KR102341062B1 - Analysis system and method for personal accumulated exposure doses of fine dust - Google Patents

Abstract

A fine dust cumulative exposure analysis system capable of analyzing the fine dust exposure based on the location of each of a plurality of people in the area and notifying each individual of the fine dust cumulative exposure amount information according to the analysis result is provided. The analysis system may detect the location of each of a plurality of users in an area for each set time period, and may analyze and calculate the fine dust exposure amount according to the detected user location based on the fine dust status map of the area provided from the outside.

Description

Analysis system and method for personal accumulated exposure doses of fine dust

The present invention is a system for analyzing accumulated exposure to fine dust, in particular, analyzing the amount of exposure to fine dust based on the location of each of a plurality of people in the area, and the accumulated exposure to fine dust that can notify each individual of the accumulated fine dust exposure information according to the analysis result It relates to an analysis system and method.

Recently, the number of days when the concentration of ultrafine dust exceeds the allowable standard is increasing. Ultrafine dust enters the human body and causes respiratory diseases. Recently, the World Health Organization has defined fine dust as a carcinogen. In the metropolitan area, the concentration of fine dust is about twice that of New York due to the influence of fine dust coming from China.

It is analyzed that if the daily average concentration of ultrafine dust in Seoul increases by 10㎍/㎥ due to the risk of fine dust, the risk of death increases by 0.44%, and the risk of death from cardiovascular disease in the elderly 65 years or older increases by 1.75%. . In other words, even if the level of ultrafine dust pollution increases on a daily basis, it affects the mortality rate. As a result of a follow-up survey of 1,500 pregnant women over 4 years, if the fine dust concentration rises by 10㎍/㎥, the probability of giving birth to a deformed child is the highest. It was found to increase by 16%.

Accordingly, in the prior art, on a day when the concentration of fine dust including ultrafine dust in the air is high, the fine dust alert is notified to people in the area to minimize outdoor activities.

However, in the prior art, fine dust alerts with the same content were notifying people in a given area at once, mainly according to the local fine dust status measured in large cities, and this reduced the notification efficiency of fine dust alerts.

The present invention is to solve the above-described problem, and the accumulated fine dust exposure amount that can analyze the fine dust exposure amount based on the location of each of a plurality of people in the area and notify each individual of the fine dust cumulative exposure amount information according to the analysis result It is intended to provide an analysis system and method.

A system for analyzing accumulated exposure to fine dust according to the present invention includes: a user registration unit for registering user information for each of a plurality of users in an area; a location tracking unit that tracks and detects the location of each of a plurality of users for each set time period; and calculating each user's fine dust exposure for each time period from the user's location for each time period detected by the location tracking unit based on the local fine dust status map provided from the outside, and accumulating fine dust of each user from the calculated fine dust exposure amount and an exposure calculation unit for calculating an exposure amount.

Here, the local fine dust status map is characterized in that one or more bases in the region and the fine dust concentration values for each time period of the base are displayed.

The method of analyzing the accumulated exposure to fine dust according to the present invention comprises: registering user information of each of a plurality of users in the area; tracking and detecting the location of each of a plurality of users for each set time period; calculating the fine dust exposure amount for each user at each user's location detected based on the local fine dust current status map provided from the outside; and calculating each user's accumulated fine dust exposure by accumulating the calculated fine dust exposure for each time period, and notifying a fine dust alert to each of a plurality of users based on the accumulated fine dust exposure amount.

The system for analyzing the accumulated exposure to fine dust according to the present invention detects the location of each of a plurality of users in an area for each set time period, and calculates the exposure amount of fine dust according to the detected user's location based on the fine dust status map of the area provided from the outside. It can be analyzed and calculated.

In addition, the analysis system of the present invention may calculate the accumulated fine dust exposure by accumulating the user's fine dust exposure calculated for each time period, and may notify the user of the fine dust alert according to the calculated accumulated exposure amount.

