WO2019167713A1 - Air pollution display terminal - Google Patents

Abstract

An air pollution display terminal (100) is provided with a main body housing (102), a position acquiring unit (110) for acquiring position information indicating the current location of the main body housing (102), a published value acquiring unit (122) for acquiring an atmospheric pollution published value for a region including the current location, a pollution sensor (130) for measuring a first pollution value indicating the pollution state of air surrounding the current location, and a display unit (150) for displaying the first pollution value and the atmospheric pollution published value, the position acquiring unit (110), the published value acquiring unit (122), the pollution sensor (130), and the display unit (150) being integrated with the main body housing (102).

Description

Air pollution display terminal

The present invention relates to an air pollution display terminal.

For example, in Patent Document 1, environmental information such as exhaust gas information observed in many areas is distributed, and a driving support system that searches for a comfortable driving route by acquiring the distributed environmental information is disclosed. It is disclosed.

JP 2009-229397 A

However, in the above-described conventional technology, the reliability of the distributed environmental information is not necessarily high. For example, the environmental information of a certain area is environmental information at a predetermined observation point included in the area, and therefore may be different from the environmental information at a position away from the observation point in the area. For this reason, the case where the actual environmental condition cannot be represented correctly, such as the case where local air pollution has generate | occur | produced, may occur.

Therefore, an object of the present invention is to provide an air pollution display terminal capable of presenting a highly reliable air pollution situation.

In order to achieve the above object, an air pollution display terminal according to an aspect of the present invention includes a main body casing, a position acquisition unit that acquires position information indicating the current location of the main body casing, and the atmosphere of a region including the current position. A published value acquisition unit for obtaining a published pollution value, a first sensor for measuring a first pollution value indicating a pollution state of air around the current location, the first pollution value and the published air pollution value are displayed. A display unit, and the position acquisition unit, the published value acquisition unit, the first sensor, and the display unit are integrated with the main body housing.

The air pollution display terminal according to the present invention can present a highly reliable air pollution status.

Drawing 1 is a mimetic diagram for explaining an example of a use situation of an air pollution display terminal concerning an embodiment. FIG. 2 is a block diagram illustrating a configuration of an air pollution display system including an air pollution display terminal according to the embodiment. FIG. 3 is a diagram illustrating an example of an image for presenting the pollution status displayed on the air pollution display terminal according to the embodiment. FIG. 4 is a diagram illustrating an example of an image for inputting a point different from the current location displayed on the air pollution display terminal according to the embodiment. FIG. 5 is a diagram illustrating an example of an image indicating an air pollution announcement value displayed on the air pollution display terminal according to the embodiment. FIG. 6 is a diagram illustrating an example of an image indicating a predicted value of air pollution displayed on the air pollution display terminal according to the embodiment.

Hereinafter, the air pollution display terminal according to the embodiment of the present invention will be described in detail with reference to the drawings. Each of the embodiments described below shows a specific example of the present invention. Therefore, numerical values, shapes, materials, components, arrangement and connection forms of components, steps, order of steps, and the like shown in the following embodiments are merely examples, and are not intended to limit the present invention. Therefore, among the constituent elements in the following embodiments, constituent elements not described in the independent claims are described as arbitrary constituent elements.

Each figure is a schematic diagram and is not necessarily shown strictly. Therefore, for example, the scales and the like do not necessarily match in each drawing. Moreover, in each figure, the same code | symbol is attached | subjected about the substantially same structure, The overlapping description is abbreviate | omitted or simplified.

(Embodiment)
[Overview]
First, the use situation of the air pollution display terminal which concerns on embodiment is demonstrated using FIG. FIG. 1 is a schematic diagram for explaining an example of a usage situation of the air pollution display terminal 100 according to the present embodiment.

As shown in FIG. 1, the air pollution display terminal 100 according to the present embodiment is portable by a user U, for example. Specifically, the air pollution display terminal 100 has the same size and weight as a mobile phone, a smartphone, a tablet terminal, or the like, and can be freely carried by the user U with one hand or both hands.

Note that the size and weight of the air pollution display terminal 100 are not particularly limited. The air pollution display terminal 100 may not be portable. For example, the air pollution display terminal 100 may be a display terminal provided on a wall or the like.

FIG. 1 shows that the user U is present in the indoor space 90 and is operating the air pollution display terminal 100. The indoor space 90 is, for example, the living space, learning space, or office space of the user U, but is not limited thereto. The indoor space 90 is an indoor space of a building or a moving body such as a train or a car.

In the indoor space 90, for example, an air purification device 40 and an air conditioner 42 are arranged. The air environment of the indoor space 90 can be adjusted by operating the air purification device 40 and the air conditioner 42.

