KR102256071B1 - System for virus exposure quantification - Google Patents

Abstract

Provided is a virus exposure quantification system which can increase user convenience. According to an embodiment of the present invention, the virus exposure quantification system comprises: a personal mobile phone terminal, when a virus is detected in the air, outputting a warning alarm, transmitting virus detection location information to a virus management server, and receiving and displaying a virus exposure area and virus confirmed person movement route as a virus management server; a virus management server receiving a virus detection location from each personal mobile phone terminal and providing the virus exposure area and virus confirmed person movement route to each personal mobile phone terminal; and a mobile communication network providing wired or wireless communication between the personal mobile phone terminal and the virus management server.

Description

System for virus exposure quantification

The present invention relates to a virus exposure quantification system, which provides information by quantifying the exposure of viruses such as corona, MERS, SARS, and the like.

MERS coronavirus (Severe Acute Respiratory Syndrome (SARS), which occurred in 2003 due to an infection caused by a new type of beta coronavirus that occurred intensively in the Middle East, but the mortality rate is around 30%, along with high fever and chest pain after an incubation period of 7-14 days. It causes severe respiratory symptoms such as coughing, shortness of breath, pneumonia, etc.), and a variety of viral pathogens for which preventive or therapeutic drugs have not been developed are often outbreaks, which is becoming a social anxiety factor. The 2009 outbreak in the U.S. is a virus that causes a form of respiratory disease similar to MERS, with more than 18,000 deaths worldwide.

In addition, in recent years, the number of infected and fatalities has been increasing worldwide due to the coronavirus (Covid 19).

Currently, the central quarantine countermeasures countermeasures against coronavirus uses a method of blocking and disinfecting the face-to-face at a specific location by identifying the number of infected patients (results) by specific region.

However, since simply maintaining cleanliness like this does not escape the risk of viruses, more efficient countermeasures are needed.

Korean Patent Publication No. 10-2019-0000074

An object of the present invention is to detect a virus to help to selectively promote quarantine measures after the location and the person exposed to the virus are automatically registered and accumulated.

An embodiment of the present invention is a personal mobile phone terminal that outputs a warning alarm when a virus is detected in the air, transmits the virus detection location information to the virus management server, and receives and displays the virus exposure area and the path of the virus confirmed as a virus management server. ; A virus management server receiving a virus detection location from each personal mobile phone terminal and providing a virus exposure area and a moving path of a virus confirmed person to each personal mobile phone terminal; It may include; a mobile communication network that provides wired communication or wireless communication between the personal mobile phone terminal and the virus management server.

The personal mobile phone terminal includes: a wireless communication unit for performing mobile communication with a virus management server through the mobile communication network; A location grasp unit to determine a location; A virus detection unit that collects surrounding air and detects whether a virus set as a dangerous group exists in the collected air; A warning alarm unit for outputting a warning alarm of a virus; A display unit for displaying a virus situation board GUI indicating a virus exposure area and a path of movement of a virus confirmed person; When a virus is detected through the virus detection unit, a virus warning alarm is output, the virus detection location is transmitted to the virus management server through the wireless communication unit, and the virus exposure area and the path of the virus confirmed person are received from the virus management server through the wireless communication unit. It may include; a control unit for driving a virus situation notification app displayed on the virus situation board GUI.

The virus situation notification app may display a virus risk value detected through the virus detection unit through the display unit.

The virus situation notification app may output a warning alarm through a warning alarm unit when a virus exposure area received from a virus management server or a virus confirmed person moves within a set distance within a set distance.

The virus situation notification app receives the movement path of a virus overexposed person, which is a person who has been exposed to a virus exposure time longer than a set reference exposure time, from the virus management server in real time, and warns when the person overexposed to the virus approaches within a set distance. A warning alarm can be output through the alarm unit.

The virus situation board GUI includes: a location information display field indicating location information of a location where a personal mobile phone terminal is located; It may include a virus status display field that displays the virus status of the point where the personal mobile phone terminal is located.

