WO2022210516A1 - 可視化システム、及びプログラム - Google Patents
可視化システム、及びプログラム Download PDFInfo
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- WO2022210516A1 WO2022210516A1 PCT/JP2022/014936 JP2022014936W WO2022210516A1 WO 2022210516 A1 WO2022210516 A1 WO 2022210516A1 JP 2022014936 W JP2022014936 W JP 2022014936W WO 2022210516 A1 WO2022210516 A1 WO 2022210516A1
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- Prior art keywords
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- air
- information
- image
- information indicating
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- 238000012800 visualization Methods 0.000 title claims abstract description 35
- 238000009423 ventilation Methods 0.000 claims description 76
- 230000009471 action Effects 0.000 claims description 29
- 238000004378 air conditioning Methods 0.000 claims description 21
- 238000000034 method Methods 0.000 claims description 18
- 230000008569 process Effects 0.000 claims description 13
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- 230000006870 function Effects 0.000 claims description 7
- 239000007787 solid Substances 0.000 claims description 7
- 239000003086 colorant Substances 0.000 claims description 5
- 230000005540 biological transmission Effects 0.000 claims description 2
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- 238000004088 simulation Methods 0.000 description 5
- 238000004590 computer program Methods 0.000 description 4
- 239000012530 fluid Substances 0.000 description 4
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- 240000007594 Oryza sativa Species 0.000 description 1
- 235000007164 Oryza sativa Nutrition 0.000 description 1
- 238000004887 air purification Methods 0.000 description 1
- 238000006243 chemical reaction Methods 0.000 description 1
- 238000001816 cooling Methods 0.000 description 1
- 238000013479 data entry Methods 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 230000001771 impaired effect Effects 0.000 description 1
- 239000004973 liquid crystal related substance Substances 0.000 description 1
- 238000005457 optimization Methods 0.000 description 1
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- 230000002787 reinforcement Effects 0.000 description 1
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Images
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/50—Control or safety arrangements characterised by user interfaces or communication
- F24F11/52—Indication arrangements, e.g. displays
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/30—Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
- F24F11/49—Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring ensuring correct operation, e.g. by trial operation or configuration checks
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
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- G06F30/12—Geometric CAD characterised by design entry means specially adapted for CAD, e.g. graphical user interfaces [GUI] specially adapted for CAD
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- G06F30/13—Architectural design, e.g. computer-aided architectural design [CAAD] related to design of buildings, bridges, landscapes, production plants or roads
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- G06F30/00—Computer-aided design [CAD]
- G06F30/20—Design optimisation, verification or simulation
- G06F30/28—Design optimisation, verification or simulation using fluid dynamics, e.g. using Navier-Stokes equations or computational fluid dynamics [CFD]
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- G—PHYSICS
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- G06V20/50—Context or environment of the image
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/50—Control or safety arrangements characterised by user interfaces or communication
- F24F11/52—Indication arrangements, e.g. displays
- F24F11/523—Indication arrangements, e.g. displays for displaying temperature data
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/10—Office automation; Time management
Definitions
- the present disclosure relates to visualization systems and programs.
- Patent Document 1 A technique for performing a fluid analysis simulation within a predetermined target area such as inside a building is known (for example, Patent Document 1).
- interest in ventilation and airflow has increased from the viewpoint of improving the spatial environment, and there are service providers that provide services for analyzing air conditions such as airflow in buildings.
- the workers of the service provider go to the building to be analyzed, collect the information necessary for analysis such as the dimensions of the target area of the building, the equipment information of the air conditioners installed in the target area, etc. It takes time (about 1 to 2 weeks) and is complicated because it takes time (about 1 to 2 weeks) and performs work such as data entry of air conditioner device information (air volume of air conditioner, etc.) and CAD conversion of the target area after returning the information to the office. rice field.
- the purpose of this disclosure is to enable workers to easily check the air condition of the target area.
- a first aspect of the present disclosure is directed to a visualization system.
- the visualization system includes a receiving unit (120) for receiving input of layout information indicating the layout location of the object image on the target area image (e) indicating the target area (E), the object image, and the object indicated by the object image.