Therefore, the accumulated fine dust exposure analysis system according to the present invention analyzes the fine dust exposure amount according to the location of each of a plurality of people in the area, calculates the accumulated fine dust exposure amount accordingly, and provides different fine dust alerts to each of a plurality of people. can notify For this reason, the present invention can increase the notification efficiency of the fine dust alert.

1 is a view showing a system for analyzing accumulated exposure to fine dust according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a method of analyzing the accumulated exposure to fine dust for each individual using the analysis system of FIG. 1 .
FIG. 3 is a diagram specifically illustrating a method of calculating the cumulative exposure amount of fine dust of FIG. 2 .
4A and 4B are diagrams illustrating an embodiment of analyzing the cumulative exposure to fine dust for each individual according to the present invention.

Hereinafter, the configuration and operation of the embodiment of the present invention will be described with reference to the accompanying drawings.

It should be noted that the same components in the drawings are indicated by the same reference numbers and symbols as much as possible even though they are indicated in different drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, when a part "includes" a certain component, this means that other components may be further included rather than excluding other components unless otherwise stated.

In addition, the terms or words used in the present specification and claims should not be construed in the ordinary and dictionary meanings, and the inventors can properly define the concept of the term to describe their invention in the best way. Based on the principle, it should be interpreted as meaning and concept consistent with the technical idea of the present invention. Accordingly, the embodiments described in this specification and the configurations shown in the drawings are only preferred embodiments of the present invention, and do not represent all of the technical spirit of the present invention, so various equivalents that can be substituted for them at the time of the present application and modifications, and the scope of the present invention is not limited to the embodiments described below.

1 is a view showing a system for analyzing accumulated exposure to fine dust according to an embodiment of the present invention.

Referring to FIG. 1 , the cumulative exposure amount analysis system 100 for fine dust of this embodiment, hereinafter, the analysis system calculates the location of each of the people in the area, that is, a plurality of users 200, based on the local fine dust status map provided from the outside. According to the identified location, it is possible to analyze the accumulated exposure to fine dust for each user.

In addition, the analysis system 100 of the present embodiment may notify the user of the accumulated exposure amount of fine dust according to the analysis result as an alert to minimize the user's exposure to fine dust.

Accordingly, the analysis system 100 of the present embodiment may include a user registration unit 110 , a location tracking unit 130 , an exposure amount calculating unit 120 , and an alarm generating unit 140 . In addition, although not shown in the drawing, the analysis system 100 can communicate data with an external, that is, a plurality of users 200 and an external system, for example, an electronic map database 300 in which a local fine dust status map is stored. It may further include a communication unit (not shown).

The user registration unit 110 of the analysis system 100 may register information of each of a plurality of users 200 in the region. The user registration unit 110 may register each user's information by matching the user's personal information with the electronic device information while communicating with the electronic device that each of the users 200 possess, for example, an electronic device such as a smart phone.

Here, the user's personal information may include at least one of information such as the user's name, age, gender, residence area, medical history, and the like. In addition, the user's electronic device information may include unique information of the electronic device capable of data communication with the analysis system 100 of the present embodiment, for example, information such as a smartphone phone number.

Accordingly, the user registration unit 110 may assign a unique ID to each of the plurality of users 200 and register the user information by matching the user's personal information and electronic device information with the assigned ID.

The location tracking unit 130 may detect and track the location of the user in the area for each preset time period. The location tracking unit 130 may detect the user location by tracking the location information of the user's electronic device previously registered in the user registration unit 110 .

Here, when the user is located inside the building, the location tracking unit 130 may track and detect the location of the user's electronic device through a repeater installed in the building.

The exposure amount calculation unit 120 may calculate the fine dust exposure amount for the user whose location is detected by the location tracking unit 130 . The exposure amount calculation unit 120 may calculate the fine dust exposure amount according to the user's location based on the local fine dust status map provided from the electronic map database 300 .

Here, the fine dust status map provided from the electronic map database 300 may display the fine dust concentration for each time period for one or more major regional bases. Accordingly, the exposure amount calculator 120 may analyze the relationship between one or more major bases of the fine dust status map and the user's location for each set time period, and calculate the user's fine dust exposure amount for the corresponding time period according to the analysis result.