The air purification device 40 is an air purifier that removes contaminants in the air or a hypochlorous acid generator that has a sterilizing or bactericidal action. For example, the air purification device 40 removes particulate matter such as PM (Particulate Matter) 2.5. In the present embodiment, the air purification device 40 is provided with an indoor sensor 50.

The air conditioner 42 adjusts the temperature, humidity, airflow, and the like of the indoor space 90. The air conditioner 42 may perform exchange (that is, ventilation) between outside air (atmosphere) that is air outside the indoor space 90 and air inside the indoor space 90.

In the indoor space 90, a door 92 and a window 94 connected to the outdoors are provided. For example, ventilation can be performed by opening the door 92 or the window 94.

Although details will be described later, the air pollution display terminal 100 displays the air pollution announcement value of the area including the current location and the pollution value acquired by each sensor. The user U can determine, for example, whether or not ventilation is performed, whether the laundry is to be dried outdoors or indoors, or when to go out by confirming the displayed air pollution announcement value or the like. it can. In addition, the user U can determine whether or not to wear a mask when going out, or a route to a destination when going out. Alternatively, the user U can determine whether the air purification device 40 or the air conditioner 42 is on or off or the operation mode.

As described above, the air pollution display terminal 100 according to the present embodiment provides the user U with information on air pollution as a determination material when the user U performs a predetermined action.

[Air pollution display system]
Then, the structure of the air pollution display system which concerns on this Embodiment is demonstrated using FIG.

FIG. 2 is a block diagram showing a configuration of the air pollution display system 10 according to the present embodiment. As shown in FIG. 2, the air pollution display system 10 includes a distribution server 20, an outdoor sensor 30, an air purification device 40, an indoor sensor 50, and an air pollution display terminal 100.

The distribution server 20 is a server device that distributes the air pollution announcement value. The distribution server 20 is managed by an administrator such as a government, a local government, or a specialized organization, and the pollution value measured by each of a plurality of pollution sensors installed at a plurality of locations in a management area managed by the administrator is air pollution. Delivered as a published value. The management area is divided into a plurality of regions for each installed contamination sensor. Published air pollution values are managed on a regional basis.

The distribution server 20 can communicate with the air pollution display terminal 100. The distribution server 20 transmits the air pollution announcement value to the air pollution display terminal 100 in response to a request from the air pollution display terminal 100.

Specifically, the air pollution published value is at least one published value of the mass concentration of the particulate matter, the concentration of the gas contained in the air pollutant, and the air quality index. The particulate matter includes PM0.1, PM2.5, PM10, SPM (Suspended Particulate Matter), TPM (Total Particulate Matter), and the like. The gases include sulfur dioxide (SO ₂ ), nitric oxide (NO), nitrogen dioxide (NO ₂ ), nitrogen oxide (NOx), carbon monoxide (CO), carbon dioxide (CO ₂ ), photochemical oxidant (Ox ), Ozone (O ₃ ), volatile organic compounds (VOC), and the like. The air quality index includes AQI (Air Quality Index), AQHI (Air Quality Health Index), CAQI (Common Air Quality Index), API (Air Pollution Index), and the like.

Further, the distribution server 20 may distribute not only the air pollution announcement value but also weather information. The weather information includes at least one of the weather, temperature, humidity, precipitation (or snowfall), wind direction, air volume, and the like. One distribution server 20 may distribute the air pollution announcement value and the weather information, and two or more different distribution servers 20 may distribute the air pollution announcement value or the weather information, respectively.

The outdoor sensor 30 is an example of a second sensor that is provided separately from the air pollution display terminal 100 and measures a second pollution value that indicates the pollution state of air around the provided position. The outdoor sensor 30 can communicate with the air pollution display terminal 100, and transmits the measured second pollution value to the air pollution display terminal 100 as an outdoor sensor value.

The outdoor sensor 30 measures an index value indicating the amount of contaminant contained in the outside air (atmosphere) as an outdoor sensor value. Specifically, the outdoor sensor 30 measures at least one of the mass concentration of the particulate matter, the concentration of the gas contained in the air pollutant, and the air quality index. The particulate matter, gas, and air quality index here are all the same as the air pollution published values. The outdoor sensor 30 measures, for example, the same kind of pollution value as the air pollution announcement value published by the national or local government, or a specialized organization.

The outdoor sensor 30 is arranged outdoors. As shown in FIG. 1, the outdoor sensor 30 is disposed outside the indoor space 90, for example, outside the window 94. The arrangement position of the outdoor sensor 30 is not particularly limited as long as it is outdoor. Moreover, the some outdoor sensor 30 may be arrange | positioned in the outdoor different position.

The indoor sensor 50 is an example of a second sensor that is provided separately from the air pollution display terminal 100 and measures a second pollution value indicating the pollution state of the air around the provided position. The indoor sensor 50 can communicate with the air pollution display terminal 100, and transmits the measured second pollution value to the air pollution display terminal 100 as an indoor sensor value.