- a storage unit (220) that stores correspondence information (221, 222, 223) that associates action information with respect to the air state of the target area (
- a control unit (230) that outputs information indicating the air condition of E), and at least one of information indicating the target area image (e) and information indicating the air condition of the target area (E).
- a display unit (110) for displaying, wherein the objects include an air conditioner (Y) and furniture (X).
- the operator can easily check the air condition of the target area (E).
- a second aspect is the first aspect, wherein the action information on the air condition of the air conditioner (Y) includes information on the air conditioning capacity of the air conditioner (Y).
- the operator can easily check the air condition of the target area (E).
- control unit (230) controls the target area ( E) Output information indicating the air condition.
- the air condition of the target area (E) can be output from the air volume of the air conditioner (Y).
- the reception unit (120) receives input of size information regarding the size of the target area (E), and the control unit (230) receives the By obtaining the air conditioning capacity required for the target area (E) based on the size information, the air volume of the air conditioner (Y) corresponding to the air conditioning capacity is output.
- the air condition of the target area (E) can be output from the air volume of the air conditioner (Y).
- a fifth aspect of the present disclosure is any one of the first to fourth aspects, wherein the object includes a ventilator (Z).
- the object can further include ventilation equipment (Z).
- the reception unit (120) receives an input of an index related to the ventilation volume of the target area (E) by the ventilation device (Z), and the control unit ( 230) outputs information indicative of the air condition of said target area (E) further based on said ventilation index.
- the air condition of the target area (E) can be output considering the ventilation volume of the ventilation equipment (Z).
- a seventh aspect of the present disclosure is any one of the first to sixth aspects, wherein the information indicating the air condition of the target area (E) is the air condition in the target area (E) Contains age information.
- information indicating the air age in the target area (E) can be displayed on the display section (110).
- the information indicating the air condition of the target area (E) is CO2 in the target area (E) Contains information indicating concentration.
- information indicating the CO2 concentration in the target area (E) can be displayed on the display section (110).
- the information indicating the air condition of the target area (E) is the air condition in the target area (E) contains information indicative of the concentration of solid particles present therein;
- information indicating the concentration of solid particles present in the air within the target area (E) can be displayed on the display section (110).
- the control unit (230) when the object includes the air conditioner (Y) or the fan, the control unit (230) The air is processed so that the air condition is the same immediately before and after passing through the air conditioner (Y) or the blower.
- control unit (230) can output the air condition considering the type of object.
- control unit (230) controls that the air is the air purifier. It is processed so that the air condition changes immediately before and after passing the aircraft.
- control unit (230) can output the air condition considering the type of object.
- control unit (230) controls the location information of the object image, the correspondence information (221, 222, 223), creating an improved layout image (H2) of the object image for improving the air condition of the target area (E) output based on.
- the storage unit (220) stores information indicating the type of the object image and the layout of the object image. and information indicating the air volume of the object indicated by the object image, and a learning model in which air conditions are associated with each other. Outputs information indicating the air conditions in area (E).
- a fourteenth aspect of the present disclosure is, in the thirteenth aspect, an output result when the control unit (230) adopts the object image and the layout of the object image in the learning model and outputs the air condition by simulation. as teacher data to re-learn the learning model.
- the fourteenth aspect by re-learning the learning model, it is possible to improve the analysis accuracy of the air condition in the target area (E).
- the air condition includes a plurality of conditions, and the plurality of conditions each include a plurality of colors different from each other.
- the display unit (110) displays the states for each distribution of the target area (E) in the corresponding colors.
- the reception unit (120) provides an index indicating the air condition in the target area image (e).
- the display unit (110) receives an input of a reference index that serves as a reference, and displays a location in the target area image (e) where the index indicating the air condition exceeds the reference index, distinguishing it from other locations.
- the display unit (110) has a height of 1.0 m or more in the target area (E), 1 Display information indicating the air condition above a horizontal plane of .8 m or less.
- the display unit (110) can display the air condition at a height where a person's face (breathing part) is generally located in the target area (E).
- the eighteenth aspect of the present disclosure is directed to a program.
- the program causes the computer to receive an input of layout information indicating the location of the object image on the target area image (e) indicating the target area (E), and transmits the layout information to the server (200).
