KR102189049B1 - Method And Apparatus for Measuring Pollutants Exposure - Google Patents

Abstract

Disclosed is a method and apparatus for measuring exposure to pollutants indoors and outdoors. The present embodiment provides the apparatus for measuring exposure to pollutants indoors and outdoors, which continuously measures the level of pollutants indoors and outdoors using a wearable device (or portable device) that can be worn or carried, and uses a preset algorithm to inform a user about the degree of exposure to pollutants during a preset period (e.g., all day). The apparatus includes a measurement unit, an extraction unit, a user specifying unit, and a cumulative exposure amount calculation unit.

Description

Method and Apparatus for Measuring Pollutant Exposure in Indoor and Outdoor {Method And Apparatus for Measuring Pollutants Exposure}

The present embodiment relates to a method and apparatus for measuring the exposure of pollutants indoors and outdoors.

The contents described below merely provide background information related to the present embodiment and do not constitute the prior art.

Modern people spend about 80-90% of their time per day in houses, underground stations, day care centers, schools, and public buildings. Air management for the health of members living in a specific area or space is recognized as a very important factor. In particular, contaminated air can cause various environmental diseases and respiratory diseases, etc., greatly threatening the health of members.

Harmful factors around living that threaten indoor air quality are various fine dusts generated in a specific space, volatile organic compounds (VOC) emission, pollutants of indoor building materials, carbon dioxide generated from many users, carbon monoxide generated from heating facilities, etc. There is this. The most suitable method for improving the air quality polluted by the aforementioned harmful factors is a natural ventilation method or an indoor air conditioning system operation.

However, indoor air conditioning systems are expensive systems built in very few buildings, such as intelligent buildings. In general buildings, natural ventilation is the only method, but in a state where fine dust from China and air pollution from urban environments are more serious, natural ventilation often has a bad effect rather than improving indoor air quality. Although the seriousness of air pollution is recognized, in general, there is a limit in managing air quality through natural ventilation even in a bad external atmosphere in real life.

In this embodiment, a wearable or portable wearable device (or portable device) is used to continuously measure the level of pollutants indoors and outdoors, and by using a preset algorithm, the user is contaminated during a preset period (e.g., all day). An object of the present invention is to provide an indoor and outdoor pollutant exposure measuring device that informs the degree of exposure to a substance.

According to an aspect of the present embodiment, there is provided a measuring unit that continuously measures concentrations of pollutants indoors and outdoors to generate pollution degree information; An extraction unit for extracting current fine dust (PM10), TVOC (Total Volatile Organic Compounds), and CO ₂ from the pollution level information; And a pollutant notification unit for outputting pollutant exposure information that is a degree of exposure to pollutants by a specific user for a preset period by applying the fine dust (PM10), the TVOC, and the CO ₂ to a preset algorithm. Provides a measuring device for the exposure of pollutants

According to another aspect of this embodiment, the process of generating pollution degree information by continuously measuring the concentration of pollutants indoors and outdoors; Extracting current fine dust (PM10), TVOC (Total Volatile Organic Compounds), and CO ₂ from the pollution level information; And applying the fine dust, the TVOC, and the CO ₂ to a preset algorithm to output pollutant exposure information, which is a degree of exposure to the pollutant by a specific user for a preset period. Provides a way.

As described above, according to the present embodiment, a wearable or portable wearable device (or portable device) is used to continuously measure the level of contaminants indoors and outdoors, and the user uses a preset algorithm for a preset period ( For example, it has the effect of letting you know the degree of exposure to pollutants during the day).

1 is a diagram showing an apparatus for measuring exposure of pollutants indoors and outdoors according to the present embodiment.
2 is a view showing the internal module of the pollutant exposure measurement apparatus according to the present embodiment.
3 is a flowchart illustrating a method of comparing pollution degree information with each reference value according to the present embodiment.
4 is a flowchart illustrating a method of measuring an exposure amount of pollutants indoors and outdoors according to the present embodiment.

Hereinafter, this embodiment will be described in detail with reference to the accompanying drawings.

1 is a diagram showing an apparatus for measuring exposure of pollutants indoors and outdoors according to the present embodiment.