Specifically, the indoor sensor 50 measures at least one of the mass concentration of the particulate matter, the concentration of the gas contained in the air pollutant, and the air quality index. The particulate matter, gas, and air quality index here are all the same as the air pollution published values. The indoor sensor 50 measures, for example, the same kind of pollution value as the air pollution announcement value published by the national or local government or a specialized organization.

The indoor sensor 50 is disposed indoors. As illustrated in FIG. 1, the indoor sensor 50 is provided in the indoor space 90, for example, in the air purification device 40. The arrangement position of the indoor sensor 50 is not particularly limited as long as it is indoors. Moreover, the some indoor sensor 50 may be arrange | positioned in the indoor different position.

As shown in FIG. 2, the air pollution display terminal 100 includes a main body housing 102, a position acquisition unit 110, a communication unit 120, a contamination sensor 130, a control unit 140, a display unit 150, and a reception unit 160. With.

In the present embodiment, the position acquisition unit 110, the communication unit 120, the contamination sensor 130, the control unit 140, the display unit 150, and the reception unit 160 are integrated with the main body housing 102. For example, the position acquisition unit 110, the communication unit 120, the contamination sensor 130, the control unit 140, the display unit 150, and the reception unit 160 are housed inside the main body housing 102. Note that the display surface of the display unit 150 is arranged to be visible at least from the outside. Further, for example, the contamination sensor 130 may have an air intake port and an exhaust port exposed to the outside of the main body housing 102.

The main body casing 102 is an outer casing of the air pollution display terminal 100. The shape of the main body housing 102 is, for example, a flat and substantially rectangular parallelepiped like a smartphone or a tablet terminal, but is not limited thereto. The main body housing 102 may have a gripping part that is gripped by the user U so that it can be easily carried.

The position acquisition unit 110 acquires position information indicating the current location of the main body housing 102. The position information indicates, for example, the latitude and longitude of the current location. In addition, when the indoor space 90 is one room of a high-rise building, or when the indoor space 90 is a basement, the situation of air pollution may be different between the vicinity of the ground and the upper layer or the basement. For this reason, the position information may include floor information indicating the number of floors.

The position acquisition unit 110 is realized by, for example, a GPS (Global Positioning System) receiver. The position acquisition unit 110 may be realized by a touch panel display and a wireless communication module. Specifically, the touch panel display displays a GUI (Graphical User Interface) image that allows the user U to input the location name of the current location, and the wireless communication module communicates with the distribution server 20 or the like, so that the latitude of the input location name and Position information indicating longitude may be acquired.

The communication unit 120 is realized by, for example, a wireless communication module that performs wireless communication. Alternatively, the communication unit 120 may perform wired communication. The communication unit 120 may be realized by a communication interface to which a detachable wired cable can be connected. For example, when acquiring a sensor value from the indoor sensor 50, a detachable wired cable is connected to the communication unit 120, and when the air pollution display terminal 100 is taken outdoors, the wired cable may be removed.

The communication unit 120 includes a published value acquisition unit 122 and a contamination value acquisition unit 124, as shown in FIG.

The published value acquisition unit 122 acquires the published air pollution value of the area including the current location. Specifically, the announced value acquisition unit 122 acquires the air pollution announced value from the distribution server 20 by communicating with the distribution server 20.

For example, the published value acquisition unit 122 transmits a request for the published air pollution value of the area including the current location indicated by the location information acquired by the location acquisition unit 110 to the distribution server 20. In response to the request, the distribution server 20 transmits the air pollution announcement value of the area including the current location to the air pollution display terminal 100. The announced value acquisition unit 122 acquires the transmitted air pollution announced value.

The announced value acquisition unit 122 may further acquire the air pollution announced value of the point indicated by the point information acquired by the receiving unit 160. For example, the published value acquisition unit 122 may transmit a request including the spot information to the distribution server 20 and acquire the published air pollution value of the area indicated by the spot information as a response to the request.

The announced value acquisition unit 122 may acquire the air pollution announced value by a plurality of means. For example, the announced value acquisition unit 122 may acquire the air pollution announced value from the plurality of distribution servers 20 by requesting the plurality of distribution servers 20. The announced value acquisition unit 122 may not directly communicate with the distribution server 20, and may acquire the air pollution announced value via a smartphone, a tablet terminal, or a personal computer owned by the user U, for example. .

Further, the published value acquisition unit 122 may acquire weather information of a region including the current location. For example, the published value acquisition unit 122 may acquire a published value of the wind direction and air volume in the area including the current location.

The pollution value acquisition unit 124 acquires a pollution value measured by a pollution sensor provided separately from the air pollution display terminal 100. In the present embodiment, the contamination value acquisition unit 124 acquires a contamination value from each of the outdoor sensor 30 and the indoor sensor 50.