In addition, the exposure amount calculator 120 may calculate the user's accumulated fine dust exposure amount by accumulatively adding up the user's fine dust exposure amount calculated for each time period, that is, the user's fine dust exposure amount calculated at each of the previous and current time points. In addition, the exposure amount calculator 120 may determine whether to notify the user of a fine dust alert according to the calculated cumulative exposure amount of fine dust.

In this case, the exposure amount calculator 120 may determine the maximum allowable amount of fine dust exposure for each individual based on the previously registered user information, and determine the notification of the fine dust alert according to the accumulated fine dust exposure amount. For example, the exposure amount calculator 120 may determine the maximum allowable amount of fine dust exposure for each user based on the user history of the user information. The operation of the exposure amount calculator 120 will be described in detail later with reference to the drawings.

The alert generator 140 may notify the user of a fine dust alert according to the alert notification determination result of the exposure amount calculator 120 . The alert generating unit 140 may notify the fine dust alert in the form of a text message to the electronic device of the corresponding user based on previously registered user information.

As described above, the analysis system 100 according to the present embodiment detects the location of each of a plurality of users 200 in the region for each set time period, and the detected user based on the fine dust status map of the region provided from the outside. It can be calculated by analyzing the amount of exposure to fine dust according to location. In addition, the analysis system 100 may calculate the accumulated fine dust exposure by accumulating the user's fine dust exposure calculated for each time period, and may notify the user of the fine dust alert according to the calculated accumulated exposure amount.

Therefore, the accumulated fine dust exposure analysis system 100 according to the present invention analyzes the fine dust exposure amount according to the location of each of a plurality of people in the area, and calculates the accumulated fine dust exposure amount accordingly to give different fine dust to each of a plurality of people. Dust alarm can be notified. For this reason, the present invention can increase the notification efficiency of the fine dust alert.

FIG. 2 is a diagram illustrating a method of analyzing the accumulated exposure to fine dust for each individual using the analysis system of FIG. 1 .

Referring to the drawing, the user registration unit 110 of the analysis system 100 may register information of each of a plurality of users 200 in the corresponding area (S10).

The user registration unit 110 may receive personal information and electronic device information from a plurality of users 200 while communicating with an electronic device such as a smart phone possessed by each of the plurality of users 200 in the region.

Next, the user registration unit 110 may register user information by setting a unique ID for each of the plurality of users 200 and matching the user's personal information and electronic device information to the set unique ID.

Here, the user's personal information may include at least one of information such as a user name, age, gender, residence area, medical history, and the like. In addition, the user's electronic device information may include unique information for communication of the electronic device, for example, information such as a phone number.

Next, the location tracking unit 130 of the analysis system 100 may track and detect the location of each of the plurality of users 200 in the area for each predetermined time period (S20).

The location tracking unit 130 may detect the location of each user by tracking the location of each user's electronic device. The location tracking unit 130 may detect a user's location through a GPS mounted on each user's electronic device. At this time, if the user is located inside the building and cannot use the GPS of the electronic device, the location tracking unit 130 detects the location of the user located inside through one or more repeaters (not shown) installed in the building. have.

Also, the location tracking unit 130 may display the detected locations of each of the plurality of users 200 in the form of coordinates in an externally provided local map, that is, a local fine dust map.

Subsequently, the exposure amount calculation unit 120 of the analysis system 100 analyzes the fine dust exposure amount for each of a plurality of users 200 based on the local fine dust status map provided from the outside according to the detected location of the user. can be calculated. Next, the accumulated fine dust exposure amount of each user may be calculated from the calculated fine dust exposure amount (S30).

3 is a diagram specifically illustrating a method of calculating the cumulative exposure to fine dust of FIG. 2 , and FIGS. 4A and 4B are diagrams illustrating an embodiment of calculating the cumulative exposure to fine dust for each individual according to the present invention.

Referring to the drawing, first, the location tracking unit 130 may detect and track the locations of a plurality of users in the area, for example, each of the first user 200-1 and the second user 200-2 by time period. There is (S20).