The virus management server generates virus exposure area ranking information arranged in the order of regions exposed to a large amount of virus, and high risk group patient ranking information arranged in the order of people exposed to a large amount of virus, and transmits it to the personal mobile phone terminal. , The virus situation board GUI may include a level evaluation information display field in which the received exposure area level evaluation information and the level evaluation information of high-risk patients are displayed.

According to an embodiment of the present invention, by selectively pursuing quarantine measures after the location and the person exposed to the virus are automatically registered and accumulated, accurately grasping where the virus (cause) exists and selectively removing (disinfection and intensive management), After quantitatively checking high-risk patients who have been exposed a lot, it can be prevented in advance.

In addition, according to an embodiment of the present invention, the user's convenience is improved by providing the virus exposure status, self-isolation questionnaire, mask status, disaster message, screening clinic information, real-time news, local advertisement, alarm setting, etc. at a glance through the GUI. I can.

1 is a block diagram of a virus exposure quantification system according to an embodiment of the present invention.
2 is a block diagram of a configuration of a personal mobile phone terminal according to an embodiment of the present invention.
Figure 3 is an exemplary diagram of a virus situation board GUI according to an embodiment of the present invention.
Figure 4 is a diagram showing the movement path of a virus confirmed person according to an embodiment of the present invention.
5 is an exemplary illustration of alarming a danger when approaching a virus confirmed person or approaching a virus-exposed area according to an embodiment of the present invention.
6 is an exemplary diagram of a virus situation board GUI for selecting mask status, disaster text, screening clinic information, and the like according to an embodiment of the present invention.

Hereinafter, embodiments according to the present invention will be described with reference to the accompanying drawings. In adding reference numerals to elements of each drawing, it should be noted that the same elements are assigned the same numerals as possible, even if they are indicated on different drawings. In addition, in describing an embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function interferes with an understanding of the embodiment of the present invention, the detailed description thereof will be omitted. In addition, embodiments of the present invention will be described below, but the technical idea of the present invention is not limited or limited thereto, and may be modified and variously implemented by those skilled in the art.

1 is a configuration diagram of a virus exposure quantification system according to an embodiment of the present invention, FIG. 2 is a block diagram of a configuration of a personal mobile phone terminal according to an embodiment of the present invention, and FIG. 3 is a virus situation board according to an embodiment of the present invention. It is an example of a GUI, and FIG. 4 is a diagram showing a moving path of a virus confirmed person according to an embodiment of the present invention, and FIG. 5 is an alarm when approaching a virus confirmed person or approaching a virus-exposed area according to an embodiment of the present invention. It is an exemplary diagram for warning, and FIG. 6 is an exemplary diagram of a virus situation board GUI for selecting mask status, disaster text, screening clinic information, and the like according to an embodiment of the present invention.

In the present specification, the term "virus" is used as a concept including all various types of viruses that cause diseases in the human body, such as corona, MERS, and SARS.

In addition, in the present specification, the term'personal mobile phone terminal 200' is used to communicate with an external server through a mobile communication network 100 such as a mobile phone such as a smart phone or a feature phone, or an external server through a Wi-Fi network such as a tablet. It refers to a terminal that can communicate with.

The present invention detects a virus for micro-scale measurement and enables selective quarantine countermeasures after the location and the person to which the virus is exposed is automatically registered and accumulated. In other words, it is possible to selectively identify high-risk patients and regions exposed to the virus by summing up the path of movement and exposure of the virus accumulated in each cell phone that the people possess. Therefore, it is possible to accurately identify where the virus (cause) exists in the air and selectively remove it (disinfection and intensive management), and prevent it in advance after quantitatively checking high-risk patients who have been exposed to a lot.

To this end, the virus exposure quantification system includes a mobile communication network 100 that provides wired communication or wireless communication between the personal mobile phone terminal 200 and the virus management server 300 as shown in FIG. 1, and when a virus is detected in the air. A personal mobile phone terminal 200 that outputs a warning alarm and transmits virus detection location information to the virus management server 300, receives and displays the virus exposure area and the path of the virus confirmed as the virus management server 300, and the virus It may include a virus management server 300 that provides the exposure area and the moving path of the virus confirmed person to each personal mobile phone terminal 200. It will be described in detail below.

