KR102179853B1 - System and method for monitoring transmission disease by microbe in air facility - Google Patents

Abstract

The present invention discloses a disease propagation monitoring system. More specifically, provided are a disease propagation monitoring system by microorganisms in an air conditioning facility for collecting and analyzing microorganisms from air conditioning facilities installed in each region to identify species of microorganisms appearing in the corresponding region, and monitoring the possibility of disease occurrence for each region, and a method thereof. According to an embodiment of the present invention, species identification is performed by analyzing samples of microorganisms collected through sensors, filters, etc. in an air conditioning facility installed in each region, and a report in accordance with microorganisms that appear in each region is generated, so as to be used for health, response to livestock diseases, disease prevention, quarantine, and the like.

Description

Disease transmission monitoring system and method by microorganisms in air conditioning facilities {SYSTEM AND METHOD FOR MONITORING TRANSMISSION DISEASE BY MICROBE IN AIR FACILITY}

The present invention relates to a disease propagation monitoring system, in particular, an air-conditioning facility that collects and analyzes microorganisms from air conditioning facilities installed in each region to identify microorganisms that appear in the region, and monitors the possibility of disease occurrence in each region according to the type of microorganism It relates to a system and method for monitoring disease transmission by microorganisms within.

Currently, for infectious pathogens such as viruses that cause colds, bacteria, and fungi in and outside the human body that cause infection, it is possible to determine the presence and type of infectious pathogens using cell-specific molecular markers or through genetic testing. There are various methods.

For example, it can be said that many infectious diseases or climate-related information such as swine fever, bird flu, human flu, and fine dust from China can be accurately identified from genetic information. In addition, there are various technologies that can capture the cell level through microfluidic control, and in recent years, as it has evolved to enable analysis using single molecules through a genome interpreter having a small size comparable to that of a portable USB device. , It is being commercialized so that it can be applied to any external space or device.

Therefore, using a filter for purification provided in air conditioning facilities such as ventilation fans, air purifiers and air conditioners installed in buildings and automobiles, or directly collecting microorganisms such as viruses, bacteria and fungi using a collector with a cellular molecular marker, or a small genome Microorganisms are immediately collected and species identified using an electronic device connected to the decoder, through which the path of microbial-mediated infection is tracked and monitored, and each subject such as health authorities, individuals, hospitals and companies Therefore, it is judged that it is possible to actively cope with predictable disease transmission.

Unexamined Patent Publication No. 10-2018-0133064 (Publication date: 2018.12.13.)

The present invention provides a technical means that can cause diseases such as viruses, bacteria and fungi, or that can be used for fine dust and climate monitoring using a currently known genome decoder, air purifier, filter, and collection means. Transmit data wirelessly or wired from the means, quickly analyze the decoded information, transmit and collect the analyzed data, and identify the species by performing a sequence comparison search, etc., referring to the database for the collected information A task is to provide a system for storing, tracking, and reporting the movement and spread of microorganisms in real time.

In order to solve the above-described problem, the system for monitoring disease propagation by microorganisms in an air conditioning facility according to a preferred embodiment of the present invention is connected to a genome reader that decodes a molecular library for microorganisms collected from air conditioning facilities installed in each region. A plurality of local terminals receiving decryption results and a control server connected to a plurality of local terminals through an information and communication network to collect the decryption results and monitor the appearance, movement or spread of microorganisms in each area based on the species identification result. Can include.

The local terminal includes a device connection unit that is connected to the genome decoder by wire or wirelessly, a data storage temporarily storing the decoding result by the genome decoder, a communication unit connected to the control server through an information communication network to perform data communication, and the It may include a decoding result transmitting and receiving unit for receiving the decoding result for the microorganisms present in the air conditioning facility in the region from the genome decoder and providing the received decoding result to the control server.

The local terminal may further include a notification unit for outputting a notification upon receiving a warning signal regarding the appearance of pathogenic microorganisms by the control server.

The control server includes a data collection unit that collects the decryption results from a plurality of local terminals in each area through an information and communication network, and a species that identifies the species of microorganisms present in the air conditioning facility by analyzing the decryption results and determines the number of individuals. A microbial tracking unit that tracks the initial discovery point, movement and spread of microorganisms in each region, centering on the government and air-conditioning facilities where the species-identified microorganisms exist, and a database that stores microbial information analyzed for each region by region It may include.

The control server may further include a report generator that generates a report in a form capable of displaying information on a tracked microorganism on a dedicated application or a web page, and distributes it online through the information communication network.