Specifically, the contamination value acquisition unit 124 acquires the contamination value measured by the outdoor sensor 30 from the outdoor sensor 30 as an outdoor sensor value by communicating with the outdoor sensor 30. Further, the contamination value acquisition unit 124 acquires the contamination value measured by the indoor sensor 50 as an indoor sensor value by communicating with the indoor sensor 50. In the present embodiment, since the indoor sensor 50 is provided in the air purification device 40, the contamination value acquisition unit 124 communicates with the air purification device 40 and is measured by the indoor sensor 50 via the air purification device 40. The contamination value obtained may be obtained.

The contamination sensor 130 is an example of a first sensor that measures a first contamination value indicating a contamination state of air around the current location. The contamination sensor 130 measures an index value indicating the amount of contaminant contained in the air around the air pollution display terminal 100 as a sensor value. Specifically, the pollution sensor 130 measures at least one of the mass concentration of the particulate matter, the concentration of the gas contained in the air pollutant, and the air quality index. The particulate matter, gas, and air quality index here are all the same as the air pollution published values. The pollution sensor 130 measures, for example, the same kind of pollution value as the air pollution announcement value published by the national or local government, or a specialized organization. Since the contamination sensor 130 is integrated with the main body housing 102, the contamination value indicating the outdoor contamination state and the contamination value indicating the indoor contamination state are acquired according to the location where the main body housing 102 exists. can do.

The contamination sensor 130 measures the contamination value at the timing when the operation by the user U is received. For example, at the timing when the user U requests display of the air pollution announcement value on the display unit 150, the pollution sensor 130 measures the pollution value. Thereby, not only the air pollution announcement value but also the latest pollution value around the air pollution display terminal 100, that is, the actual measurement value by the sensor is displayed on the display unit 150.

The control unit 140 controls each processing unit provided in the air pollution display terminal 100. For example, the control unit 140 generates an image including the air pollution announcement value acquired by the announcement value acquisition unit 122 and the sensor value acquired by the pollution value acquisition unit 124, and causes the display unit 150 to display the generated image.

The control unit 140 is realized by, for example, a nonvolatile memory in which a program is stored, a volatile memory that is a temporary storage area for executing the program, an input / output port, and a processor that executes the program. Each of the time acquisition unit 142, the distance acquisition unit 144, and the prediction unit 146 included in the control unit 140 may be implemented by software executed by a processor, or implemented by hardware such as an electronic circuit including a plurality of circuit elements. Also good.

2, the control unit 140 includes a time acquisition unit 142, a distance acquisition unit 144, and a prediction unit 146. Note that the control unit 140 may not include at least one of the time acquisition unit 142, the distance acquisition unit 144, and the prediction unit 146.

The time acquisition unit 142 acquires time information indicating the current time. The time acquisition unit 142 is realized by a timer function of the processor. Alternatively, the time acquisition unit 142 may be realized by a wireless communication module, and may acquire the current time from the time server device.

The distance acquisition unit 144 acquires the distance between the location indicated by the location information acquired by the reception unit 160 and the current location. The point information is, for example, a point different from the current location, and is, for example, a destination where the user U has gone out. The distance obtaining unit 144 obtains the distance by calculating the distance based on the latitude and longitude of the current location and the latitude and longitude of the point indicated by the point information. Alternatively, the distance acquisition unit 144 may be realized by a wireless communication module, and may acquire a distance from the distribution server 20.

The prediction unit 146 predicts the pollution status at a predetermined point based on at least one of the air pollution announcement value and the sensor value. For example, the prediction unit 146 predicts the contamination status at a future time point of the current location. Alternatively, the prediction unit 146 predicts the contamination status at the current or future time point of the point indicated by the point information.

For example, the prediction unit 146 includes an air pollution announcement value, an outdoor sensor value acquired by the outdoor sensor 30, a wind direction and an air volume acquired by the announcement value acquisition unit 122, and a distance acquired by the distance acquisition unit 144. It is used to predict the contamination status at a future point in time indicated by the point information. When the air pollution display terminal 100 is taken out outdoors, the prediction unit 146 may use the sensor value acquired by the pollution sensor 130 instead of the air pollution announcement value and the outdoor sensor value. For example, the prediction unit 146 predicts the contamination status at a predetermined point based on the assumption that a pollutant existing at a predetermined point such as the current location moves in the direction indicated by the wind direction at the same speed as the wind speed. This prediction method is merely an example, and is not particularly limited.

The display unit 150 is realized by, for example, a liquid crystal display device or an organic EL (Electroluminescence) display device. The display unit 150 displays the sensor value acquired by the pollution sensor 130 and the air pollution announcement value. The display unit 150 may display not only the air pollution announcement value of the current location but also the air pollution announcement value of the point indicated by the point information acquired by the reception unit 160.

