KR101024343B1 - Method of preventing communicable diseases by communicable diseases prevention system - Google Patents

Abstract

An infectious disease prevention method of an infectious disease prevention system according to an embodiment of the present invention includes: maintaining a route pattern database in which at least one infectious disease object transportation means and route pattern information corresponding to each of the at least one infectious disease object transportation means are recorded; Retrieving one or more infectious disease object vehicles corresponding to the route pattern information including the first region from the route pattern database when detecting an outbreak alert in a first region; Searching for a first hub through path pattern information of the at least one infectious disease object vehicle; And requesting epidemic prevention from the quarantine center corresponding to the first hub.

Infectious diseases, AI, Avian Influenza, Prevention, Prevention, Pathway

Description

How to prevent epidemics from the epidemic prevention system {METHOD OF PREVENTING COMMUNICABLE DISEASES BY COMMUNICABLE DISEASES PREVENTION SYSTEM}

The present invention relates to an infectious disease prevention method of an infectious disease prevention system, and more particularly, to establish a database in which path pattern information of an infectious disease object transportation means is recorded, and when an infectious disease occurs in a specific region, an infectious disease target associated with the specific region through the database. The present invention relates to an epidemic prevention method of an infectious disease prevention system that can effectively prevent the occurrence of an infectious disease and minimize the damage by grasping the path pattern of a vehicle.

Avian Influenza (AI) stands for bird flu. Avian influenza is a virus that occurs in poultry or wild birds such as chickens and ducks, and is an animal epidemic. Influenza viruses are generally classified into types A, B, and C. Among them, A and B are known to cause human infection, and only A type is known to cause pandemic.

On the surface of the influenza virus, there are two proteins, HA (hemagglutinin) and NA (neuraminidase) .There are 16 types of HA and 9 types of NA, so theoretically, a total of 144 types (= 16 × 9) depending on the combination of the two proteins. Influenza virus will be present. Among them, three types of HA (H1, H2, H3) and two types of NA (N1 and N2) are generally reported as a type of virus causing human influenza infection, and influenza infection of birds is mainly H5 type. Or H7 type.

Among them, the H5N1 virus is highly pathogenic, which is known to be the cause of the poultry avian influenza population known to us. Because avian influenza viruses are species-specific, they are not usually infected by people with interstitial walls.

Avian influenza spreads in the form of virus-infected birds runny nose, respiratory secretions, birds in contact with the stool again, especially feces contaminated with influenza causes infection through the oral cavity. Therefore, instruments, media, feed, cages and clothes contaminated with bird respiratory secretions or feces play an important role in spreading bird flu.

Among the types of avian influenza, H5 and H7 types are generally not infected with humans, but rarely have humans. It is believed that the main route of infection is direct contact with poultry infected with avian influenza virus or objects contaminated with feces.

H5N1 influenza, which has been prevalent in Asia since the winter of 2003, has already caused human infections in Hong Kong in 1997, killing 6 of 18 infected people, and 229 of them worldwide as of July 2006, of which 131 died. It is known.

However, to date, people infected with H5N1 influenza have been infected by close contact with poultry such as chickens and ducks. Therefore, if not in close contact with an infected bird, it is not infected. Avian influenza virus is a bird-specific virus that does not spread well to humans.

However, poultry farmers who raise poultry such as chickens and ducks infected with avian influenza or those who engage in the killing of poultry are exposed to the avian influenza virus, so they are highly at risk of avian influenza, so they need special attention. In addition, avian influenza has a considerable transmission rate between poultry. If poultry, such as chickens or ducks, is suspected of being infected with avian influenza, governmental measures to prevent the spread of infections and to minimize further damage will result in burial of infected poultry.

Therefore, there is an urgent need for preventive measures that can minimize the spread of infection and the area of infection during the outbreak of the epidemic, such as AI.

The problem to be solved of the present invention is to establish a database in which the path pattern information of the infectious disease target vehicle is recorded, and to identify the path pattern of the infectious disease target vehicle associated with the specific region through the database when an infectious disease occurs in a specific region. It is to provide an infectious disease prevention method of an infectious disease prevention system that can effectively prevent the occurrence of an infectious disease and minimize the damage thereof.