The report generation unit compares the types of microorganisms present in all regions of the world and the types of microorganisms that appear in the survey target region to generate statistical information on climate change, movement and spread of microorganisms according to each region, and the report Can be reflected in.

The control server may further include a prediction unit that compares the report with information on previous microorganisms accumulated in the database and predicts a later appearance region according to the topographic characteristics of each region.

The control server may further include a warning generator that determines whether or not the microorganisms appearing in each region are pathogenic, and in case of pathogenicity, issues a disease occurrence warning for the region.

In order to solve the above-described problem, a method for monitoring disease transmission by microorganisms in an air conditioning facility according to another embodiment of the present invention includes the steps of deciphering a molecular library of microorganisms collected from an air conditioning facility installed in each region with a genome reader. , Transmitting the decoding result to the local terminal connected to the genome decoder, the local terminal transmitting the decoding result for the corresponding region to the control server, the control server collecting the decoding result from the local terminal of each region and And identifying microorganism species through analysis of decryption results, tracking microorganisms that have appeared in each region by the control server, and displaying information on microorganisms tracked by the control server on a dedicated application or web page It may include generating and distributing the report in a possible form online.

The step of generating and distributing a report in a form that can be displayed on a dedicated application or web page by the control server on the tracked microorganisms includes the types of microorganisms occurring in all regions of the world and the microorganisms appearing in the target region. Comparing the types, generating statistical information on climate change, movement and spread of microorganisms according to each region, and reflecting in the report.

After the step of tracking the microorganisms that have appeared in each region by the control server, the step of comparing the information on the previous microorganisms accumulated in the report and the database, and predicting which regions will appear in each region according to the geographic characteristics of each region. It may contain more.

After the step of tracking the microorganisms that have appeared in each region by the control server, the step of determining whether the microorganisms appearing in each region are pathogenic, and in the case of pathogenicity, issuing a disease outbreak warning for the region may be further included.

According to an embodiment of the present invention, species identification is performed by analyzing samples of microorganisms collected through sensors, filters, etc. in air conditioning facilities installed in each region, and by generating a report according to microorganisms appearing in each region, health and livestock It has an effect that can be used for disease response, disease prevention, and quarantine.

1A is a view showing an example of an air conditioning facility to which a disease propagation monitoring system according to an embodiment of the present invention is applied, and FIG. 1B is an overall structure of a disease propagation monitoring system by microorganisms in an air conditioning facility according to an embodiment of the present invention It is a view showing.
2 is a diagram showing the structure of a local terminal of a system for monitoring disease propagation by microorganisms in an air conditioning facility according to an embodiment of the present invention.
3 is a diagram showing the structure of a control server of a system for monitoring disease propagation by microorganisms in an air conditioning facility according to an embodiment of the present invention.
4 is a view showing a method for monitoring disease propagation by microorganisms in an air conditioning facility according to an embodiment of the present invention.

When a part of the specification says that a certain component is "equipped" or "included", it means that other components may be further included instead of excluding other components unless otherwise stated. In addition, terms such as "...unit", "...server" and "...system" described in the specification refer to units that process one or more functions or operations. It means, and this may be implemented in hardware, software, or a combination of hardware and software.

In addition, in the present specification, the term “an embodiment” means serving as an illustration, example, or illustration, but the subject of the invention is not limited by such an example. In addition, "comprising", "having", "having" and other similar terms are used, but when used in the claims, "included" as an open transition word that does not exclude any additional or other elements. It may be used generically in a manner similar to the term "comprising".

The various techniques described herein may be implemented with hardware or software, or, where appropriate, with a combination of both. As used herein, terms such as "...unit", "...server" and "...system" are likewise computer-related entities, i.e. hardware , It can be treated as a combination of hardware and software, software or equivalent to software at the time of execution. In addition, each function executed in the program of the present invention may be configured in a module unit, and may be recorded in one physical memory, or distributed between two or more memories and a recording medium.

In the following description, the term "disease transmission monitoring system by microorganisms in air conditioning facilities" may be abbreviated as "disease transmission monitoring system" or "system" for convenience of description.

Hereinafter, a system and method for monitoring disease transmission by microorganisms in an air conditioning facility according to an embodiment of the present invention will be described in detail with reference to the drawings.

1A is a view showing an example of an air conditioning facility to which a disease propagation monitoring system according to an embodiment of the present invention is applied, and FIG. 1B is an overall structure of a disease propagation monitoring system by microorganisms in an air conditioning facility according to an embodiment of the present invention It is a view showing.