The indoor and outdoor pollutant exposure measurement apparatus 100 is mounted at a specific location indoors as shown in FIG. 1(a) to measure the pollutant or outdoors as shown in FIG. 1(b). It can be worn or carried by a specific user to measure contaminants.

The pollutant exposure measurement device 100 is a wearable device (or portable device) that can be worn or carried, and continuously measures the level of pollutants indoors and outdoors. The pollutant exposure measurement apparatus 100 informs the user about the degree of exposure to the pollutant for a preset period (eg, all day) by applying the pollutant level to a preset algorithm.

As shown in (a) of Figure 1, the pollutant exposure amount measuring device 100 is mounted indoors in a specific place, and measures the concentration of pollutants around the user for 24 hours. As shown in (b) of FIG. 1, the pollutant exposure measurement device 100 measures the concentration of pollutants around the user for 24 hours by wearing or carrying it outdoors.

The pollutant exposure measurement apparatus 100 warns the user when the concentration of the pollutant is higher than a certain level by using a preset calculation formula.

The pollutant exposure amount measuring apparatus 100 not only measures the current pollutant concentration, but also measures and quantifies the degree of continuous exposure of the user for one day, thereby indicating whether there is a risk of continuous exposure. The pollutant exposure measurement apparatus 100 measures the indoor pollution degree and the accumulated pollution degree indoors, and informs whether or not indoor air is ventilated based on the indoor pollution degree and the accumulated pollution degree. The pollutant exposure measurement apparatus 100 may compare the external pollution degree and the internal indoor pollution degree to inform the ventilation time when ventilation is worse.

2 is a view showing an internal module of the apparatus for measuring exposure of pollutants according to the present embodiment.

The pollutant exposure measurement apparatus 100 according to the present embodiment includes a measurement unit 210, an extraction unit 220, a pollutant notification unit 230, a user specific unit 240, and a cumulative exposure amount calculation unit 250 do. Components included in the pollutant exposure measurement apparatus 100 are not necessarily limited thereto.

Each component included in the pollutant exposure measurement apparatus 100 may be connected to a communication path connecting a software module or a hardware module inside the device, so that they can operate organically with each other. These components communicate using one or more communication buses or signal lines.

Each component of the pollutant exposure measurement apparatus 100 shown in FIG. 2 refers to a unit that processes at least one function or operation, and may be implemented as a software module, a hardware module, or a combination of software and hardware. .

The measurement unit 210 continuously measures indoor and outdoor pollutant concentrations to generate pollution level information.

The extraction unit 220 extracts current fine dust PM10, Total Volatile Organic Compounds (TVOC), and CO ₂ from the pollution level information measured by the measurement unit 210. The extraction unit 220 additionally extracts ultrafine dust (PM2.5), humidity, temperature, and noise included in the pollution degree information.

The pollutant notification unit 230 warns the user when it is above a certain level using a preset algorithm. The pollutant notification unit 230 applies fine dust (PM10), TVOC, and CO ₂ to a preset algorithm and outputs pollutant exposure information, which is the degree to which a specific user has been exposed to pollutants for a preset period (eg, all day). do.

The pollutant notification unit 230 accumulates and quantifies the degree of continuous exposure of a specific user to each of the fine dust (PM10), TVOC, and CO ₂ for a preset period (eg, one day). The pollutant notification unit 230 outputs whether a specific user is at risk for continuous exposure to fine dust (PM10), TVOC, and CO _2, respectively, based on the numerical information.

The pollutant notification unit 230 generates outdoor air quality information based on the fine dust PM10 and the ultrafine dust PM2.5. The pollutant notification unit 230 generates indoor air quality information based on CO ₂ and TVOC. The pollutant notification unit 230 determines whether to ventilate based on at least one of outdoor air quality information, indoor air quality information, humidity, temperature, and noise. When the pollution level of the indoor air quality information is higher than the pollution level of the outdoor air quality information, the pollutant notification unit 230 generates a notification to prevent ventilation.

The pollutant notification unit 230 generates air quality information based on fine dust (PM10) and ultrafine dust (PM2.5). The pollutant notification unit 230 generates indoor air quality information based on CO ₂ and TVOC. The pollutant notification unit 230 generates a ventilation time based on at least one of humidity, temperature, and noise.