For the problem to be solved, the epidemic prevention method of the epidemic prevention system according to an embodiment of the present invention, a path in which one or more infectious disease object transport means and route pattern information corresponding to each of the one or more infectious disease object transport means is recorded Maintaining a pattern database; Retrieving one or more infectious disease object vehicles corresponding to the route pattern information including the first region from the route pattern database when detecting an outbreak alert in a first region; Searching for a first hub through path pattern information of the at least one infectious disease object vehicle; And requesting epidemic prevention from the quarantine center corresponding to the first hub.

In addition, according to one embodiment of the present invention, the route pattern information is a vehicle information corresponding to each of the at least one infectious disease object transport means, infectious disease object information, departure point information, waypoint information, destination information, driving time information, route information It includes one or more of,, and current location information.

In addition, according to an embodiment of the present invention, maintaining the route pattern database in which the at least one infectious disease object vehicle and the route pattern information corresponding to each of the at least one infectious disease object vehicle is recorded, is predetermined. Tracking the current location of the at least one infectious disease object vehicle every cycle; And recording and updating the current position information of the tracked infectious disease object vehicle in the route pattern database.

In addition, according to one embodiment of the invention, the at least one infectious disease object vehicle corresponding to the route pattern information including the first region is an infectious disease object vehicle starting from the first region and via the first region Infectious disease object transport.

In addition, the infectious disease prevention method of the infectious disease prevention system according to an embodiment of the present invention, through the searched path pattern information of the at least one infectious disease object transport means, the waypoint and destination of the searched at least one infectious disease object transport means Making; And requesting epidemic prevention to one or more quarantine centers corresponding to the retrieved waypoints and the destination.

In addition, the infectious disease prevention method of the infectious disease prevention system according to an embodiment of the present invention, when detecting an infectious disease outbreak alert in the first region, at least one corresponding to the route pattern information including the first region as destination information; Retrieving an epidemic object vehicle from the route pattern database; And sending the epidemic outbreak alert for the first region to the retrieved one or more epidemic object vehicles.

In addition, the epidemic prevention method of the infectious disease prevention system according to an embodiment of the present invention, the step of searching for one or more herbs through the path pattern database; And requesting epidemic prevention from the prevention center corresponding to each of the one or more hubs at each selected time point.

According to the epidemic prevention method of the epidemic prevention system of the present invention, by focusing on the hub area where the epidemic target vehicle is collected by identifying the path pattern of the infectious agent object transportation means, more systematic and effective prevention of the infectious disease and minimizing the damage The effect can be obtained.

The epidemic prevention method of the infectious disease prevention system according to the present invention, the path pattern of the infectious object transport means for transporting the object, such as chicken or duck, susceptible to a highly infectious disease, such as AI (Avian Influenza) It can be implemented through. The infectious disease object may be implemented as an AI object such as poultry, or may be implemented as not only an AI object but also various kinds of objects that are exposed to various infectious diseases and become objects of disease spread.

However, in the present specification, for convenience of description, the case where the infectious disease target is implemented as an AI target will be described as an example. Although limited to the AI object, it will be apparent to those skilled in the art that the infectious disease prevention method of the infectious disease prevention system according to the present invention is not limited to the AI object.

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

1 is a diagram showing the overall network configuration of the AI prevention system implemented AI prevention method according to an embodiment of the present invention.

AI prevention method according to an embodiment of the present invention, AI prevention system 110, route pattern database 111, AI object transportation means (121 to 124), hub quarantine center (131 to 133), and regional defense center 141 through 144 may be implemented.

The AI prevention system 110 may be implemented as a computing device such as a PC or a server of a person skilled in the art performing the AI prevention method according to the present invention. In addition, the AI prevention system 110 may be implemented as a quarantine management server of the corresponding defense organization.

The AI prevention system 110 may determine the current location of the one or more AI object transportation means 121 through the GPS network. Accordingly, the GPS target devices 121 to 124 may be installed respectively.