In the present embodiment, the display unit 150 further displays the outdoor sensor value and the indoor sensor value. Further, the display unit 150 may display the current location, the current time, the wind direction, and the published value of the air volume. The display unit 150 may display the distance to the point indicated by the point information input by the receiving unit 160. The display unit 150 may display the contamination status predicted by the prediction unit 146.

The reception unit 160 is realized by, for example, a touch panel display. At this time, a display common to the display unit 150 can be used.

The accepting unit 160 accepts input of spot information indicating a predetermined spot. For example, the user U inputs a destination when going out. Thereby, the air pollution display terminal 100 can display the air pollution announcement value of the destination, its predicted value, and the like.

[Display example]
Next, an example of an image displayed on the display unit 150 of the air pollution display terminal 100 configured as described above will be described with reference to FIGS.

FIG. 3 is a diagram showing an example of an image for presenting a pollution status displayed on the air pollution display terminal 100 according to the present embodiment.

As shown in FIG. 3, the display unit 150 of the air pollution display terminal 100 simultaneously includes published value information 202 indicating an air pollution published value, indoor sensor value information 204 indicating an indoor sensor value, and Outdoor sensor value information 206 indicating the outdoor sensor value is displayed. In addition, in FIG. 3, the mass concentration of PM2.5 is shown as an example of an air pollution announcement value and each sensor value.

The published value information 202 is an air pollution published value acquired by the published value acquisition unit 122 from the distribution server 20. The published value information 202 indicates an air pollution published value by, for example, a semicircular meter graph. In FIG. 3, the pointer of the meter graph is illustrated by a solid black triangle. Further, the actual numerical value “5 (μg / m ³ )” of the air pollution announcement value is shown in the center of the meter graph.

Similarly, the indoor sensor value information 204 and the outdoor sensor value information 206 indicate each sensor value by a semicircular meter graph. The display format of the air pollution announcement value and each sensor value is not limited to this. Only a numerical value may be displayed or a bar graph may be displayed. Also, the published value information 202, the indoor sensor value information 204, and the outdoor sensor value information 206 may be displayed on one graph.

The indoor sensor value information 204 indicates the indoor sensor value measured by the indoor sensor 50. Alternatively, the indoor sensor value information 204 may indicate a sensor value measured by the pollution sensor 130 when the air pollution display terminal 100 exists indoors.

The outdoor sensor value information 206 indicates the outdoor sensor value measured by the outdoor sensor 30. Alternatively, the outdoor sensor value information 206 may indicate a sensor value measured by the pollution sensor 130 when the air pollution display terminal 100 exists outdoors.

Note that the sensor value measured by the contamination sensor 130 may be displayed separately from the indoor sensor value information 204 and the outdoor sensor value information 206.

Also, the display unit 150 displays time-series information 208 of pollution values and current location status information 210 indicating the status of the current location. The time series information 208 is a graph showing at least one temporal change of the air pollution announcement value, the indoor sensor value, and the outdoor sensor value.

The current location status information 210 indicates the current location, current time, and the published value of the wind direction and volume. For example, the current location is represented by a place name, but may be represented by a latitude and longitude or a map. Further, the current time is represented by a digital clock system, but may be represented by an analog clock system. The published values of the wind direction and the air volume are represented by letters and numerical values, but may be represented by the direction of the arrow on the map and its size.

Moreover, when displaying the air pollution announcement values at a plurality of points, they may be displayed simultaneously on one map. Alternatively, a plurality of screens similar to the screen shown in FIG. 3 may be generated and displayed by switching the screens by scrolling or swiping.

FIG. 4 is a diagram illustrating an example of an image for inputting a point different from the current location displayed on the air pollution display terminal 100 according to the present embodiment.

As shown in FIG. 4, a text box 212 for inputting a place name is displayed on the display unit 150 of the air pollution display terminal 100. In addition, a map 214 is displayed on the display unit 150. For example, the user U may input a predetermined point by designating a predetermined position on the map 214 instead of inputting the text box 212.

In the map 214, a current location identifier 216 indicating the current location and a destination identifier 218 indicating the destination are superimposed and displayed. The current location identifier 216 is represented by a mark having a predetermined shape (for example, a circle) at a position corresponding to the current location acquired by the position acquisition unit 110. The destination identifier 218 is represented by a mark having a predetermined shape (for example, an inverted triangle) at a position where the input is received by the receiving unit 160.

Furthermore, a thick arrow pointing from the current location identifier 216 to the destination identifier 218 is displayed on the map 214. In the vicinity of the arrow, distance information 220 indicating the distance between the current location and the destination is displayed. By representing the current location, the destination, and the distance on the map 214, the viewability by the user U is improved. For example, the user U can visually grasp information to be obtained at a glance. It should be noted that the air pollution announcement value and each sensor value may be superimposed on the map 214 and displayed.