- a transmitting unit (130) for receiving information indicating the air condition of the target area (E) from the server (200); and information indicating the target area image (e) and the target area
- the server (200) functions as a display unit (110) that displays at least one of (E) the information indicating the air condition, and the server (200) controls the object image and the air condition of the object indicated by the object image. and information indicating the air condition of the target area (E) based on the arrangement information of the object image and the correspondence information (221, 222, 223).
- the objects include air conditioners (Y) and furniture (X).
- the operator can easily check the air condition of the target area (E).
- FIG. 1 is a block diagram showing the configuration of a visualization system according to an embodiment of the invention.
- FIG. 2 is a flow diagram showing the operation of the visualization system.
- FIG. 3 is a plan view of the target area.
- FIG. 4 is a diagram showing the first input screen.
- FIG. 5 is a diagram showing a second input screen.
- FIG. 6(a) is a diagram showing a fixture image (x).
- FIG. 6B is a diagram showing an air conditioner image (y).
- FIG. 6(c) is a diagram showing a ventilator image (z).
- FIG. 7 is a diagram showing a second input screen.
- FIG. 8 is a diagram showing an analysis result display screen.
- FIG. 9 is a diagram showing a layout image before the first improvement.
- FIG. 10 is a diagram showing an improved layout image.
- FIG. 1 is a block diagram showing the configuration of a visualization system (1) according to an embodiment of the present invention.
- the visualization system (1) is a system for visualizing the air conditions in the target area (E) (see Fig. 3).
- the visualization system (1) for example, visualizes and confirms the air condition of the target area (E) to determine whether ventilation and air purification are being performed appropriately in the target area (E). used for
- the visualization system (1) comprises a processing device (100) and a server (200).
- the processing device (100) is, for example, a terminal such as a smartphone and a PC (Personal Computer).
- the processing device (100) is a mobile terminal such as a smart phone and a tablet PC.
- the worker carries the processing device (100) to the target area (E), operates the processing device (100), and performs work for checking the air condition in the target area (E). I do.
- the processing device (100) may be a stationary terminal such as a desktop PC.
- the processing device (100) includes a display section (110), a reception section (120), a first communication section (130), a first storage section (140), and a first control section (150).
- the display unit (110) includes, for example, a liquid crystal panel and displays images.
- the display (110) functions as a touch panel.
- the reception unit (120) receives instructions from the outside.
- the reception section (120) is a touch panel that constitutes the display section (110).
- the reception unit (120) may be configured with an input device such as a keyboard and a mouse.
- the first communication unit (130) communicates with the server (200) by wire or wirelessly.
- the first communication unit (130) includes a communication module (communication device) such as a LAN board, and wirelessly communicates with the server (200) via a network such as the Internet.
- the first communication section (130) is an example of the transmission section and reception section of the present invention.
- the first storage unit (140) includes a main storage device (eg, semiconductor memory) such as ROM (Read Only Memory) and RAM (Random Access Memory), and further includes an auxiliary storage device (eg, hard disk drive). It's okay.
- the first storage section (140) stores various computer programs executed by the first control section (150).
- the first control unit (150) includes processors such as a CPU (Central Processing Unit) and an MPU (Micro Processing Unit).
- the first control unit (150) controls various components of the processing device (100) by executing computer programs stored in the first storage unit (140).
- the server (200) includes a second communication section (210), a second storage section (220), and a second control section (230).
- the second communication unit (210) communicates with the processing device (100) by wire or wirelessly.
- the second communication unit (210) includes a communication module (communication device) such as a LAN board, and wirelessly communicates with the processing device (100) via a network such as the Internet.
- the second storage unit (220) includes a main storage device such as ROM and RAM, and may further include an auxiliary storage device.
- the second storage section (220) stores various computer programs executed by the second control section (230).
- the second storage unit (220) stores first correspondence information (221), second correspondence information (222), and third correspondence information (223).
- the first to third correspondence information (221) to third correspondence information (223) will be described later.
- the second control unit (230) includes processors such as CPU and MPU.
- the first controller (150) controls various components of the server (200) by executing computer programs stored in the second controller (230).
- FIG. 3 is a plan view showing the target area (E) of this embodiment.