The AI prevention system 110 may be networked with the first hub quarantine center 131 to the k-th hub quarantine center 133. The first hub quarantine center (131) to k-th hub quarantine center (133) is a quarantine authority located in the hub area where the AI object transportation means (121 to 124) mainly collect the AI object or frequently via or arrive on the route It may be implemented as a server of.

In addition, the AI prevention system 110 may be networked with the first regional defense center (141) to the m-th regional defense center (144). The first regional defense center 141 to the m-th regional defense center 144 may be implemented as a server of a defense authority, respectively located in the area where the AI object is raised or collected.

The path pattern database 111 may be included in some components of the AI prevention system 110 or may be implemented in a separate configuration from the AI prevention system 110.

The route pattern database 111 records at least one Avian Influenza (AI) object vehicle and route pattern information corresponding to each of the at least one AI object vehicle. That is, a person skilled in the art of performing the AI prevention method according to the present invention grasps in advance the route pattern information on the vehicle, the ship, the aircraft, etc. registered as the AI object transportation means in advance, or in real time to the route pattern database 111. Can record

The route pattern information includes at least one of vehicle information, AI object information, departure point information, waypoint information, destination information, driving time information, route information, and current location information corresponding to each of the one or more AI object transportation means. do.

The AI prevention system 110 tracks the current position of the AI object vehicle 1 121 to the AI object vehicle n 124 every predetermined period. The AI prevention system 110 is connected to each of the AI object transportation means 1 121 to the AI object transportation means n 124 through the GPS terminal installed in each of the AI object transportation means 1 121 to the AI object transportation means n 124. You can track your current location. The AI prevention system 110 may update and record the current location information of the tracked AI object vehicle in the route pattern database.

When the AI prevention system 110 detects an AI occurrence alert in the first region, the AI prevention system 110 searches for one or more AI object transportation means corresponding to the route pattern information including the first region from the route pattern database 111. The at least one AI object vehicle corresponding to the route pattern information including the first region is a concept including both an AI object vehicle starting from the first region and an AI object vehicle passing through the first region.

The AI prevention system 110 searches for a first hub through the searched route pattern information of the one or more AI object transportation means, and provides AI protection to the first hub quarantine center 131 which is a quarantine center corresponding to the first hub. You can request

In addition, the AI prevention system 110 retrieves not only the first hub region but also the waypoints and destinations of the searched one or more AI object transportation means through the searched route pattern information of the searched one or more AI object transportation means, The AI quarantine may be requested to one or more quarantine centers corresponding to the searched waypoint and the destination.

For example, when the waypoint is the first region and the destination is the third region, the AI prevention system 110 may include the first hub quarantine center 131, the first region quarantine center 141, and the third region. The quarantine center 143 may request AI quarantine, respectively.

In addition, when the AI prevention system 110 detects an AI occurrence alarm in the first region, the AI prevention system 110 may include one or more AI object transportation means corresponding to the route pattern information including the first region as destination information. 111). The AI prevention system 110 may send the AI generation alert for the first region to the retrieved one or more AI object vehicles.

For example, when the AI object vehicle having the route pattern information including the first region as destination information is the AI object vehicle 1 121 and the AI object vehicle 3 123, the AI prevention system 110 Determines whether the AI object vehicle 1 121 and the AI object vehicle 3 123 have arrived in the first region. As a result of the determination, when the AI object transport means 1 (121) and the AI object transport means 3 (123) arrive in the first area, the AI prevention system 110 requests AI prevention of the AI in the first area protection center (141). If the AI object transporter 1 (121) and the AI object transporter 3 (123) do not arrive in the first region, the AI prevention system determines the AI object transporter 1 (121) and the AI object transporter 3 (123). The AI generation alert for the first region may be transmitted to the AI target vehicle 1 121 and the AI target vehicle 3 123 to prevent access to the first region.