The mobile communication network 100 provides wired communication or wireless communication between the personal mobile phone terminal 200 and the virus management server 300. The mobile communication network 100 may perform data communication using a wireless communication network consisting of a base transceiver station (BTS), a mobile switching center (MSC), and a home location register (HLR). . For reference, a mobile radio communication network includes a base station (BTS), a mobile switching center (MSC), and a home location register (HLR), as well as an access gateway that enables transmission and reception of wireless packet data, and a PDSN (Packet Data Serving Node), etc. may be additionally included.

The virus management server 300 has the same configuration as a typical web server in terms of hardware, and is implemented through various types of languages such as C, C++, Java, Visual Basic, Visual C, etc. in software to provide various functions. It includes a program module that does. In addition, it can be implemented using web server programs that are variously provided according to operating systems such as dos, windows, linux, unix, and macintosh in general server hardware. have.

The virus management server 300 receives a virus detection location from each personal mobile phone terminal 200. In addition, information on the virus outbreak area is generated based on the received virus detection location, and a movement path of the personal mobile phone terminal 200 located at the virus detection location is generated as a movement path of the virus confirmed person. The generated virus exposure area and the moving path of the virus confirmed are provided to each personal mobile phone terminal 200 so that they can be shared with others.

In addition, the virus management server 300 generates virus exposure area ranking information arranged in the order of regions exposed to a large amount of virus, and high risk group patient ranking information arranged in the order of people exposed to a large amount of virus, and the personal mobile phone terminal ( 200). Therefore, such information on the evaluation of the virus-exposed area and the information on the evaluation of high-risk patients are shared with other third parties, so that the virus-exposed area can be avoided and can be used for virus quarantine.

When a virus is detected in the air, the personal mobile phone terminal 200 outputs a warning alarm and transmits virus detection location information to the virus management server 300. In addition, the virus management server 300 receives and displays a virus exposure area and a moving path of a virus confirmed person.

To this end, the personal mobile phone terminal 200 includes a wireless communication unit 210, a location identification unit 220, a storage unit 230, a virus detection unit 240, a warning alarm unit 250, and a display unit, as shown in FIG. 2. 260, and a control unit 270 may be included.

The wireless communication unit 210 performs mobile communication such as 4G or 5G with the virus management server 300 through the mobile communication network 100. Accordingly, the wireless communication unit 210 includes an RF transmitter (not shown) for up-converting and amplifying the frequency of a signal transmitted wirelessly, and an RF receiver (not shown) for low-noise amplifying and down-converting the received radio signal. do.

The location identification unit 220 is a module that identifies the location of the terminal. The location of the terminal can be determined by receiving GPS information from GPS satellites, the location of the terminal can be determined based on the location of the mobile communication base station, or the location of the terminal can be determined based on the beacon location identified through beacon communication from a nearby beacon device. .

The storage unit 230 is a storage body in which the virus situation notification app execution file, screen graphic interface (GUI) information, and the like of the present invention are stored. Also, the details of virus detection are stored. Such a storage body is a module capable of input/output of information, such as a flash memory, a compact flash card (CF card), and a secure digital card (SD card), and may be provided inside the device or provided in a separate device. It may have been.

The virus detection unit 240 collects surrounding air and detects whether a virus set as a dangerous group exists in the collected air. The personal mobile phone terminal 200 includes an air collecting module similar to a microphone to collect ambient air. And it detects whether a virus set as a risk group (eg, corona, MERS, SARS, etc.) exists in the collected air.

For reference, such virus detection can be detected through a known electronic sensor or the like.

For example, a method of detecting a virus using an electronic sensor,

"https://blog.naver.com/alex0105/221955391291",

"https://blog.naver.com/sisatoday35/221955380556",

"https://news.chosun.com/site/data/html_dir/2020/05/10/2020051000616.html"

It is to use a jellyfish-type electrostatic sensor as known in various Internet such as. In other words, when the microbial cells connected to the electrostatic sensor react to a specific compound in the coronavirus, it can detect the virus in the air by converting this sensory information into a digital signal.

The warning alarm unit 250 performs a function of outputting a warning alarm of a virus. The warning alarm unit 250 may output a warning alarm through various means such as a screen or audio.