- the target area (E) has a rectangular floor surface (F).
- objects include fixtures (X), air conditioners (air conditioners) (Y), and ventilation equipment (Z).
- the fixtures (X) installed in the target area (E) are composed of a product shelf (XA) and a checkout counter (XB).
- the air conditioner (Y) installed in the target area (E) consists of a ceiling cassette type air conditioner (YA).
- the ventilation equipment (Z) installed in the target area (E) consists of an intake port (ZA) and an exhaust port (ZB).
- FIG. 2 is a flow diagram showing the operation of the visualization system (1).
- FIG. 3 is a plan view of the target area (E).
- the worker goes to the target area (E) when investigating the air condition of the target area (E).
- the operator arrives at the target area (E)
- he/she operates the processing device (100) to start work for visualizing the air condition in the target area (E).
- step S1 when the work is started, the first input screen (g1) is displayed on the display section (110) of the processing device (100).
- the first input screen (g1) is a screen for inputting the floor surface information of the target area (E).
- FIG. 4 shows the first input screen (g1).
- step S2 the reception unit (120) of the processing device (100) receives input of size information regarding the size of the target area (E).
- the size information includes floor information indicating the size of the floor of the target area (E) and height information indicating the height from the floor to the ceiling of the target area (E).
- the worker inputs floor information from the first input screen (g1).
- a floor setting image (e1) for setting the size of the floor is displayed on the first input screen (g1).
- the operator performs a drag-and-drop operation on the corner (e11) of the floor setting image (e1), and the floor setting image (e1) becomes the actual target area (E) on the input screen (g1).
- Deformation work is performed to bring it closer to the scale drawing of the floor surface (F).
- the image formed by the deformation work of the floor setting image (e1) may be referred to as the target area image (e) (see FIG. 5).
- the target area image (e) has a shape similar to a scale drawing of the floor (F) of the actual target area (E).
- the worker touches the icon (v1) on the input screen (g1).
- an input screen (not shown) for height information of the target area (E) is displayed.
- the operator touches a numerical icon or the like displayed on the height information input screen to input a numerical value indicating the height of the target area (E).
- a numeric value indicating the height of the target area (E) may be entered using a slider type numeric input form.
- step S3 When the work of inputting the floor surface information and the work of inputting the height information of the target area (E) are completed, the process moves to step S3.
- the display unit (110) displays the second input screen (g2).
- the second input screen (g2) is a screen for inputting layout information indicating the layout location of the object image on the target area image (e).
- the object images are a fixture image (x) (see FIG. 6(a)) indicating fixture (X), an air conditioner image (y) (see FIG. 6(b)) indicating air conditioner (Y), and a ventilation device and a ventilator image (z) showing (Z) (see FIG. 6(c)).
- the multiple types of icons (v) are displayed for selecting the type of object.
- the multiple types of icons (v) include an icon (v2) indicating "furniture", an icon (v3) indicating “air conditioner”, and an icon (v4) indicating "ventilator”.
- the target area image (e) formed in step S2 is displayed in the upper and lower center (g22) of the second input screen (g2).
- an icon selected from the multiple types of icons (v2, v3, v4) displayed in the upper part (g21) and an image of the corresponding object are displayed. .
- step S4 the reception unit (120) of the processing device (100) receives input of furniture layout information.
- the fixture placement information is information indicating the placement location of the fixture image (x) on the target area image (e). Furniture arrangement information is a first example of arrangement information of the present invention.
- the worker selects the icon (v2 ) by touching.
- a plurality of types of furniture images (x) are displayed in the lower part (g23) of the second input screen (g2).
- the fixture name (x1) is the name of the fixture (X) indicated by the associated fixture image (x). By visually recognizing the fixture name (x1), the worker can easily identify the type of fixture (X) indicated by the associated fixture image (x).
- the fixture size (x2) is the size of the fixture (X) indicated by the associated fixture image (x). A default value is set for the fixture size (x2). Note that the fixture size (x2) may be changeable from the default value by the reception unit (120).
- the worker selects a fixture image ( x) is dragged and dropped, and the furniture image (x) is moved and placed on the target area image (e), thereby inputting the furniture arrangement information.