The pollutant notification unit 230 calculates the exposure amount for the fine dust PM10 based on the average measurement of the fine dust PM10 for a preset time, the preset time, and the amount of respiration of a person per hour. The pollutant notification unit 230 calculates the exposure amount for TVOC based on the TVOC measurement average value, the preset time, and the amount of respiration of a person per hour for a preset time. The pollutant notification unit 230 calculates the exposure amount for CO ₂ based on the average value of CO ₂ measurement during a preset time, a preset time, and a person's respiration per hour.

The pollutant notification unit 230 compares the exposure amount to the fine dust PM10, the exposure amount to TVOC, and the exposure amount to CO ₂ with a reference value in order of priority, and determines whether to ventilate.

Contaminants notification unit 230 fine dust (PM10) exposure, exposure to TVOC, the first threshold dosage is preset both for the CO ₂ (PM10 about: 540 μg, TVOC: 2,880 ug , CO 2: 7,200 mg), the ventilation time is determined so that the exposure amount is reduced to a preset first level (eg, 75%). Contaminants notification unit 230 is the second threshold value the exposure amount, exposure to CO ₂ on the dosage, TVOC for fine dust (PM10) preset all (PM10: 405 μg, TVOC: 2,160 ug, CO 2: 5,400 mg ) Is exceeded, the ventilation time is determined so that the exposure amount is reduced to a preset second level (eg, 50%). Contaminants notification unit 230, the third threshold value the exposure amount for the dosage, dosage, CO ₂ for TVOC for fine dust (PM10) preset all (PM10: 270 μg, TVOC: 1,440 ug, CO 2: 3,600 mg ), the ventilation time is determined so that the exposure amount is reduced to a preset third level (eg, 30%).

The user specifying unit 240 specifies a specific user based on device identification information possessed by the specific user through short-range communication.

When a specific user enters the adjacent area, the cumulative exposure amount calculating unit 250 calculates the accumulated exposure amount of contamination for a specific user. The cumulative exposure amount calculation unit 250 allows a specific user to enter the adjacent area and continuously In the case of exposure to pollutants, the cumulative exposure to pollution is calculated.

The cumulative exposure amount calculating unit 250 recognizes the specific user entering a specific area while pairing with a device possessed by a specific user. The cumulative exposure amount calculating unit 250 checks a distance from a device possessed by a specific user using the strength of a short-range communication signal and a GPS signal received from a device possessed by a specific user. The cumulative exposure amount calculation unit 250 generates pollution degree information by applying different weights of the concentration of pollutants according to the separation distance.

3 is a flowchart illustrating a method of comparing pollution degree information with each reference value according to the present embodiment.

The pollutant exposure measurement device 100 receives thresholds (X, Y, Z) for each of the exposure amount to the fine dust (PM10), the exposure amount to TVOC, and the exposure amount to CO ₂ through external or internal input (S308) .

In step S308, the pollutant exposure measurement apparatus 100 receives the fine dust (PM10) threshold (X), TVOC threshold (Y), and CO ₂ threshold (Z) as external or internal inputs.

The pollutant exposure measurement device 100 includes a first threshold (eg, PM10: 540 μg), a second threshold (eg, PM10: 405 μg), and a third threshold (eg, PM10) as the threshold value X. : 270 μg) can be input.

The pollutant exposure measurement device 100 is a TVOC threshold Y as a first threshold (eg, TVOC: 2,880 ug), a second threshold (eg, TVOC: 2,160 ug), and a third threshold (eg, TVOC: 1,440 ug) Can be input.

The pollutant exposure measurement device 100 includes a first threshold (eg, CO ₂ : 7,200 mg), a second threshold (eg, CO ₂ : 5,400 mg), and a third threshold (eg, CO ₂ ) as the CO ₂ threshold (Z). : 3,600 mg) can be entered.

The pollutant exposure measurement device 100 measures the current fine dust (PM10) concentration, TVOC concentration, and CO ₂ concentration indoors and outdoors (S310).

The pollutant exposure measurement apparatus 100 checks whether the measured current fine dust PM10 concentration is greater than or equal to the fine dust PM10 threshold X (PM10 ≥ X μg) (S320).