First, referring to Figure 1a, the disease propagation monitoring system according to an embodiment of the present invention, air purifiers, ventilators, etc. used in homes, barns, restaurants, cafes, companies, hospitals, farms, factories and automobiles located in each region. And an air conditioning facility (1) such as an air conditioner, by installing a filter or a dedicated microorganism collecting means to collect microorganisms therefrom, and performing species identification on the collected microorganisms to determine and predict the risk of disease spread based on microorganisms. do.

The air conditioning facility (1) generally serves to introduce fresh air from the outside into the room for air purification, etc., or to discharge contaminated air from the room to the outside, and a fan (2) for forming such a flow of air. And, it may include a filter (5) for filtering the air introduced or discharged.

According to an embodiment of the present invention, a large amount of microorganisms are collected from the filter 5 installed for air purification from the air conditioning facility 1 having the above structure, or a dedicated microorganism collecting means 7 is separately installed to prevent the surrounding microorganisms. Can be collected.

Microorganisms collected in this manner can be immediately decoded with genetic information through the genome reader 100 illustrated in FIG. 1B. Referring to Figure 1b, the disease propagation monitoring system according to an embodiment of the present invention, a plurality of local terminals for receiving the decoding result connected to a genome decoder that decodes the molecular library for microorganisms collected from the air conditioning facilities installed in each region. It includes a control server 300 that is connected to a plurality of regional terminals 200 through an information communication network and collects decryption results, and monitors the appearance, movement, or spread of microorganisms in each region based on the species identification result. can do.

The genome interpreter 100 is a small electronic device developed so that the activity of a microorganism that is difficult to be found with the naked eye can be easily found through a portable observation means. Samples of microorganisms collected from each air-conditioning facility are molecularly converted into a molecular library, and the genome interpreter 100 receives and decodes the molecular library.

Here, the genome decoder 100 may be connected to the local terminal 200 through a wired or wireless method such as USB or Bluetooth, and may transmit the decoding result of the collected sample to the local terminal 200.

The local terminal 200 analyzes a sample of microorganisms for air conditioning facilities installed in each region and provides it to the control server 300, known as stationary PCs, notebook computers, tablet PCs, and personal digital assistants (PDAs). And various types of computing devices such as a smart phone, and the sample decoding result transmitted from the genome decoder 100 according to the user's manipulation may be provided to the control server 300 through an information communication network.

In the drawing, the genome decoder 100 and the local terminal 200 are implemented as separate devices and are connected to each other, but are not limited thereto, and the local terminal 200 in the genome decoder 100 according to the intention of the designer. It may be implemented in a form in which the function is mounted or the function of the genome decoder 100 is mounted in the local terminal 200.

Such local terminals 200 include PCS (Personal Communication System), GSM (Global System for Mobile communications), PDC (Personal Digital Cellular), PHS (Personal Handyphone System), PDA (Personal Digital Assistant), IMT (International Mobile Telecommunication). -2000, CDMA (Code Division Multiple Access)-2000, W-CDMA (W-Code Division Multiple Access), Wibro (Wireless Broadband Internet) terminal, smartphone, smartpad, tablet PC ), and other handheld-based wireless communication devices, and computing devices such as stationary PCs and notebook computers may be used.

The control server 300 collects decryption results for microorganisms of air conditioning facilities installed in each region from the request of a plurality of regional terminals 200 located in each region through an information and communication network and performs species identification to You can specify the species of microorganisms that have appeared in

In addition, the control server 300 may predict the risk of disease occurrence in a corresponding region and climate or environmental changes from the past to the present according to the species of microorganisms, and may distribute this on-line in the form of a report.

The above-described report may be converted and distributed in a form that can be displayed through various media such as a dedicated application or a web page. According to this function, it is possible to expect a public benefit effect of providing a report on the risk of disease occurrence, etc., estimated based on microorganisms appearing in each region through the system of the present invention as useful information to the public.

In addition, when the microorganisms that have appeared are pathogenic, the control server 300 may issue a warning of disease occurrence for a region in which the microorganisms have appeared, and transmit a warning signal to the terminal 200 in the corresponding region.

In addition, the control server 300 can compare and analyze the movement and spread of microorganisms by comparing the type and discovery area of microorganisms that appear in each area accumulated in the database with the type and discovery area of the current microorganisms. Alternatively, climate change can be analyzed according to characteristics related to reproductive conditions.

