the object is a pest, the insect repellent lamp 301 may extract pest information from the image information, and process the extracted pest information based on the operation setting information.

In this case, the insect repellent lamp 301 may give priority to the pest information based on the operation setting information, classify and store the pest information based on the given priority, and transmit the same to the data collector 302. .

The data collector 302 may receive and store pest information detected by the insect lamp 301, and transmit the stored pest information to the central server 303.

The central server 303 may analyze and process the pest information received from the data collector 302, thereby monitoring the pest information in real time. In addition, the central server 303 may transmit a pest control command signal to the terminal of the pest control worker through the monitoring result. Accordingly, the pest control worker may immediately exterminate the pest in response to the pest control command signal.

4 to 8 are flowcharts illustrating a method of controlling the insect lamp according to the embodiment of the present invention.

First, referring to FIG. 4, in operation S401, the insect trap control apparatus may generate image information corresponding to an object photographed by the imaging unit. Here, the imaging means means an apparatus capable of imaging the object and generating a corresponding photon signal. The imaging means may comprise a CMOS image sensor or a CCD image sensor.

In operation S402, the insect control device may determine whether the object is a pest by analyzing the generated image information. That is, the insect trap control device may determine whether the object is a pest by comparing the image information with the image information previously stored in the storage means. For example, the insect trap control apparatus compares the image information with the image information stored in advance in the storage means, and if the same image information as the image information is present in the storage means, the captured object as a pest You can judge.

In operation S403, when it is determined that the object is a pest, the insect control device may extract pest information from the image information. That is, when it is determined that the object is a pest, the insect control device may extract pest information including pest type information, pest size information, or pest number information from the image information.

On the other hand, when it is determined that the object is a pest, the insect repellent control device may attract the pest by spraying a pest attractant, or may attract the pest by irradiating ultraviolet rays. Here, the pest attractant may include carbon dioxide (CO2), pheromone (Pheromone), and the like.

In operation S404, the insect trap control apparatus may process the extracted pest information based on the selected operation setting information. Here, the operation setting information may include level information for each pest type, level information for each pest size, transmission period information, or information on the number of pests that can be transmitted.

The insect trap control device may receive the operation setting information from an external device (eg, the data collector 302 of FIG. 3) by using a wireless communication scheme. Alternatively, the insect light control device may load the operation setting information from an external memory through an external interface means. Here, the external interface means may include a SPI (Serial Peripheral Interface). In addition, the external memory may include a USB memory.

In another embodiment, the insect control device may receive the operation setting information through a predetermined button from a pest control worker. That is, the insect repellent control device may receive the operation setting information through a button input from a pest control worker who has been trained to set the operation setting information.

When the operation setting information includes the pest type level information and the transmission period information, the insect trap control device may operate as shown in FIG. 5. That is, in operation S501, the insect control device may give priority to the pest type information included in the pest information based on the level information for each pest type.

Next, in step S502, the insect trap control device may classify and store the pest information based on the given priority. In this case, when the new pest information is extracted by the step S402 of FIG. 4, the insect trap control device may update and store the pest information by reflecting the new pest information in the pest information.

Next, in operation S503, the insect light control device may transmit the stored pest information based on the transmission period information.

Alternatively, when the operation setting information includes level information and transmission period information for each pest size, the insect trap control device may operate as shown in FIG. 6. That is, in step S601, the insect control device may give priority to the pest size information included in the pest information based on the level information for each pest size.

Next, in step S602, the insect light control device may classify and store the pest information based on the given priority. In this case, when the new pest information is extracted by the step S402 of FIG. 4, the insect trap control device may update and store the pest information by reflecting the new pest information in the pest information.

Next, in operation S603, the insect light control device may transmit the stored pest information based on the transmission period information.

Alternatively, when the operation setting information includes level information for each pest type and information on the number of pests that can be transmitted, the insect trap control device may operate as shown in FIG. 7. That is, in step S701, the insect repellent control apparatus may give priority to the pest type information included in the pest information based on the level information for each pest type.