- the worker arranges the fixture image (x) on the target area image (e) so as to match the position of the fixture (X) on the actual target area (E).
- fixture placement information is entered on the target area image (e). As a result, the process moves to step S5.
- the reception unit (120) of the processing device (100) receives input of air conditioner arrangement information.
- the air conditioner arrangement information is information indicating the arrangement location of the air conditioner image (y) on the target area image (e).
- the air conditioner arrangement information is a second example of the arrangement information of the present invention.
- the worker selects an icon ( v3) by touch operation.
- an icon ( v3) by touch operation.
- multiple types of air conditioner images (y) are displayed in the lower part (g23) of the second input screen (g2).
- the air conditioner name (y1) is the name of the air conditioner (Y) indicated by the associated air conditioner image (y).
- the operator can easily identify the type of air conditioner (Y) indicated by the associated air conditioner image (y) by visually recognizing the air conditioner name (y1).
- the air conditioner dimension (y2) is the dimension of the air conditioner (Y) indicated by the associated air conditioner image (y).
- a default value is set for the air conditioner dimension (y2). Note that the air conditioner dimension (y2) may be changeable from the default value by the reception unit (120).
- the operator selects an air conditioner (Y) to be placed in the target area (E) from among multiple types of air conditioner images (y) displayed in the lower part (g23) of the second input screen (g2).
- the air conditioner arrangement information is input.
- the operator arranges the air conditioner image (y) on the target area image (e) so as to match the actual position of the air conditioner (Y) on the target area (E).
- Air conditioner arrangement information is input on the target area image (e) for all the air conditioners (Y) on the target area (E). As a result, the process moves to step S6.
- the reception unit (120) of the processing device (100) receives input of the third arrangement information.
- the third arrangement information is information indicating the arrangement location of the ventilation equipment image (z) on the target area image (e).
- the ventilator arrangement information is a third example of the arrangement information of the present invention.
- the worker selects an icon ( v4) by touch operation.
- an icon ( v4) by touch operation.
- a plurality of types of ventilator images (z) are displayed in the lower part (g23) of the second input screen (g2).
- the ventilator name (z1) is the name of the ventilator (Z) indicated by the associated ventilator image (z).
- the ventilator dimension (z2) is the dimension of the ventilator (Z) indicated by the associated ventilator image (z).
- a default value is set for the ventilator dimension (z2). Note that the ventilator dimension (z2) may be changeable from the default value by the reception unit (120).
- the worker selects the ventilation equipment (Z) to be placed on the target area (E) among the multiple types of ventilation equipment images (z) displayed in the lower part (g23) of the second input screen (g2).
- the ventilation equipment layout information is input.
- the operator arranges the ventilator image (z) on the target area image (e) so as to match the position of the ventilator (Z) on the actual target area (E).
- Ventilator layout information is entered on the target area image (e) for all the ventilation devices (Z) on the target area (E).
- steps S4 to S6 the processing shown in steps S4 to S6 is completed, and the objects (furniture (X), air conditioner (Y), and ventilation equipment (Z)) on the actual target area (E) are aligned. (see Fig. 3), the second input screen ( g2).
- step S6 When the process shown in step S6 ends, the process moves to step S7.
- the reception unit (120) of the processing device (100) receives input of an index relating to the ventilation volume of the ventilation device (Z).
- the index regarding the ventilation volume of the ventilation device (Z) indicates the index regarding the ventilation volume of the ventilation device (Z) indicated by the ventilation device image (z) for which the ventilation device arrangement information is set in step S6.
- the index related to the ventilation volume of the ventilation equipment (Z) is information indicating the air volume from the ventilation equipment (Z), information indicating the ventilation frequency (ventilation frequency per unit time) by the ventilation equipment (Z), or the target area ( E) includes information indicating the number of people expected to be in the room.
- the ventilation volume indicates the amount of air in the target area (E) that is replaced per unit time.
- step S7 As shown in FIG. 2, when the processes shown in steps S4 to S7 are completed, the process proceeds to step S7. Note that the order in which the processes shown in steps S4 to S7 are performed does not have to be the order of steps S4, S5, S6, and S7 as in the present embodiment, and is not particularly limited.