The location tracking unit 130 may display the locations of the first user 200 - 1 and the second user 200 - 2 detected on the local fine dust map provided from the outside in the form of coordinates.

As shown in FIG. 4A , the location tracking unit 130 tracks the location of the electronic device possessed by each of the first user 200 - 1 and the second user 200 - 2 within the area at the first time, and the user position can be detected. At this time, since the first user 200 - 1 is located inside the building, the location tracking unit 130 transmits the electronic information of the first user 200 - 1 through a repeater installed in the building where the first user 200 - 1 is located. You can track the location of your device.

In addition, as shown in FIG. 4B , the location tracking unit 130 detects the user's location through electronic device location tracking of the first user 200 - 1 and the second user 200 - 2 in the area at the second time. can be detected. Here, the second time may be after a preset time elapses from the first time.

Next, the exposure amount calculator 120 may determine the separated distance between the detected location of the user and a major base set in the area (S31).

As shown in FIGS. 4A and 4B , one or more major bases, for example, a first base P1 to a fifth base P5, are set in the local fine dust status map provided from the outside.

Accordingly, the exposure amount calculator 120 may determine the distance relationship between the user's positions detected for each time period centered on the preset first point P1 to the fifth base point P5 .

For example, as shown in FIG. 4A , the location of the first user 200 - 1 of the first time detected by the location tracking unit 130 is inside the building, that is, at the fourth base P4 . Accordingly, the exposure amount calculator 120 determines the distance relationship between the first user 200-1 and the fourth base P4, and the first separation distance between the fourth base P4 and the first user 200-1 (d1) can be calculated.

In addition, the position of the second user 200 - 2 of the first time detected by the location tracking unit 130 is between the second base P2 and the third base P3 . Accordingly, the exposure calculation unit 120 determines the distance relationship between the second user 200 - 2 and the second base P2 and the second user 200 - 2 and the third base P3, respectively, and accordingly A second separation distance d2 between the second base P2 and the second user 200-2 and a third separation distance d3 between the third base P3 and the second user 200-2 are calculated, respectively. can do.

In addition, as shown in FIG. 4B , the position of the first user 200-1 of the second time detected by the location tracking unit 130 is between the first base P1 and the fourth base P4. , the exposure amount calculation unit 120 determines the distance relationship between the first user 200-1 and the first base P1 and the first user 200-1 and the fourth base P4, respectively, and, accordingly The fourth separation distance d4 between the first base P1 and the first user 200-1 and the fifth separation distance d5 between the fourth base P4 and the first user 200-1 are calculated, respectively. can

In addition, the position of the second user 200 - 2 of the second time detected by the location tracking unit 130 is between the second base P2 and the fourth base P4 . Accordingly, the exposure amount calculator 120 determines the distance relationship between the second user 200 - 2 and the second base P2 and the second user 200 - 2 and the fourth base P4, respectively, and accordingly A sixth separation distance d6 between the second base P2 and the second user 200-2 and a seventh separation distance d7 between the fourth base P4 and the second user 200-2 are calculated, respectively. can do.

Here, the positions of the first user 200 - 1 and the second user 200 - 2 detected at the second time shown in FIG. 4B are shifted from the positions of the first time shown in FIG. 4A , and thus The second time may be a time after the first time.

Referring back to FIG. 3 , the exposure amount calculator 120 may calculate the fine dust exposure amount of each of the first user 200 - 1 and the second user 200 - 2 at the user's positions detected for each time period ( S33).

At this time, the exposure amount calculator 120 calculates the exposure amount of fine dust of each of the first user 200-1 and the second user 200-2 for each time period by reflecting the previously calculated separation distance between the user and the main base in the region. can do.

As described above, in the local fine dust status map shown in FIGS. 4A and 4B , one or more major points, that is, the first base (P1) to the fifth base (P5), are displayed together with the status of fine dust by time of day at each base. , that is, the fine dust concentration value of each base is indicated.