In step S320, the pollutant exposure amount measuring device 100 determines whether the measured current fine dust PM10 concentration is greater than or equal to the first fine dust PM10 threshold value X as the fine dust PM10 threshold value X. Confirm.

In step S320, when the measured current fine dust (PM10) concentration is less than the first fine dust (PM10) threshold value (540 μg), the pollutant exposure amount measuring device 100 performs a system cleaning and a preset time has elapsed ( S350), again, it is checked whether the current fine dust PM10 concentration is greater than or equal to the fine dust PM10 second fine dust PM10 threshold (405 μg).

In step S320, when the measured current fine dust (PM10) concentration is less than the second fine dust (PM10) threshold value (405 μg), the pollutant exposure amount measuring device 100 performs system cleaning and a preset time has elapsed ( S350), again, it is checked whether the current fine dust PM10 concentration is more than the fine dust PM10 and the third fine dust PM10 threshold (270 μg).

In step S320, when the measured current fine dust (PM10) concentration is greater than or equal to the fine dust (PM10) threshold (X), the pollutant exposure amount measuring device 100 determines whether the measured current TVOC concentration is greater than or equal to the TVOC threshold (Y) Check (TVOC ≥ Y μg) (S330).

In step S330, the pollutant exposure measurement apparatus 100 checks whether the measured current TVOC concentration is equal to or greater than the first TVOC threshold (2,880 ug) as the TVOC threshold (Y).

In step S330, when the measured current TVOC concentration is less than the first TVOC threshold (2,880 ug), the pollutant exposure amount measuring device 100 performs system cleaning and then a preset time elapses (S350), the measured current Check if the TVOC concentration is above the second TVOC threshold (2,160 ug).

In step S330, when the measured current TVOC concentration is less than the second TVOC threshold (2,160 ug), the pollutant exposure amount measuring device 100 performs system cleaning and then a preset time elapses (S350), the measured current Check if the TVOC concentration is above the 3rd TVOC threshold (1,440 ug).

In step S330, when the measured current TVOC concentration is equal to or greater than the TVOC threshold (Y), the pollutant exposure amount measuring device 100 checks whether the measured current CO ₂ concentration is equal to or greater than the CO ₂ threshold (Z) (CO ₂ ≥ Z μg) (S340).

In step S330, the pollutant exposure amount measuring apparatus 100 checks whether the measured current CO ₂ concentration is the first CO ₂ threshold value (7,200 mg) or more as the CO ₂ threshold value (Z).

In step S330, when the measured current CO ₂ concentration is less than the first CO ₂ threshold (7,200 mg), the pollutant exposure amount measuring device 100 performs system cleaning and then measures again when a preset time elapses (S350). Check that the current CO ₂ concentration is above the second CO ₂ threshold (5,400 mg).

In step S330, when the measured current CO ₂ concentration is less than the second CO ₂ threshold (5,400 mg), the pollutant exposure amount measuring device 100 performs system cleaning and then measures again when a preset time elapses (S350). Check that the current CO ₂ concentration is above the 3rd CO ₂ threshold (3,600 mg).

As a result of confirming in step S320, the measured current fine dust (PM10) concentration is less than the fine dust (PM10) threshold (X), or as a result of confirming in step S330, the measured current TVOC concentration is less than the TVOC threshold (Y), or step S340 As a result of confirming, when the measured current CO ₂ concentration is less than the CO ₂ threshold (Z), the pollutant exposure measurement device 100 performs the system cleaning and then the corresponding step (S320, S330, S340) when a preset time elapses. Try again.

As a result of checking in step S320, the measured current fine dust (PM10) concentration is greater than or equal to the fine dust (PM10) threshold (X), or as a result of checking in step S330, the measured current TVOC concentration is greater than or equal to the TVOC threshold (Y), step S340 As a result of confirming, when the measured current CO ₂ concentration is above the CO ₂ threshold (Z), the pollutant exposure measurement device 100 applies fine dust (PM10), TVOC, and CO ₂ to a preset algorithm, Pollutant exposure information, which is the degree of exposure to pollutants for a set period (eg, all day), is output.

In FIG. 3, steps S310 to S350 are described as sequentially executing, but are not limited thereto. In other words, since it is possible to change and execute the steps illustrated in FIG. 3 or execute one or more steps in parallel, FIG. 3 is not limited to a time series order.