Note that the screen shown in FIG. 3 and the screen shown in FIG. 4 can be switched by, for example, pressing a button 104 provided on the main body housing 102. Alternatively, the selection screen of the display screen may be displayed by pressing the button 104. An icon for each screen may be displayed on the selection screen, and the selected screen may be displayed by selecting the icon. The screen switching method is not particularly limited. The same applies to switching to the screen shown in FIGS.

FIG. 5 is a diagram showing an example of an image showing the air pollution announcement value displayed on the air pollution display terminal 100 according to the present embodiment.

As shown in FIG. 5, a map 222 is displayed on the display unit 150 of the air pollution display terminal 100. The map 222 shows a wider area than the map 214 shown in FIG.

The small circles displayed on the map 222 indicate the air pollution announcement values. Although not shown in FIG. 5, the plurality of circles are colored with one or more colors selected from a plurality of predetermined colors. The plurality of colors are associated one-to-one with a plurality of sections classified according to the size of the air pollution announcement value. In other words, by confirming the color, the approximate value of the published air pollution value for the area can be determined.

In addition, the arrows shown on the map 222 indicate the published values of the wind direction and air volume. The direction of the arrow indicates the wind direction, and the size of the arrow indicates the air volume.

As described above, the display unit 150 may display not only the current location but also the air pollution announcement values at a plurality of points, and the announcement values of the wind direction and the air volume. In addition, as shown in FIG. 5, the display unit 150 may collectively display a wide range of published values including the current location.

FIG. 6 is a diagram showing an example of an image showing a predicted value of air pollution displayed on the air pollution display terminal according to the present embodiment.

As shown in FIG. 6, a map 224 is displayed on the display unit 150 of the air pollution display terminal 100. A map 224 shows the same range as the map 222 shown in FIG. The meanings of the small circles and arrows on the map 224 are the same as the circles and arrows shown in FIG.

The map 224 is a prediction result generated by the prediction unit 146 predicting the air pollution announcement value at each point using, for example, the air pollution announcement value and the wind direction and air volume announcement values. In addition, in FIG. 6, although the prediction result was displayed on the map 224 as an example which shows the prediction result in multiple points, it is not restricted to this. The prediction result may be displayed as a predicted value of only one predetermined point, similarly to the screen shown in FIG.

[Effects, etc.]
As described above, the air pollution display terminal 100 according to the present embodiment includes the main body housing 102, the position acquisition unit 110 that acquires position information indicating the current location of the main body housing 102, and the air pollution in the area including the current location A published value acquisition unit 122 that obtains a published value, a pollution sensor 130 that measures a first pollution value that indicates the state of air pollution around the current location, and a display unit 150 that displays a first pollution value and a published air pollution value. With. The position acquisition unit 110, the published value acquisition unit 122, the contamination sensor 130, and the display unit 150 are integrated with the main body housing 102.

The air pollution display terminal 100 according to the present embodiment includes the pollution sensor 130, so that it is possible to directly determine the surrounding air pollution situation where the air pollution display terminal 100 exists. For this reason, it is also possible to present to the user U the situation of local air pollution that is difficult to judge only by the air pollution announcement value.

Moreover, since the air pollution display terminal 100 displays not only the sensor value but also the air pollution announcement value, the user U can determine the air pollution situation in the area including the current location. For example, when the user U tries to go out of the indoor space 90, the state of outdoor air pollution can be determined by checking the air pollution announcement value without actually going out.

Thus, the air pollution display terminal 100 according to the present embodiment can display both a wide range of air pollution conditions and a local air pollution situation. Thereby, the air pollution display terminal 100 can present a highly reliable air pollution status. Therefore, the user U can determine the details of the action including whether or not to act based on the presented information. In this way, the air pollution display terminal 100 can support the determination of the action of the user U.

In addition, for example, the air pollution display terminal 100 is further provided separately from the air pollution display terminal 100, and the outdoor sensor 30 that measures the second pollution value indicating the pollution state of the air around the provided position or A contamination value acquisition unit 124 that acquires the second contamination value from the indoor sensor 50 is provided. The display unit 150 further displays the second contamination value.

This increases the amount of information presented to the user U, so that the user U can make an accurate determination of behavior. Thus, the air pollution display terminal 100 can support accurate determination of the user U's behavior.

Also, for example, the contamination value acquisition unit 124 acquires the second contamination value from each of at least one outdoor sensor 30 provided outdoors and at least one indoor sensor 50 provided indoors.

Thereby, since the outdoor sensor value and the indoor sensor value are displayed, the user U can determine the difference in the air pollution situation between the outdoor and indoor.