The exposure amount calculator 120 calculates the separation distance between the user, that is, each of the first user 200-1 and the second user 200-2, and the main base, that is, the first base P1 to the fifth base P5. weights can be assigned. The exposure amount calculator 120 multiplies the fine dust concentration value of one or more bases closest to each of the first user 200-1 and the second user 200-2 by the separation distance to which the weight is applied. It is possible to calculate the dust exposure amount, that is, the user's fine dust concentration value.

Here, the weight may have a value between 0 and 1, specifically, a value of 0 or more and 1 or less, and may be applied differently for each separation distance between the user and the base.

For example, as shown in FIG. 4A , the exposure amount calculator 120 calculates the first time based on the first time fine dust status, that is, the concentration value of the fourth base P4 closest to the first user 200-1. The amount of exposure to fine dust for the first time of the first user 200 - 1 according to one separation distance d1 may be calculated.

In this case, since the first user 200 - 1 is located inside the fourth base P4 at the first time, that is, inside the building, the weight for the first separation distance d1 may have a value of 1.

Accordingly, the exposure amount calculator 120 may calculate the first hourly fine dust exposure amount of the first user 200 - 1 having substantially the same value as the first hourly fine dust concentration value of the fourth base P4 . .

In addition, the exposure amount calculator 120 determines the second separation distance based on the first time fine dust concentration values of the second and third bases P2 and P3 closest to the second user 200 - 2 , respectively. The exposure amount of fine dust for the first time of the second user 200 - 2 according to (d2) and the third separation distance d3 may be calculated.

At this time, since the second user 200-2 is located between the second base P2 and the third base P3, different weights are applied to each of the second and third distances d2 and d3. can be applied. Here, the weight may be applied in inverse proportion to the separation distance. For example, the weight may be applied as a relatively large value to a distance having a relatively small value among the second separation distance d2 and the third separation distance d3.

Accordingly, the exposure amount calculator 120 calculates the value calculated by the product of the first hourly fine dust concentration value of the second base P2 and the second separation distance d2 to which the weight is applied to the first value of the third base P3. The first hourly fine dust exposure amount of the second user 200 - 2 may be calculated by adding up a value calculated by the product of the hourly fine dust concentration value and the weighted third separation distance d3.

Meanwhile, as shown in FIG. 4B , the positions of the first user 200 - 1 and the second user 200 - 2 are changed and detected at the second time.

Accordingly, the exposure amount calculator 120 calculates the fourth separation distance d4 between the first user 200-1 and the first base P1 and the first user 200-1 and the fourth base P4 between the first user 200-1 and the fourth base P4. A weight is given to each of the 5 separation distances d5, and the first user ( 200-1) of the second hour of exposure to fine dust can be calculated.

In addition, the exposure amount calculation unit 120 calculates the sixth separation distance d6 between the second user 200-2 and the second base P2 and the second user 200-2 and the fourth base P4 between the second user 200-2 and the fourth base P4. A weight is given to each of the 7 separation distances d7, and the second user ( 200-2) of the second hour of exposure to fine dust can be calculated.

In this way, the exposure amount calculating unit 120 of the present embodiment may calculate the fine dust exposure amount for each time zone of the user in the region from the local fine dust status map provided from the outside. At this time, the exposure amount calculating unit 120 calculates the fine dust exposure amount for each user by time based on the preset state of fine dust for each time zone for the main base in the region, and a value weighted to the separation distance between each major base and the user. can

Referring back to FIG. 3 , the exposure amount calculator 120 may calculate the user's accumulated fine dust exposure amount by accumulatively summing the pre-calculated amount of the user's fine dust exposure for each time period ( S35 ).

The exposure amount calculator 120 may calculate the user's accumulated fine dust exposure amount by accumulatively adding up the user's previously calculated fine dust exposure amount for each set time.

Next, the exposure amount calculator 120 may compare the calculated user's accumulated exposure to fine dust with a reference value Ref (S37).

Here, the reference value Ref may be each user's maximum allowable fine dust exposure set based on user information, and may be set to a different value for each user.