As described above, the method of comparing the pollution degree information with each reference value according to the present embodiment illustrated in FIG. 3 may be implemented as a program and recorded on a computer-readable recording medium. A program for implementing a method of comparing pollution degree information with each reference value according to the present embodiment is recorded, and the computer-readable recording medium includes all types of recording devices storing data that can be read by a computer system.

4 is a flowchart illustrating a method of measuring an exposure amount of pollutants indoors and outdoors according to the present embodiment.

The pollutant exposure amount measuring device 100 continuously measures the concentration of pollutants indoors and outdoors to generate pollution level information (S410).

The pollutant exposure measurement device 100 extracts current fine dust PM10, Total Volatile Organic Compounds (TVOC), and CO ₂ from the measured pollution level information (S420).

In step S420, the pollutant exposure amount measuring device 100 additionally extracts ultrafine dust (PM2.5), humidity, temperature, and noise included in the pollution degree information.

The pollutant exposure measurement device 100 applies fine dust (PM10), TVOC, and CO ₂ to a preset algorithm to obtain pollutant exposure information, which is the degree to which a specific user has been exposed to pollutants for a preset period (e.g., all day). Output (S430).

The pollutant exposure measurement apparatus 100 accumulates and quantifies the degree of continuous exposure of a specific user to each of the fine dust (PM10), TVOC, and CO ₂ for a preset period (eg, one day). The pollutant exposure measurement device 100 outputs whether a specific user is at risk for continuous exposure to each of the fine dust PM10, TVOC, and CO ₂ based on the numerical information (S440).

The pollutant exposure measurement device 100 generates outdoor air quality information based on fine dust PM10 and the ultrafine dust PM2.5. The pollutant exposure measurement device 100 generates indoor air quality information based on CO ₂ and Total Volatile Organic Compounds (TVOC). The pollutant exposure measurement apparatus 100 determines whether to ventilate based on at least one of outdoor air quality information, indoor air quality information, humidity, temperature, and noise. The pollutant exposure amount measuring apparatus 100 generates a notification not to ventilate when the pollution degree of indoor air quality information is higher than that of outdoor air quality information.

The pollutant exposure measurement device 100 generates air quality information based on fine dust (PM10) and ultrafine dust (PM2.5). The pollutant exposure measurement device 100 generates indoor air quality information based on CO ₂ and Total Volatile Organic Compounds (TVOC). The pollutant exposure measurement apparatus 100 generates a ventilation time based on at least one of humidity, temperature, and noise (S450).

The pollutant exposure amount measuring apparatus 100 calculates the exposure amount for the fine dust PM10 based on the average value of the measurement of the fine dust PM10 for a preset time, the preset time, and the amount of respiration of a person per hour. The pollutant exposure measurement device 100 calculates the exposure amount to TVOC based on the TVOC measurement average value, the preset time, and the amount of respiration per hour for a preset time. The pollutant exposure measurement device 100 calculates the exposure amount for CO ₂ based on the average value of CO ₂ measurement during a preset time, a preset time, and a person's respiration per hour.

The pollutant exposure measurement apparatus 100 determines whether to ventilate by comparing with a reference value in order of priority of the exposure amount to the fine dust (PM10), the exposure amount to TVOC, and the exposure amount to CO ₂ .

The pollutant exposure measurement device 100 includes a first threshold (PM10: 540 μg, TVOC: 2,880 ug, CO ₂₎ all of which are exposed to fine dust (PM10), to TVOC, and to the CO ₂ . 7,200 mg), the ventilation time is determined so that the exposure is reduced to a preset first level (eg, 75%).

Contaminants dosage measuring apparatus 100 includes a dosage of the fine dust (PM10), exposure for the TVOC, the second threshold value (PM10 preset all of the dosage of the _{CO 2: 405 μg, TVOC:} 2,160 ug, CO 2: 5,400 mg), the ventilation time is determined so that the exposure amount is reduced to a preset second level (eg, 50%).

Contaminants dosage measuring apparatus 100 includes a dosage of the fine dust (PM10), exposure for the TVOC, third threshold value (PM10 preset all of the dosage of the _{CO 2: 270 μg, TVOC:} 1,440 ug, CO 2: 3,600 mg), the ventilation time is determined so that the exposure amount is reduced to a preset third level (eg, 30%).