The display unit 260 is a module that displays a virus situation board GUI (Graphic User Interface) indicating a virus exposure area and a moving path of a virus confirmed person. The display unit 260 may be implemented in a single form of a touch screen panel that simplifies input as well as an LED panel. The touch screen panel is a display window provided on the front of a terminal to display a work screen by providing a touch screen screen capable of performing input and display at the same time, and includes a graphic user interface (GUI; Graphic User Interface).

The terminal control unit 270 is implemented as a main control unit (MCU) that controls each functional module of the terminal, and is a module in which the virus situation notification app of the present invention is installed. The personal mobile phone terminal 200 implemented as a smart phone, etc., can install and add or delete hundreds of various apps (applications, applications) as desired by the user, so that the app (application) desired by the user You can also create your own, and you can implement an interface that suits you through various apps (applications). Therefore, you can download a virus situation notification app from Google Market, Apple Store, etc. and install it on your smartphone.

The virus situation notification app outputs a virus warning alarm when a virus is detected through the virus detection unit 240 and transmits the virus detection location to the virus management server 300 through the wireless communication unit 210. In addition, the virus situation notification app displays the virus exposure area received from the virus management server 300 on the virus situation board GUI.

To this end, a virus situation panel GUI (Graphic User Interface) includes a location information display field indicating location information of a location where the personal mobile phone terminal 200 is located, as shown in FIG. 3, and a virus at the location where the personal mobile phone terminal 200 is located. Contains a virus status display field indicating the status. Therefore, the user can easily check the virus status in the region where he is located through the virus situation board GUI.

For example, in the case of an area not exposed to the virus, no virus is displayed, and in the case of a virus-exposed area, the presence of a virus is indicated. The presence of such virus exposure and no virus exposure are displayed in the form of an icon so that the user can intuitively recognize it immediately.

Furthermore, the virus situation notification app displays the virus risk value detected through the virus detection unit 240 through the display unit 260. For example, when the virus management server 300 receives that a virus has been detected from most of the personal mobile phone terminals 200 located in a specific area A, the situation is propagated to each personal mobile phone terminal 200 and the corresponding area A High risk of virus. On the other hand, when it is received that a virus has been detected from a small number of personal mobile phone terminals 200 located in area A, the situation is propagated to each personal mobile phone terminal 200 to display a low virus risk level in the corresponding area A. do

In addition, the virus situation notification app also receives a moving path of a virus confirmed from the virus management server 300 through the wireless communication unit 210 and displays it on the virus situation board GUI. That is, as shown in FIG. 4, by displaying the moving path of the virus confirmed person, it is possible to help to avoid the movement path of the virus confirmed person.

In addition, the virus situation notification app outputs a warning alarm through the warning alarm unit 250 when a virus exposure area received from the virus management server 300 or a virus confirmed person moves within a set distance within a set distance. For example, as shown in FIG. 5, when a user approaches a virus-exposed area, it is displayed on the screen to warn that the virus-exposed area is approaching, thereby helping the user to know and avoid it. .

In addition, the virus situation notification app receives the movement path of a person (referred to as a'virus overexposure person') whose virus exposure time is more than a set reference exposure time from the virus management server 300 in real time, and receives the virus overexposure person in real time. When approaching within this set distance, a warning alarm is output through the warning alarm unit 250. Therefore, even if you are still in one place, you will be able to recognize the approach of a person who is overexposed to the virus, and you will be able to evacuate immediately.

On the other hand, on the virus situation board GUI, the exposure area level evaluation information received from the virus management server 300 and the high risk group level evaluation information are displayed. That is, the virus management server 300 generates a personal mobile phone terminal by generating the information on the rank evaluation of the virus exposure areas arranged in the order of the regions exposed to the amount of virus, and the rank evaluation information of the high-risk patients arranged in the order of the people exposed to the large amount of virus. It is transmitted to 200, and each personal mobile phone terminal 200 that has received it displays this so that each user can check it.

Further, the virus situation board GUI includes not only the above-described virus-related information, but also self-isolation diagnosis table, weather information, mask status, disaster text, screening clinic information, real-time news, alarm setting, area as described below as shown in FIG. You can provide advertisements and the like.