For this reason, for example, when the outdoor sensor value is high and the indoor sensor value is low, the user U can know that the air purification function by the air purification device 40 or the air conditioner 42 is working effectively. Further, since the outdoor sensor value is high, the user U can determine that it is not preferable to open the door 92 or the window 94 for ventilation or to dry the laundry outdoors. Moreover, since the outdoor sensor value is high, the user U can determine that a mask should be worn when going out outdoors.

Also, for example, when both the outdoor sensor value and the indoor sensor value are low, the user U can determine that the air purification function by the air purification device 40 or the air conditioner 42 does not have to be activated. For this reason, energy saving or suppression of deterioration of the purification filter can be realized by stopping the air purification function.

Thus, the air pollution display terminal 100 can support accurate determination of the user U's behavior. As a result, the air pollution display terminal 100 can support the promotion of the health of the user U or energy saving of other home appliances.

Further, for example, at least one indoor sensor 50 provided indoors is provided in the air purification device 40. The contamination value acquisition unit 124 acquires the second contamination value from the indoor sensor 50 provided in the air purification device 40 by communicating with the air purification device 40.

Thereby, since the sensor value is acquired from the indoor sensor 50 provided in the air purification device 40, the existing sensor can be used effectively. For this reason, the cost concerning introduction of a new sensor can also be reduced.

For example, the air pollution display terminal 100 further includes a time acquisition unit 142 that acquires the current time. Display unit 150 further displays the current time and the current location.

Thus, since the current time and the current location are displayed, the contamination value can be managed for each time and location. For this reason, for example, the user U can determine the time or place where air pollution occurs locally.

For example, the air pollution display terminal 100 further includes a receiving unit 160 that receives an input of point information indicating a predetermined point, and a distance acquisition unit 144 that acquires a distance between the point indicated by the point information and the current location. The published value acquisition unit 122 further acquires published values of the wind direction and air volume in the area including the current location. The display unit 150 further displays the published value and distance of the wind direction and volume.

Thus, for example, when the user U inputs a destination to go out, the wind direction, the air volume, and the distance that can be used for predicting the air pollution situation at the destination are displayed. Therefore, based on the displayed information, the user U can determine behavior such as the route to the destination, the time to reach the destination, or whether or not to go to the destination. As described above, the air pollution display terminal 100 according to the present embodiment can support the determination of the action of the user U.

Also, for example, the published value acquisition unit 122 may acquire the air pollution published value by a plurality of means.

As a result, a plurality of published values of air pollution are acquired, so that information presented to the user U increases. Therefore, the user U can make an accurate determination of behavior. Thus, the air pollution display terminal 100 can support accurate determination of the user U's behavior.

In addition, for example, the air pollution display terminal 100 further includes a prediction unit 146 that predicts the pollution status of a predetermined point based on at least one of the air pollution announcement value and the first pollution value measured by the pollution sensor 130. . The display unit 150 displays the contamination status predicted by the prediction unit 146.

Thereby, not only the current time of the current location, but also the status of air pollution at a future time can be presented to the user U, for example. Also, for example, the user U can be presented with the status of air pollution at a different point from the current location at the present or future time. Thus, since a lot of information can be presented to the user U, the air pollution display terminal 100 can support the determination of the action of the user U.

(Other)
As mentioned above, although the air pollution display terminal concerning the present invention was explained based on the above-mentioned embodiment, the present invention is not limited to the above-mentioned embodiment.

For example, the air pollution display terminal 100 may not acquire or display the contamination value from a separate sensor. That is, the air pollution display terminal 100 may not include the pollution value acquisition unit 124.

For example, the contamination value acquisition unit 124 may not acquire sensor values from both the outdoor sensor 30 and the indoor sensor 50, and may acquire sensor values from only one of them.

Further, for example, the display unit 150 may not display at least one of the current location and the current time. For this reason, for example, the control unit 140 may not include the time acquisition unit 142.

For example, the display unit 150 may not display the prediction result of the contamination value. For this reason, for example, the control unit 140 may not include the prediction unit 146. Further, the published value acquisition unit 122 may not acquire the wind direction and the air volume to be used for prediction.

Further, for example, the air pollution display terminal 100 may not include the reception unit 160. That is, it is not necessary to accept the input of point information from the user U. In this case, the control unit 140 may not include the distance acquisition unit 144.

Further, the communication method between apparatuses described in the above embodiment is not particularly limited. When wireless communication is performed between devices, the wireless communication method (communication standard) is, for example, short-range wireless communication such as Zigbee (registered trademark), Bluetooth (registered trademark), or wireless LAN (Local Area Network). is there. Alternatively, the wireless communication method (communication standard) may be communication via a wide area communication network such as the Internet. In addition, wired communication may be performed between devices instead of wireless communication. Specifically, the wired communication is a communication using a power line communication (PLC) or a wired LAN.