In addition, the AI prevention system 110 selects one or more hub regions through the path pattern database 111, and corresponds to each of the one or more hub regions at regular intervals or around March or April, when AI is frequently occurring. By requesting the AI center for quarantine, the prevention of AI can be prevented in advance, and the preventive effect of the original blockade of AI propagation and spread to the hub area can be expected.

2 is a diagram illustrating path pattern information recorded in a path pattern database according to an embodiment of the present invention.

According to an embodiment of the present invention, one or more path pattern information may be recorded in the path pattern database 200. One or more vehicle information is recorded in the route pattern database 200, and any one of AI object information, departure information, waypoint information, destination information, driving time information, route information, and current location information corresponding to each vehicle information is recorded. One or more may be recorded respectively.

In FIG. 2, a current time is 12 o'clock on July 2, 2008, and an example in which an AI generation alarm is issued to Nonsan and Gunsan areas is described as an example.

As shown in FIG. 2, the AI object information "100 chickens" corresponding to the vehicle information "transportation means A", the origin information "nonsan", the destination information "Daejeon agricultural and fishery market", "08/7 / 2 06:00 Departure, 08/7/2 10:00 Arrival time information, such as "Honam Expressway" route information, "arrival" current location information may be recorded, respectively.

In addition, the AI object information "50 ducks", the starting point information "Gwangju", the waypoint information "Nonsan", the destination information "Seongnam Moran Market" corresponding to the transportation information "Transportation B", "08 / 7/2 09:00 Departure, 08/7/2 15:00 Operation time information, "Scheduled Arrival", "Honam Expressway-> Gyeongbu Expressway" route information, and the current location information "Cheonan Rest Area" can be recorded .

In addition, the AI object information "100 chickens, 500 ducks", the departure point information "Gunsan port", the destination information "Incheon port" corresponding to the transportation information "Transportation C", "08/7/2 07 : 00 Departure, 08/7/2 18:00 Scheduled time information "Scheduled arrival", route information "West Sea", current location information "West Sea" may be recorded respectively.

In addition, AI object information "100 ducks", "Milyang" origin information, "Pusan Livestock Market" destination information, "08/7/2 13:00 departure" corresponding to the vehicle information "Transport means D" Scheduled, 08/7/2 18:00 "Scheduled arrival time" operating time information, "Gyeongbu Expressway" route information, "Miyang" current location information may be recorded, respectively.

In addition, the AI object information "500 chickens", the starting point information "Cheongju", the waypoint information "Daejeon", the destination information "Nonsan" corresponding to the transportation information "Transportation E", "08/7 / 2 11:00 Departure, 08/7/2 14:00 Arrival time information of "Scheduled arrival", route information "Route 17", current location information "Daejeon" may be recorded.

In addition, AI object information "50 chickens", "Nonsan" origin information, "Sungnam Moran Market" destination information, "08/7/2 10:00 departure" corresponding to the transportation information "Transportation F" , 08/7/2 12:00 arrival time information of "arrival", "Gyeongbu Expressway" route information, and "Seongnam Moran Market" current location information may be recorded.

In addition, AI object information "70 ducks" corresponding to the vehicle information "transportation means G", origin information "gunsan", destination information "Daejeon Agricultural and Fishery Market", "08/7/2 09:00 departure , 08/7/2 11:00 arrival time information such as "arrival", route information "Honam Expressway", and the current location information "Daejeon Agricultural and Fishery Market" can be recorded respectively.

In addition, AI object information of "80 chickens", starting point information of "Nonsan", waypoint information of "Gimcheon", destination information of "Daegu House", and "08 /" corresponding to the vehicle information of "Transportation H" 7/2 08:00 Departure, 08/7/2 13:00 The operating time information of "scheduled arrival", the route information of "Gyeongbu Expressway" and the current location information of "Gumi" may be recorded.

In addition, AI object information of "80 chickens", source information of "Mokpo", transit information of "Nonsan", destination information of "Daejeon Agricultural and Fishery Market" corresponding to the vehicle information of "Transportation I", "08 / 7/2 06:00 Departure, 08/7/2 14:00 Arrival time information of "Scheduled arrival", route information of "Honam Expressway", current location information of "yuseong" may be recorded.