As a result of the comparison of the exposure amount calculator 120 , if the user's cumulative exposure is greater than or equal to the reference value Ref (Y), the exposure amount calculator 120 sends a fine dust alert to the user through the alert generator 140 . It can be notified (S40).

The alert generating unit 140 may notify the fine dust alert in the form of a text message to the electronic device of the corresponding user based on previously registered user information. Accordingly, the user notified of the fine dust alert can reduce exposure to fine dust by leaving the corresponding area or moving indoors.

On the other hand, if the user's cumulative exposure is less than the reference value Ref (N), the exposure amount calculator 120 may detect the user's location in the next time period through the location tracking unit 130 (S20). And, as described above, the step (S30) of calculating the user's fine dust exposure amount and the cumulative exposure amount for the corresponding time period may be repeatedly performed.

As described above, the method for analyzing the accumulated exposure to fine dust for each user in the region according to the present embodiment detects the location of each of a plurality of users 200 in the region for each set time period, and is displayed on the fine dust status map of the region provided from the outside. It can be calculated by analyzing the amount of exposure to fine dust according to the detected user location based on the In addition, the accumulated fine dust exposure amount analysis method for each user calculates the accumulated fine dust exposure amount by accumulating the user's fine dust exposure amount calculated for each time period, and may notify the user of the fine dust alert according to the calculated accumulated exposure amount.

Therefore, the method for analyzing the accumulated exposure to fine dust according to the present invention analyzes the amount of exposure to fine dust according to the location of each of a plurality of people in the area, and calculates the accumulated exposure to fine dust accordingly, thereby providing different fine dust alerts to each of a plurality of people. can notify For this reason, the present invention can increase the notification efficiency of the fine dust alert.

The system 100 for analyzing the accumulated exposure to fine dust of the present invention described above can be built with a computer or a server, and the method for analyzing the accumulated exposure to fine dust for each user using this is implemented as a program running in the analysis system 100 . and may be stored in a recording medium or the like.

The program may include code coded in various computer languages that can be executed by the processor of the computer or server. The code may include a code such as a function defining functions necessary for a hair loss diagnosis method and a control code capable of controlling it.

In addition, the recording medium in which the program is stored is a medium readable by a computer or server, for example, ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical disk, USB memory, SD card, micro SD card, etc. However, the present invention is not limited thereto.

100: analysis system 110: user register
120: exposure calculation unit 130: location tracking unit
140: alarm generator 200: user
300: electronic map database

Claims (14)

a user registration unit for registering user information for each of a plurality of users in the region;
a location tracking unit that tracks and detects the location of each of a plurality of users for each set time period; and
Based on the local fine dust status map provided from the outside, each user's fine dust exposure for each time period is calculated from the user location for each time period detected by the location tracking unit, and each user's accumulated fine dust exposure amount from the calculated fine dust exposure amount Including an exposure calculation unit for calculating
The exposure amount calculation unit,
It is characterized in that by applying a weight to the distance between the base of the local fine dust status map and the location of the user, the exposure amount of fine dust for each user is calculated for each time period,
The local fine dust status map is,
A system for analyzing cumulative exposure to fine dust, characterized in that one or more bases within an area and the fine dust concentration values for each time period of the bases are displayed. According to claim 1,
The system for analyzing the accumulated exposure to fine dust according to claim 1, further comprising an alarm generating unit notifying each of a plurality of users of a fine dust alert based on the accumulated exposure to fine dust of each user. 3. The method of claim 2,
The system for analyzing the accumulated exposure to fine dust, characterized in that the alert generating unit notifies the fine dust alert in the form of a text message to each user's electronic device based on the user information. delete delete According to claim 1,
The weight is inversely proportional to the separation distance and has a value between 0 and 1. The system for analyzing accumulated exposure to fine dust. According to claim 1,
The user information is
A system for analyzing accumulated exposure to fine dust, characterized in that it is registered by matching the user's electronic device information with personal information including at least one of the user's name, age, gender, residence area, and medical history information. delete delete delete delete delete delete delete

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