This control server 300 is equipped with a high-performance microprocessor, high-speed and large-capacity memory and storage so that a high-performance microprocessor, high-speed and large-capacity memory and storage can be quickly responded without delays and errors in performing data collection and analysis from a number of local terminals 200. A server computer can be used.

According to the structure described above, the system for monitoring disease propagation by microorganisms in an air-conditioning facility according to an embodiment of the present invention identifies the appearance of microorganisms in each region through the identification of the species of microorganisms generated in the air conditioning facilities installed in the region, and It can predict and warn the risk of disease occurrence according to the association of

Hereinafter, a local terminal of a system for monitoring disease propagation by microorganisms in an air conditioning facility according to an embodiment of the present invention will be described in detail with reference to the drawings.

2 is a diagram showing the structure of a local terminal of a system for monitoring disease propagation by microorganisms in an air conditioning facility according to an embodiment of the present invention. In the following description, each of the components constituting the local terminal 200 may be made of a computer program, executed by a known microprocessor, recorded on a recording medium capable of reading and writing, and mounted on the local terminal 200. It can be implemented in a form.

Referring to FIG. 2, a local terminal 200 according to an embodiment of the present invention includes a device connection unit 210 that is connected to a genome decoder by wire or wireless, and a data storage 220 that temporarily stores a result of decoding by the genome decoder. , Communication unit 240, which is connected to the control server through the information and communication network to perform data communication, receives the decoding result for microorganisms existing in the air conditioning facility in the region from the genome decoder and provides the decoding result to the control server When a warning signal for the appearance of pathogenic microorganisms is received by the result transmission/reception unit 250 and the control server, a notification unit 260 for outputting a notification may be included.

The device connection unit 210 may be connected to a genome decoder in a wired or wireless manner to receive a result of decoding a sample. The device connection unit 210 may be connected to the genome decoder through various communication methods such as a USB protocol or a Bluetooth protocol.

The data storage 220 may temporarily store the decoding result transmitted from the genome decoder to transmit to the control server.

The communication unit 240 may be connected to a remote control server through an information communication network to perform data communication. In addition, the communication unit 240 may receive the warning signal in real time when a warning according to the occurrence of pathogenic microorganisms is issued from the control server.

The decryption result transmission/reception unit 250 stores the decryption result received from the genome interpreter in the data storage 220 and transmits it to a control server connected through an information communication network for each region to request microbial analysis.

In addition, according to an embodiment of the present invention, if it is determined that pathogenic microorganisms have appeared in the corresponding region according to the result of the genetic analysis of the control server, a warning may be issued as the likelihood of a related disease outbreak is high. The notification unit 260 of the local terminal 200 corresponding to, may receive a warning signal from the control server, and display the content on the screen of the local terminal 200 or output a notification sound.

Hereinafter, a control server of a system for monitoring disease propagation by microorganisms in an air conditioning facility according to an embodiment of the present invention will be described in detail with reference to the drawings.

3 is a diagram showing the structure of a control server of a system for monitoring disease propagation by microorganisms in an air conditioning facility according to an embodiment of the present invention.

3, the control server 300 according to an embodiment of the present invention is a data collection unit 310 for collecting decryption results from a plurality of local terminals 200 in each area through an information communication network, analyzing the decryption result In order to identify the species of microorganisms present in the air-conditioning facility, and to determine the number of species, the species identification government (320), centering on the air-conditioning facilities where the species-identified microorganisms exist, trace the discovery point, movement and spread of microorganisms in each area. A microbial tracking unit 330 to perform, a database 335 that stores microbial information analyzed for each region by region, and generates a report in a form capable of displaying information on the traced microorganism on a dedicated application or web page, and information Prediction to predict in which region will appear in accordance with the geographic characteristics of each region after comparing information on the previous microorganisms accumulated in the report generation unit 340, the report and the database 335 distributed online through the communication network It may include the unit 350 and a warning generating unit 360 that determines whether the microorganisms appearing in each region are pathogenic, and in the case of pathogenicity, issues a disease occurrence warning for the region.

The data collection unit 310 is a sample of microorganisms collected from a plurality of local terminals 200 located in remote locations through filters of air conditioning facilities installed in one or more homes, livestock houses, restaurants, companies, factories, etc. in each area or through a separate collection means. It is possible to receive the result of gene decoding for

The species identification unit 320 may perform species identification of microorganisms appearing in each region through comparison between the microbial detoxification result transmitted from the local terminal 200 in each region and the microbial data stored in the database 335. . These microbial species identification results can be used to predict the likelihood of an infectious disease occurring in a corresponding region according to the types of microorganisms currently present in each region.