The pollutant exposure measurement apparatus 100 specifies a specific user based on device identification information possessed by a specific user through short-range communication. When a specific user enters an adjacent area, the pollutant exposure amount measuring apparatus 100 calculates a cumulative pollution exposure amount for a specific user (S460).

The pollutant exposure measurement device 100 is a specific user entering the adjacent area and continuously In the case of exposure to pollutants, the cumulative exposure to pollution is calculated.

The pollutant exposure measurement apparatus 100 recognizes the specific user entering a specific area while pairing with a device possessed by a specific user. The pollutant exposure measurement apparatus 100 checks a distance from a device possessed by a specific user using the strength of a short-range communication signal and a GPS signal received from a device possessed by a specific user. The cumulative exposure amount calculation unit 250 generates pollution degree information by applying different weights of the concentration of pollutants according to the separation distance.

In FIG. 4, steps S410 to S460 are described as sequentially executing, but are not limited thereto. In other words, since the steps described in FIG. 4 may be changed and executed or one or more steps may be executed in parallel, FIG. 4 is not limited to a time series order.

As described above, the method of measuring the exposure amount of pollutants indoors and outdoors according to the present embodiment illustrated in FIG. 4 may be implemented as a program and recorded on a computer-readable recording medium. A program for implementing the method of measuring the exposure of pollutants indoors and outdoors according to this embodiment is recorded, and the computer-readable recording medium includes all types of recording devices storing data that can be read by a computer system. Include.

The above description is merely illustrative of the technical idea of the present embodiment, and those of ordinary skill in the technical field to which the present embodiment belongs will be able to make various modifications and variations without departing from the essential characteristics of the present embodiment. Accordingly, the present exemplary embodiments are not intended to limit the technical idea of the present exemplary embodiment, but are illustrative, and the scope of the technical idea of the present exemplary embodiment is not limited by these exemplary embodiments. The scope of protection of this embodiment should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present embodiment.

100: pollutant exposure measurement device
210: measuring unit 220: extraction unit
230: pollutant notification unit 240: user specific unit
250: cumulative exposure amount calculation unit

Claims (12)