-Self-isolation diagnosis table

By providing a question to self-diagnose virus (corona), it helps to self-diagnose the virus infection.

-Weather information

It provides weather information such as fine dust, air pollution, oxygen saturation, temperature and humidity based on the user's current location.

-Mask status

Provides real-time inventory status of public mask sales pharmacies around users.

-Disaster text

It is provided so that the status of disaster messages by city/province can be checked.

-Screening clinic information

It is provided so that information and location of Corona 19 clinics by city/province can be confirmed.

-Real-time news

Provides to check the news related to Corona 19 in real time.

-Alarm setting

It is provided to receive alerts for the number of confirmed viruses and fine dust in the neighborhood.

-Local advertising

Paid local advertisements are possible, and free local advertisements can be provided temporarily to small business owners.

As described above, an optimal embodiment has been disclosed in the drawings and specifications. Although specific terms have been used herein, these are only used for the purpose of describing the present invention, and are not used to limit the meaning or the scope of the present invention described in the claims. Therefore, those of ordinary skill in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

100: mobile network
200: personal mobile phone terminal
300: Virus management server

Claims (7)

A personal mobile phone terminal that outputs a warning alarm when a virus is detected in the air, transmits virus detection location information to a virus management server, and receives and displays a virus exposure area and a moving path of a virus confirmed as a virus management server;
A virus management server that receives a virus detection location from each personal mobile phone terminal and provides a virus exposure area and a moving path of a virus confirmed person to each personal mobile phone terminal;
A mobile communication network providing wired communication or wireless communication between the personal mobile phone terminal and the virus management server; Including,
The personal mobile phone terminal,
A wireless communication unit for performing mobile communication with a virus management server through the mobile communication network;
A location grasping unit to determine a location;
A virus detection unit that collects surrounding air and detects whether a virus set as a dangerous group exists in the collected air;
A warning alarm unit for outputting a warning alarm of a virus;
A display unit for displaying a virus situation board GUI indicating a virus exposure area and a movement path of a virus confirmed person; And
When a virus is detected through the virus detection unit, a virus warning alarm is output and the virus detection location is transmitted to the virus management server through the wireless communication unit, and the virus exposure area and the path of the virus confirmed person are received from the virus management server through the wireless communication unit. A control unit for driving a virus situation notification app displayed on the virus situation board GUI; Including,
The virus management server,
Based on the location of each of the plurality of users identified from the location finding unit included in each of the personal mobile phone terminals of each of the plurality of users, the virus detected through the virus detection unit, the virus exposure area, and the moving path of the virus confirmed person, A virus exposure time for each of the plurality of users is calculated, and a user whose calculated virus exposure time is higher than a reference exposure time among the plurality of users is set as a high-risk patient,
The virus situation notification app,
The moving path of the user set as the high risk group is received in real time from the virus management server, and when the user set as the high risk group approaches within a set distance, a warning alarm is output through the warning alarm unit,
The virus risk value detected by the virus detection unit is displayed through the display unit, and the virus risk value for the specific area is calculated based on the number of personal mobile phone terminals that have detected a virus from a plurality of personal mobile phone terminals located in a specific area. And displaying the determined virus risk value through a display unit of a plurality of personal mobile phone terminals located in the specific area.
delete delete The method according to claim 1, wherein the virus situation notification app,
Virus exposure quantification system that outputs a warning alarm through the warning alarm unit when the virus exposure area received from the virus management server or within the set distance of the virus confirmed person's movement path is approached.
delete The method according to claim 1, wherein the virus situation board GUI,
A location information display field indicating location information of a location where the personal mobile phone terminal is located;
A virus status display field indicating a virus status of a location where the personal mobile phone terminal is located;
Virus exposure quantification system comprising a.
The method according to claim 1,
The virus management server generates and transmits to the personal mobile phone terminal, virus exposure area ranking information arranged in the order of regions exposed to a large amount of virus, and high risk group patient ranking information arranged in the order of people exposed to a large amount of virus, and ,
The virus situation board GUI is a virus exposure quantification system including a level evaluation information display field in which the received exposure area level evaluation information and the level evaluation information of high-risk patients are displayed.

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