The microbial tracking unit 330 may track an initial discovery point, appearance, spread, and movement of microorganisms in each region. The microbial species identification can be performed at a certain period, and if the same microbe appears in an adjacent area from the initial discovery point, it can be determined that the microbe is spreading toward the corresponding area, and the microbial tracking unit 330 continuously And it is possible to track the path of movement by confirming the presence of microorganisms in the adjacent area.

These microbial tracking results can cause diseases such as viruses, bacteria and fungi, or can be used for fine dust and climate monitoring.

The database 335 may store a location on a map where an air conditioning facility from which a microbial sample is collected, a decoding result transmitted from each local terminal 200, and gene information about it, for each region. Gene information stored in the database 335 may be a result of species identification of microorganisms currently appearing in each region, and may be periodically updated.

In addition, the database 335 may store various set values for operating and managing the control server 300.

The report generation unit 340 may generate a report on microorganisms appearing and moving in each region accumulated for a certain period of time. In the present invention, microorganisms are used as a measure to determine the current hygiene, environment, and climate of each region, and the report generation unit 340 includes not only the types of microorganisms that have appeared, but also the presence of pathogenicity and the current microorganisms in each region. The distribution of can be marked on a map and reflected in the report.

In addition, the report generation unit 340 may convert the information accumulated in the control server 300 into a report form and distribute it online.

In particular, the report generation unit 340 compares the types of microorganisms occurring in all regions of the world and the types of microorganisms appearing in the subject region to be investigated, and changes in climate according to each region, movement and diffusion of microorganisms, and a close relationship with the microorganisms. It can generate statistical information about animals and plants that have a problem, reflect it in a report, and distribute it online.

The prediction unit 350 may predict to which region the microorganisms appearing in each region until the current point in time will move to the next region. The prediction unit 350 compares the distribution of past microorganisms in each region accumulated and stored in the database 335 with the distribution of the present microorganisms, and checks the migration path in which region each microorganism first appeared and then moved to which region. , According to the direction of movement, the area of microbial movement after the current point in time can be predicted.

The warning generation unit 360 may check whether pathogenicity is based on the genetic information of the currently appearing microorganism, and if it is a pathogenic microorganism, it may determine that the risk of disease occurrence in the region is high, and issue a warning to generate a warning signal. It can be generated and transmitted to the corresponding local terminal 200. This is to ensure that precautions can be taken before the outbreak of disease in the region.

Hereinafter, a method for monitoring disease propagation by microorganisms in an air conditioning facility according to an embodiment of the present invention will be described in detail with reference to the drawings.

4 is a view showing a method for monitoring disease propagation by microorganisms in an air conditioning facility according to an embodiment of the present invention.

Referring to FIG. 4, in the method for monitoring disease transmission by microorganisms in an air conditioning facility according to an embodiment of the present invention, first, a sample of microorganisms collected from a filter or collection means installed in an air conditioning facility in each region is decoded by a genome reader ( S100), the decoding result is transmitted to the connected local terminal 200 (S110).

Next, the local terminal 200 transmits the received decryption result to the control server 300 connected by wire or wirelessly (S130). Here, a plurality of local terminals 200 may be disposed in each region to monitor microorganisms in air conditioning facilities located in each region of the country, and the latest decoding results may be provided to the control server 300 according to a predetermined period. .

The control server 300 analyzes the decoding result received from each local terminal 200 and performs species identification to determine the type of microorganism (S130). Subsequently, the control server 300 refers to the past data and tracks to which path the microorganisms that have been identified species are spreading and moving for each region (S140).

Next, the control server 300 may generate and distribute a report on the appearance and spread of microorganisms in each region (S150). In addition, the control server 300 may predict whether or not the microorganisms will appear in a specific region afterwards based on the movement path of the microorganisms appearing in each region from the past to the present (S160).

Thereafter, the control server 300 determines whether or not the identified microorganism is pathogenic according to the species identification (S170), and if it is pathogenic, issues a warning to check the area where the microorganism has appeared and the local terminal 200, and send a warning signal. It is transmitted to the corresponding local terminal 200 (S175).

In addition, the control server 300 generates statistical information on the climate of each region, climate change, and movement and spread of microorganisms based on the accumulated gene information (S180). This statistical information can be additionally reflected in reports distributed by the system online.