Next, in step S702, the insect light control device may classify and store the pest information based on the given priority. In this case, when the new pest information is extracted by the step S402 of FIG. 4, the insect trap control device may update and store the pest information by reflecting the new pest information in the pest information.

Next, in step S703, the insect light control device may transmit the stored pest information based on the transmittable pest number information. That is, the insect control device may transmit the pest information when the pest number information is equal to or greater than the transmittable pest number information. At this time, the insect control device can transmit the pest information using a wireless communication method. Here, the wireless communication method may include a ZigBee communication method.

Alternatively, when the operation setting information includes level information for each pest size and transmittable pest number information, the insect trap control device may operate as shown in FIG. 8. That is, in step S801, the insect control device may give priority to the pest size information included in the pest information based on the level information for each pest size.

Next, in operation S802, the insect trap control apparatus may classify and store the pest information based on the assigned priority. In this case, when the new pest information is extracted by the step S402 of FIG. 4, the insect trap control device may update and store the pest information by reflecting the new pest information in the pest information.

Next, in step S803, the insect repellent control device may transmit the stored pest information based on the transmittable pest number information. That is, the insect control device may transmit the pest information when the pest number information is equal to or greater than the transmittable pest number information. At this time, the insect control device can transmit the pest information using a wireless communication method. Here, the wireless communication method may include a ZigBee communication method.

In this manner, the insect trap control device extracts the pest information from the image information corresponding to the imaged object (pest), and processes the extracted pest information based on the operation setting information, thereby reducing the data of FIG. The pest information may be transmitted to the collector 302. Accordingly, the central server 303 of FIG. 3 may analyze, process, and monitor the pest information received from the insects, etc. in real time, thereby providing a pest control service to customers quickly and accurately.

Meanwhile, the operation setting information may include sensing period information. In this case, the insect trap control device may detect the object based on the sensing period information, and may image the detected object. In addition, the insect control device may display the operating state of the insect insects in conjunction with the processing of the pest information.

In addition, the insect trap control device may transmit the inspection performance information corresponding to the received inspection confirmation signal when receiving a predetermined inspection confirmation signal from the pest control operator through the input button. In addition, the insect trap control device may transmit power to the string using a motor, in order to rotate the string for catching pests. In addition, the insect light control device may monitor the battery state of the insect light.

Embodiments of the invention include a computer readable medium containing program instructions for performing various computer-implemented operations. The computer readable medium may include program instructions, local data files, local data structures, or the like, alone or in combination. The media may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical recording media such as CD-ROMs, DVDs, magnetic-optical media such as floppy disks, and ROM, RAM, flash memory, and the like. Hardware devices specifically configured to store and execute the same program instructions are included. The medium may be a transmission medium such as an optical or metal wire, a waveguide, or the like for transmitting a signal specifying a program command, a local data structure, or the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like.

While specific embodiments of the present invention have been described so far, various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below, but also by the equivalents of the claims.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above-described embodiments, which can be variously modified and modified by those skilled in the art to which the present invention pertains. Modifications are possible. Accordingly, the spirit of the present invention should be understood only by the claims set forth below, and all equivalent or equivalent modifications thereof will belong to the scope of the present invention.

1 is a block diagram illustrating an insect trap control apparatus according to an embodiment of the present invention.

FIG. 2 is a block diagram illustrating the processor of FIG. 1.

3 is a view for explaining the operation of the insect lamp control device according to an embodiment of the present invention.

4 to 8 are flowcharts illustrating a method of controlling the insect lamp according to the embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

101: generator

102: analysis unit

103: extraction unit

104: processing unit

201: ranking unit

202: storage unit

203: transmission unit

Claims (41)