A measuring unit that continuously measures the concentration of indoor and outdoor pollutants to generate pollution degree information;
An extraction unit for extracting current fine dust (PM10), TVOC (Total Volatile Organic Compounds), and CO ₂ from the pollution level information; And
By applying the fine dust (PM10), the TVOC, and the CO ₂ to a preset algorithm to output pollutant exposure information, which is the degree that a specific user has been exposed to pollutants for a preset period, a specific user A user specifying unit specifying the specific user based on device identification information possessed; And
When the specific user enters the adjacent area, including a cumulative exposure amount calculating unit for calculating the accumulated exposure amount of pollution for the specific user,
Recognizing the specific user entering a specific area based on the device identification information while pairing with a device possessed by the specific user,
Using the strength of a short-range communication signal and a GPS signal received from the device possessed by the specific user to check the separation distance from the device possessed by the specific user,
The pollution degree information is generated by applying different weights of the concentration of the pollutant according to the separation distance,
The pollutant notification unit
The weight of the concentration of the pollutant is compared with the reference value in the order of priority of the exposure to the fine dust (PM10), the exposure to the TVOC, and the exposure to CO ₂ according to the pollution degree information applied differently according to the separation distance. Determine whether to ventilate,
When the exposure to the fine dust (PM10), the exposure to the TVOC, and the exposure to CO ₂ all exceed the threshold, the ventilation time is determined so that the exposure is reduced to a preset level, and the fine dust (PM10) When any one of the exposure amount to, the exposure to TVOC, and the exposure to CO ₂ is less than or equal to a threshold, system cleaning is performed. delete The method of claim 1,
The pollutant notification unit,
The specific user accumulates and quantifies the degree of continuous exposure to each of the fine dust (PM10), the TVOC, and the CO ₂ for a preset period, and based on the numerical information, the specific user ), the TVOC, the pollutant exposure measurement device, characterized in that outputting the risk of continuous exposure to each of the CO ₂ . The method of claim 1,
The extraction unit additionally extracts ultrafine dust (PM2.5), humidity, temperature, and noise included in the pollution degree information,
The pollutant notification unit generates outdoor air quality information based on the fine dust (PM10) and the ultrafine dust (PM2.5), generates indoor air quality information based on the CO ₂ and the TVOC, and generates the outdoor air quality information. Air quality information, the indoor air quality information, the humidity, the temperature, the pollutant exposure measurement device, characterized in that determining whether to ventilate based on at least one or more of the noise. The method of claim 4,
The pollutant notification unit,
When the pollution degree of the indoor air quality information is higher than the pollution degree of the outdoor air quality information, the pollutant exposure amount measuring apparatus is configured to generate a notification not to ventilate. The method of claim 4,
The pollutant notification unit,
Air quality information is generated based on the fine dust (PM10) and the ultrafine dust (PM2.5), and indoor air quality information is generated based on the CO ₂ and TVOC, and the humidity, the temperature, and the noise Pollutant exposure measurement device, characterized in that generating a ventilation time based on at least one or more of. The method of claim 4,
The pollutant notification unit,
The exposure amount for the fine dust (PM10) is calculated based on the average value of the fine dust (PM10) measurement during a preset time, the preset time, and the amount of human breathing per hour, and the average TVOC measurement during the preset time, the preset time, and the person per hour The exposure amount to the TVOC is calculated based on the respiration volume of, and the exposure amount to the CO ₂ is calculated based on the average value of CO ₂ measurement for a preset time, a preset time, and the amount of human respiration per hour. Measuring device. The method of claim 7,
The pollutant notification unit
The exposure to the fine dust (PM10), the exposure to the TVOC, and the exposure to the CO ₂ in order of priority compared with the reference value to determine whether to ventilate,
When the exposure to the fine dust (PM10), the exposure to TVOC, and the exposure to CO ₂ all exceed a preset first threshold, a ventilation time is determined so that the exposure is reduced to a preset first level,
When the exposure to the fine dust (PM10), the exposure to TVOC, and the exposure to CO ₂ all exceed a preset second threshold, a ventilation time is determined so that the exposure is reduced to a preset second level,
When the exposure to the fine dust (PM10), the exposure to the TVOC, and the exposure to the CO ₂ all exceed a preset third threshold, determining the ventilation time so that the exposure is reduced to a preset third level. Pollutant exposure measurement device characterized by. delete The method of claim 1,
The cumulative exposure amount calculation unit
The specific user enters the adjacent area and the specific user continues for an allowable time (t) When exposed to pollutants, the pollutant exposure amount measuring device, characterized in that calculating the accumulated exposure amount of the pollution. delete Generating pollution level information by continuously measuring indoor and outdoor pollutant concentrations;
Extracting current fine dust (PM10), TVOC (Total Volatile Organic Compounds), and CO ₂ from the pollution level information;
Specifying the specific user based on device identification information possessed by the specific user through short-range communication;
A process of calculating a cumulative exposure amount for the specific user when the specific user enters an adjacent area; And
A process of outputting pollutant exposure information, which is a degree of exposure to pollutants by a specific user for a preset period by applying the fine dust, the TVOC, and the CO ₂ to a preset algorithm,
In the process of specifying the specific user, while pairing with the device possessed by the specific user, based on the device identification information, the specific user who has entered a specific area is recognized, and short-range communication received from the device possessed by the specific user Check the separation distance from the device possessed by the specific user using signal strength and GPS signal,
In the process of calculating the accumulated exposure amount, the pollution degree information is generated by applying different weights of the concentration of the pollutant according to the separation distance,
In the process of outputting the pollutant exposure information,
The weight of the concentration of the pollutant is compared with the reference value in the order of priority of the exposure to the fine dust (PM10), the exposure to the TVOC, and the exposure to CO ₂ according to the pollution degree information applied differently according to the separation distance. Determine whether to ventilate,
When the exposure to the fine dust (PM10), the exposure to the TVOC, and the exposure to CO ₂ all exceed the threshold, the ventilation time is determined so that the exposure is reduced to a preset level, and the fine dust (PM10) When any of the exposure amount to, the exposure to TVOC, and the exposure to CO ₂ is less than or equal to a threshold value, system cleaning is performed.

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