Although many items are specifically described in the above description, this should be construed as an example of a preferred embodiment rather than limiting the scope of the invention. Therefore, the invention should not be determined by the described embodiments, but by the claims and equivalents to the claims.

1: air conditioning facility 2: fan
5: filter 7: collection means
100: genome interpreter 200: local terminal
210: device connection 220: data storage
240: communication unit 250: decoding result transmission and reception unit
260: notification unit 300: control server
310: data collection unit 320: subordinate government
330: microbial tracking unit 335: database
340: report generation unit 350: prediction unit
360: warning generator

Claims (12)

A plurality of local terminals connected to a genome decoder that decodes a molecular library for microorganisms collected from air conditioning facilities installed in each region to receive a decoding result; And
It is connected to a plurality of local terminals through an information and communication network to collect the decryption results, monitor the appearance, movement, or spread of microorganisms in each region based on the species identification results, and the types and targets of microorganisms present in all regions of the world A control server that compares the types of microorganisms that have appeared in the region, generates statistical information on climate change, movement and spread of microorganisms in each region, and distributes them online.
Disease propagation monitoring system by microorganisms in the air conditioning facility comprising a. The method of claim 1,
The local terminal,
A device connection unit connected to the genome decoder by wire or wirelessly;
A data storage temporarily storing a result of decoding by the genome reader;
A communication unit connected to the control server through an information communication network to perform data communication; And
Decryption result transceiving unit for receiving the decryption result for microorganisms existing in the air conditioning facility in the region from the genome decoder and providing the decryption result to the control server
Disease propagation monitoring system by microorganisms in the air conditioning facility comprising a. The method of claim 2,
The local terminal,
A notification unit that outputs a notification when a warning signal for the appearance of pathogenic microorganisms is received by the control server
Disease propagation monitoring system by microorganisms in the air conditioning facility further comprising a. The method of claim 1,
The control server,
A data collection unit collecting the decryption results from a plurality of local terminals in each area through an information communication network;
A species identification unit that analyzes the detoxification result to identify the species of microorganisms present in the air conditioning facility and determines the number of organisms;
Microbial tracking unit for tracking the initial discovery point, movement and spread of microorganisms in each region, centering on the air conditioning facilities where the species identified microorganisms exist; And
Database that stores microbial information analyzed for each region by region
Disease propagation monitoring system by microorganisms in an air conditioning facility comprising a. The method of claim 4,
The control server,
A report generation unit that generates a report in a form that can display information on the tracked microorganism on a dedicated application or web page, and distributes it online through the information and communication network.
Disease propagation monitoring system by microorganisms in the air conditioning facility further comprising a. delete The method of claim 5,
The control server,
A prediction unit that compares the report with information on previous microorganisms accumulated in the database and predicts a later appearance area according to the topographic characteristics of each area
Disease propagation monitoring system by microorganisms in the air conditioning facility further comprising a. The method of claim 5,
The control server,
A warning generation unit that determines whether microorganisms appearing in each area are pathogenic and, if it is pathogenic, issues a disease outbreak warning for that area
Disease propagation monitoring system by microorganisms in the air conditioning facility further comprising a. Decoding a molecular library of microorganisms collected from an air conditioning facility installed in each region by a genome reader;
Transmitting a decoding result to a local terminal to which the genome decoder is connected;
Transmitting, by the local terminal, a decoding result for a corresponding area to a control server;
Collecting, by the control server, decoding results from local terminals in each region, classifying them by region, and performing microbial species identification through analysis of the decoding results;
Tracking, by the control server, microorganisms appearing in each region; And
The control server distributes information on the tracked microorganisms online in a form that can be displayed on a dedicated application or web page, but by comparing the types of microorganisms occurring in all regions of the world with the types of microorganisms appearing in the target area, each A method for monitoring disease transmission by microorganisms in an air conditioning facility, comprising the step of generating and distributing statistical information on climate change according to regions, movement and spread of microorganisms. delete The method of claim 9,
After the step of the control server tracking microorganisms that have appeared in each region,
Comparing the report reflecting the statistical information with information on the previous microorganisms accumulated in the database, and predicting which area will appear in each area according to the topographic characteristics of each area.
A method for monitoring disease transmission by microorganisms in an air conditioning facility further comprising a. The method of claim 9,
After the step of the control server tracking microorganisms that have appeared in each region,
The step of judging whether the microorganisms appearing in each region are pathogenic, and in the case of pathogenicity, issuing a disease outbreak warning for the region
A method for monitoring disease transmission by microorganisms in an air conditioning facility further comprising a.

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