In the insect control device, A generating section for generating image information corresponding to the object picked up by the imaging means; An analysis unit which determines whether the object is a pest by comparing whether the generated image information is the same as the image information previously stored in the storage means; An extraction unit for extracting pest information from the image information when it is determined that the object is a pest; A ranking unit configured to give priority to the extracted pest information based on the operation setting information including level information; A storage unit for classifying and storing the pest information based on the assigned priority; And Transmission unit for transmitting the stored pest information to the central server Insect control device including a. The method of claim 1, The operation setting information includes first level information, which is set in advance for each type of pest, and transmission period information as the level information. The ranking unit, Prioritizing the pest information based on the first level information, The transmission unit, Insect control device, characterized in that for transmitting the stored pest information based on the transmission period information. The method of claim 1, The operation setting information includes second level information, which is set in advance for each size of a pest, and transmission period information as the level information. The ranking unit, Prioritizing the pest information based on the second level information; The transmission unit, Insect control device, characterized in that for transmitting the stored pest information based on the transmission period information. The method of claim 1, The operation setting information includes first level information which is set in advance for each type of pest as the level information, and transmittable pest number information. The ranking unit, Prioritizing the pest information based on the first level information, The transmission unit, Insect control device, characterized in that for transmitting the stored pest information based on the number of pests information that can be transmitted. Claim 5 was abandoned upon payment of a set-up fee. The method of claim 4, wherein The transmission unit, Insect control device, characterized in that for transmitting the pest information, if the pest number information included in the pest information is more than the transferable pest number information. The method of claim 1, The operation setting information includes second level information which is set in advance for each size of a pest as the level information, and transmittable pest number information. The ranking unit, Prioritizing the pest information based on the second level information, The transmission unit, Insect control device, characterized in that for transmitting the stored pest information based on the number of pests information that can be transmitted. Claim 7 was abandoned upon payment of a set-up fee. The method of claim 6, The transmission unit, Insect control device, characterized in that for transmitting the pest information, if the pest number information included in the pest information is more than the transferable pest number information. Claim 8 was abandoned when the registration fee was paid. The method of claim 1, A detector configured to detect the object based on sensing period information included in the operation setting information; And Imaging unit for imaging the detected object Insect control device further comprises a. Claim 9 was abandoned upon payment of a set-up fee. The method of claim 1, The transmission unit, Insect control device characterized in that for transmitting the pest information using a wireless communication method. Claim 10 was abandoned upon payment of a setup registration fee. The method of claim 1, Receiving unit for receiving the operation setting information from an external device using a wireless communication method Insect control device further comprises a. Claim 11 was abandoned upon payment of a setup registration fee. The method of claim 9 or 10, The wireless communication method, Insect control device including a ZigBee communication system. The method of claim 1, External interface unit for loading the operation setting information from an external memory Insect control device further comprises a. Claim 13 was abandoned upon payment of a registration fee. The method of claim 1, Input unit for receiving the operation setting information from the pest control worker Insect control device further comprises a. Claim 14 was abandoned when the registration fee was paid. The method of claim 1, The analysis unit, And comparing the image information with the image information stored in advance in the storage means to determine whether the object is a pest. The method of claim 1, The storage unit, When the new pest information is extracted by the extracting unit, the insect pest control device, characterized in that for updating the pest information by reflecting the new pest information to the pest information. The method of claim 1, If it is determined that the object is a pest, Attractors attracting the pests by spraying pest attractants or attracting the pests by irradiating ultraviolet rays. Insect control device further comprises a. Claim 17 was abandoned upon payment of a registration fee. The method of claim 1, Display unit displaying operation state such as insects Insect control device further comprises a. Claim 18 was abandoned upon payment of a set-up fee. The method of claim 1, When a predetermined inspection confirmation signal is received from the pest control worker, The transmission unit, Insect lamp control device characterized in that for transmitting the check performance information corresponding to the received check confirmation signal. Claim 19 was abandoned upon payment of a registration fee. The method of claim 1, Power transmission unit for transmitting power to the sticky to rotate the sticking for pest capture Insect control device further comprises a. The method of claim 1, Battery management unit to monitor battery status More, The transmission unit, Insect control device, characterized in that for transmitting the monitoring results. Generating image information corresponding to the object picked up by