1) Herb Defense

The AI prevention system according to the present invention comprises a first approach to the Daejeon agricultural and fishery market through route pattern information of the transportation means A to the transportation number I recorded in the route pattern database 200, in particular, via waypoint information or destination information in the route pattern information. As a hub, Seongnam Moran Market can be set as the second hub.

As described above, when detecting the AI occurrence alarm for the Nonsan and Gunsan areas at the current time (12 July 2, 2008), the AI prevention system, regardless of the AI occurrence area, the set hub area, That is, the first hub Daejeon Agricultural and Marine Products Market and the second hub Seongnam Moran Market and the second hub can be requested for the prevention of AI generation, respectively.

2) AI  Prevention of transportation by origin or stop in origin area

As described above, when detecting an AI occurrence alarm for the Nonsan and Gunsan areas at the current time (12 July 2, 2008), the AI prevention system firstly has a transportation means that uses the Nonsan and Gunsan areas as a starting point or stopover. Search for. For example, the AI prevention system may search for vehicle A, vehicle B, vehicle F, vehicle H, and vehicle I having nonsan as a starting point or stopover. In addition, the AI prevention system can search for a vehicle C and a vehicle G having the Gunsan region as a starting point or waypoint.

At this time, the AI prevention system is the vehicle A is currently arrived in Daejeon Agricultural and Marine Products Market, the vehicle B is currently located in Cheonan Rest Area and is expected to arrive at Seongnam Moran Market at 15 o'clock, the vehicle F is currently Seongnam Moran Arrived at the market, the vehicle G has now arrived at the Daejeon Agricultural and Fishery Market, the vehicle H is currently located in Gumi and is expected to arrive at the Daegu dumphouse at 13:00, and the vehicle I is currently located in the Yuseong area at 14:00 You can detect that you are arriving at Daejeon Agricultural and Fishery Market.

Accordingly, the AI prevention system is a quarantine center corresponding to the Daejeon Agricultural and Marine Products Market, and performs quarantine at 12 o'clock and 14 o'clock, respectively, and is a quarantine center corresponding to Seongnam Moran Market. Each city will carry out quarantine and can request each station to carry out quarantine at 13:00 to the quarantine center corresponding to the Daegu dump. In addition, the AI prevention system detects that the transportation means C is currently located on the West Sea and is expected to arrive at Incheon port at 18 o'clock, and may request that the vehicle be quarantined at 18:00 to the quarantine center corresponding to the Incheon port.

3) AI  Alerts to vehicles transported to the destination

The AI prevention system searches a route pattern database 200 for a vehicle having the destination of the AI generation area. For example, the AI prevention system may search for a transportation means E that has a destination of Nonsan or Gunsan, which is the AI generation area. The AI prevention system may detect that the vehicle E leaves Cheongju at 11 o'clock and is currently located in Daejeon and arrives at Nonsan at 14 o'clock.

Accordingly, the AI prevention system transmits the AI generation alert to the vehicle E, for example, delivers the AI generation alert through a mobile communication terminal of the driver of the vehicle E, thereby estimating the vehicle E. It can be tricked out of entering the area. In addition, when the vehicle E inevitably attempts to enter the Nonsan area, the AI prevention system may request that the vehicle E be quarantined at 14:00 to the protection center corresponding to the Nonsan area.

4) protection against current location and all means of transportation;

As described above, the AI prevention system may request protection for only a vehicle related to the AI generation area, but may request protection for all vehicles and hubs or areas regardless of the AI generation area. For example, in the route pattern database, AI protection can be performed at the same time as the prevention centers corresponding to Nonsan, Daejeon, Gwangju, Seongnam, Gunsan, Incheon, Miryang, Busan, Cheongju, Daegu, and Mokpo areas set as starting, stopping and destination destinations. You can ask.

In addition, the AI quarantine may be requested to each quarantine center corresponding to the Cheonan region where the vehicle B is currently located, the Gumi region where the vehicle H is currently located, and the meteor region where the vehicle I is located. You may also request that AI be immediately performed on vehicle C, currently located on the West Sea.