In the above embodiment, another processing unit may execute a process executed by a specific processing unit. Further, the order of a plurality of processes may be changed, or a plurality of processes may be executed in parallel. The distribution of the components included in the air pollution display system 10 to a plurality of devices is an example. For example, another device may include a component included in one device. The air pollution display system 10 may be realized as a single device.

For example, the processing described in the above embodiments may be realized by centralized processing using a single device (system), or may be realized by distributed processing using a plurality of devices. Good. The number of processors that execute the program may be one or more. That is, centralized processing may be performed, or distributed processing may be performed.

In the above embodiment, all or a part of the components such as the control unit may be configured by dedicated hardware, or realized by executing a software program suitable for each component. Also good. Each component may be realized by a program execution unit such as a CPU (Central Processing Unit) or a processor reading and executing a software program recorded on a recording medium such as an HDD (Hard Disk Drive) or a semiconductor memory. Good.

In addition, the components such as the control unit may be configured by one or a plurality of electronic circuits. Each of the one or more electronic circuits may be a general-purpose circuit or a dedicated circuit.

The one or more electronic circuits may include, for example, a semiconductor device, an IC (Integrated Circuit), an LSI (Large Scale Integration), or the like. The IC or LSI may be integrated on one chip or may be integrated on a plurality of chips. Here, it is called IC or LSI, but the name changes depending on the degree of integration and may be called system LSI, VLSI (VeryVLarge Scale Integration), or ULSI (Ultra Large Scale Integration). An FPGA (Field Programmable Gate Array) programmed after manufacturing the LSI can be used for the same purpose.

The general or specific aspect of the present invention may be realized by a system, apparatus, method, integrated circuit, or computer program. Alternatively, it may be realized by a computer-readable non-transitory recording medium such as an optical disk, HDD, or semiconductor memory in which the computer program is stored. Further, the present invention may be realized by any combination of a system, an apparatus, a method, an integrated circuit, a computer program, and a recording medium.

In addition, the embodiment can be realized by arbitrarily combining the components and functions in each embodiment without departing from the scope of the present invention, or a form obtained by subjecting each embodiment to various modifications conceived by those skilled in the art. Forms are also included in the present invention.

30 Outdoor sensor (second sensor)
40 Air purification device 50 Indoor sensor (second sensor)
DESCRIPTION OF SYMBOLS 100 Air pollution display terminal 102 Main body housing | casing 110 Position acquisition part 122 Published value acquisition part 124 Contamination value acquisition part 130 Contamination sensor (1st sensor)
142 Time acquisition unit 144 Distance acquisition unit 146 Prediction unit 150 Display unit 160 Reception unit

Claims (8)

1. The main body housing,
   A position acquisition unit that acquires position information indicating a current location of the main body housing;
   A published value acquisition unit for acquiring a published value of air pollution in the area including the current location;
   A first sensor for measuring a first contamination value indicating a contamination state of air around the current location;
   A display unit for displaying the first pollution value and the air pollution announcement value;
   The position acquisition unit, the published value acquisition unit, the first sensor, and the display unit are integrated with the main body casing.
2. Furthermore, the contamination value acquisition which acquires the said 2nd contamination value from the 2nd sensor which is provided separately from the said air contamination display terminal and measures the 2nd contamination value which shows the contamination state of the air around the provided position. Part
   The air pollution display terminal according to claim 1, wherein the display unit further displays the second pollution value.
3. The second sensor is provided at least one each outdoors and indoors,
   The air according to claim 2, wherein the pollution value acquisition unit acquires the second pollution value from each of at least one second sensor provided outdoors and at least one second sensor provided indoors. Pollution display terminal.
4. At least one second sensor provided indoors is provided in the air purification device,
   The air pollution display terminal according to claim 3, wherein the contamination value acquisition unit acquires the second contamination value from a second sensor provided in the air purification device by communicating with the air purification device.
5. Furthermore, a time acquisition unit for acquiring the current time is provided,
   The air pollution display terminal according to any one of claims 1 to 4, wherein the display unit further displays the current time and the current location.
6. further,
   A reception unit that receives input of point information indicating a predetermined point;
   A distance acquisition unit that acquires a distance between the point indicated by the point information and the current location;
   The published value acquisition unit further obtains a published value of the wind direction and volume of the area including the current location,
   The air pollution display terminal according to any one of claims 1 to 5, wherein the display unit further displays a published value of the wind direction and air volume and the distance.
7. The air pollution display terminal according to any one of claims 1 to 6, wherein the published value acquisition unit acquires the published air pollution value by a plurality of means.
8. And a predicting unit that predicts a pollution situation at a predetermined point based on at least one of the air pollution announcement value and the first pollution value,
   The air pollution display terminal according to any one of claims 1 to 7, wherein the display unit displays a contamination status predicted by the prediction unit.

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