the imaging means; Comparing whether the generated image information is the same as the image information previously stored in the storage means, and determining whether the object is a pest; If it is determined that the object is a pest, extracting pest information from the image information; And Prioritizing the extracted pest information based on operation setting information including level information; Classifying and storing the pest information based on the assigned priority; And Transmitting the stored pest information to a central server. Insect control method including a. The method of claim 21, The operation setting information includes first level information, which is set in advance for each type of pest, and transmission period information as the level information. Prioritizing the extracted pest information, Prioritizing the pest information based on the first level information Including, The transmitting the stored pest information to the central server, Transmitting the stored pest information based on the transmission period information. Insect control method including a. The method of claim 21, The operation setting information includes second level information, which is set in advance for each size of a pest, and transmission period information as the level information. Prioritizing the extracted pest information, Prioritizing the pest information based on the second level information Including, The transmitting the stored pest information to the central server, Transmitting the stored pest information based on the transmission period information. Insect control method including a. The method of claim 21, The operation setting information includes first level information which is set in advance for each type of pest as the level information, and transmittable pest number information. Prioritizing the extracted pest information, Prioritizing the pest information based on the first level information Including, The transmitting the stored pest information to the central server, Transmitting the stored pest information based on the transmittable pest number information. Insect control method including a. Claim 25 was abandoned upon payment of a registration fee. The method of claim 24, The step of transmitting the pest information based on the transmittable pest number information, Transmitting the pest information when the pest number information included in the pest information is equal to or greater than the transmittable pest number information. Insect control method including a. The method of claim 21, The operation setting information includes second level information which is set in advance for each size of a pest as the level information, and transmittable pest number information. Prioritizing the extracted pest information, Prioritizing the pest information based on the second level information Including, The transmitting the stored pest information to the central server, Transmitting the stored pest information based on the transmittable pest number information. Insect control method including a. Claim 27 was abandoned upon payment of a registration fee. The method of claim 26, The step of transmitting the pest information based on the transmittable pest number information, Transmitting the pest information when the pest number information included in the pest information is equal to or greater than the transmittable pest number information. Insect control method including a. Claim 28 was abandoned upon payment of a registration fee. The method of claim 21, Detecting the object based on sensing period information included in the operation setting information; And Imaging the detected object Insect control method further comprises a. Claim 29 was abandoned upon payment of a set-up fee. The method of claim 21, The transmitting the stored pest information to the central server, Transmitting the pest information using a wireless communication method; Insect control method including a. Claim 30 was abandoned upon payment of a registration fee. The method of claim 21, Receiving the operation setting information from an external device using a wireless communication method Insect control method including a. Claim 31 was abandoned upon payment of a registration fee. The method of claim 29 or 30, The wireless communication method, Insect control method including a ZigBee communication method. Claim 32 was abandoned upon payment of a registration fee. The method of claim 21, Loading the operation setting information from an external memory via an external interface means Insect control method further comprises a. Claim 33 was abandoned upon payment of a registration fee. The method of claim 21, Receiving the operation setting information from a pest control worker; Insect control method further comprises a. delete The method of claim 21, If new pest information is extracted, Updating the pest information by reflecting the new pest information in the pest information; Insect control method further comprises a. Claim 36 was abandoned upon payment of a registration fee. The method of claim 21, If it is determined that the object is a pest, Attracting the pest by spraying a pest attractant; or Attracting the pests by irradiating ultraviolet rays Insect control method further comprises a. Claim 37 was abandoned upon payment of a registration fee. The method of claim 21, Steps to display the operating status such as insects Insect control method further comprises a. Claim 38 was abandoned upon payment of a registration fee. The method of claim 21, When receiving a check signal from a pest control worker, Transmitting inspection performance information corresponding to the received inspection confirmation signal; Insect control method further comprises a. Claim 39 was abandoned upon payment of a registration fee. Transmitting power to the string to rotate the pest trapping string Insect control method further comprises a. Claim 40 was abandoned upon payment of a registration fee. The method of claim 21, Monitoring battery status; And Transmitting the monitoring result Insect control method further comprises a. Claim 41 was abandoned upon payment of a set-up fee. A computer-readable recording medium having recorded thereon a program for performing the method of any one of claims 21 to 30, 32, 33, and 35 to 40.

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