3 is a flow chart showing the flow of the AI prevention method according to an embodiment of the present invention.

The AI prevention system according to an embodiment of the present invention maintains a route pattern database in which at least one Avian Influenza (AI) object vehicle and route pattern information corresponding to each of the at least one AI object vehicle are recorded (step 311). )).

The route pattern information includes at least one of vehicle information, AI object information, departure point information, waypoint information, destination information, driving time information, route information, and current location information corresponding to each of the one or more AI object transportation means. do.

The AI prevention system detects an AI occurrence alert in the first region (step 312).

The AI prevention system retrieves one or more AI object vehicles corresponding to the route pattern information including the first region from the route pattern database (step 313).

The AI prevention system searches for a first hub through the route pattern information of the retrieved one or more AI object vehicles (step 314). The AI prevention system requests AI prevention to the prevention center corresponding to the first hub (step 317).

Further, in step 313, the AI prevention system searches for waypoints and destinations of the searched one or more AI object vehicles through the searched route pattern information of the one or more AI object vehicles (step 315). ). The AI prevention system requests AI quarantine to one or more quarantine centers corresponding to the retrieved waypoints and the destination (step 317).

In operation 313, the AI prevention system searches for one or more AI object vehicles corresponding to the route pattern information including the first region as destination information, from the route pattern database, and retrieves the retrieved one or more AIs. The AI generation alert for the first region is sent to an object vehicle (step 316).

The AI prevention system searches for one or more hubs through the path pattern database, and requests AI prevention for the prevention center corresponding to each of the one or more hubs at a predetermined time point (step 318).

The infectious disease prevention method according to the present invention can be implemented in the form of program instructions that can be executed by various computer means and recorded in a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. Program instructions recorded on 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 media such as CD-ROMs, DVDs, and magnetic disks, such as floppy disks. Magneto-optical media, and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. The medium may be a transmission medium such as an optical or metal line, a wave guide, or the like, including a carrier wave for transmitting a signal designating a program command, a 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. The hardware device described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

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 diagram showing the overall network configuration of the AI prevention system implemented AI prevention method according to an embodiment of the present invention.

2 is a view showing path pattern information recorded in a path pattern database according to an embodiment of the present invention.

Figure 3 is a flow chart showing the flow of the AI prevention method according to an embodiment of the present invention.

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

110: AI prevention system

111: path pattern database

121 to 124: AI object vehicle

131 to 133: hub quarantine center

141 to 144: Regional Defense Centers

Claims (10)

Maintaining a route pattern database in which at least one infectious disease object vehicle on which a GPS (Global Positioning System) terminal is mounted and route pattern information corresponding to each of the at least one infectious disease object vehicle are recorded; Retrieving one or more infectious disease object vehicles corresponding to the route pattern information including the first region from the route pattern database when detecting an outbreak alert in a first region; Searching for a first hub through path pattern information of the at least one infectious disease object vehicle; Requesting epidemic prevention to the quarantine center corresponding to the first hub; Retrieving waypoints and destinations of the searched at least one infectious disease object vehicle through the searched route pattern information of the at least one infectious disease object vehicle; Requesting epidemic prevention to one or more quarantine centers corresponding to the retrieved waypoints and the destination; Searching for one or more hubs through the path pattern database; And Requesting epidemic prevention to the quarantine center corresponding to each of the one or more hubs at each selected time point Including The route pattern information includes at least one of vehicle information, epidemic object information, departure point information, waypoint information, destination information, driving time information, route information, and current location information corresponding to each of the one or more infectious disease object transportation means. Infectious disease prevention method of the infectious disease prevention server characterized in that the. delete delete delete delete delete The method of claim 1, Retrieving, from the route pattern database, one or more infectious disease object vehicles corresponding to route pattern information including the first region as destination information when detecting an outbreak alert in the first region; And Transmitting the epidemic outbreak alert for the first region to the retrieved one or more epidemic object vehicles; Infectious disease prevention method of the epidemic prevention server further comprising a. delete delete delete

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