- step S8 the first communication unit (130) of the processing device (100) transmits analysis information to the server (200).
- the analysis information includes the size information of the target area (E) received by the reception unit (120) in step S2, and the furniture layout information, air conditioner layout information and ventilation information received by the reception unit (120) in steps S4 to S6. It includes equipment arrangement information and an index related to the ventilation volume of the ventilation equipment (Z) received by the reception unit (120) in step S7.
- step S9 the second communication unit (210) of the server (200) receives analysis information from the processing device (100).
- step S10 the second control unit (230) of the server (200) performs analysis processing based on the analysis information.
- the analysis processing is processing for analyzing the air condition of the target area (E).
- the second storage unit (220) of the server (200) stores various information for performing analysis processing.
- the various information stored in the second storage unit (220) includes first correspondence information (221), second correspondence information (222), and third correspondence information (223).
- the first correspondence information (221) is information that associates the furniture image (x) with action information for the air condition of the furniture (X) indicated by the furniture image (x).
- the action information on the air condition of the fixture (X) indicated by the fixture image (x) may be referred to as fixture action information.
- the fixture action information includes, for example, information indicating the influence of the fixture (X) on the airflow generated by the air conditioner (Y) or the like (how the fixture (X) changes the airflow, etc.).
- the first correspondence information (221) includes multiple types of fixture images (x) (the first fixture image (xa) indicating the product shelf (XA), the second fixture image (xb) indicating the checkout counter (XB), the partition wall is set for each of the third fixture images (xc), etc.) (see FIG. 6(a)).
- the second control unit (230) of the server (200) outputs fixture action information for all fixture images (x) arranged on the target area image (e) in step S4.
- the second correspondence information (222) is information that associates the air conditioner image (y) with action information for the air condition of the air conditioner (Y) indicated by the air conditioner image (y).
- the action information for the air condition of the air conditioner (Y) indicated by the air conditioner image (y) may be referred to as air conditioner action information.
- the air conditioner action information includes, for example, information indicating the blowing direction of air from the air conditioner (Y).
- the second control unit (230) of the server (200) outputs air conditioner operation information for all air conditioner images (y) arranged on the target area image (e) in step S5.
- the air conditioner action information of the second correspondence information (222) includes a first table, a second table, and a third table.
- the first table associates the size information indicating the size (cm3) of the target area (E) with the air conditioning load (cooling/heating load) (kW/cm3) corresponding to the size of the target area (E).
- the second table is information that associates the air conditioning load with the air conditioning capacity (kW) required for the air conditioning load.
- the third table is information that associates the air conditioning capacity with the air volume of the air conditioner (Y) corresponding to the air conditioning capacity.
- the second control unit (230) of the server (200) uses the first to third tables, based on the size information of the target area (E) received by the receiving unit (120) in step S2, Output the air volume of the air conditioner (Y).
- the second control unit (230) of the server (200) uses the size information of the target area (E) and the first table to output the air conditioning load according to the size of the target area (E). Then, the output air conditioning load and the second table are used to output the air conditioning capacity, and the output air conditioning capacity and the third table are used to output the air volume of the air conditioner (Y).
- a plurality of air conditioners (Y) exist in the target area (E) (see FIG.
- the air volume of each of the plurality of air conditioners (Y) is, for example, the above is set to a size obtained by equally dividing the output air volume based on the size information of the target area (E).
- the air volume set for each air conditioner (Y) may be collectively referred to as air conditioner air volume information.
- the second correspondence information (222) includes a plurality of types of air conditioner images (y) (a first air conditioner image (ya) indicating a ceiling cassette type air conditioner (YA), a second air conditioner indicating a wall-mounted air conditioner Image (yb), third air conditioner image (yc) showing a ceiling-embedded duct type air conditioner, etc.) (see FIG. 6B) are set.
- a first air conditioner image (ya) indicating a ceiling cassette type air conditioner (YA), a second air conditioner indicating a wall-mounted air conditioner Image (yb), third air conditioner image (yc) showing a ceiling-embedded duct type air conditioner, etc.
- the third correspondence information (223) is information that associates the ventilator image (z) with action information for the air condition of the ventilator (Z) indicated by the ventilator image (z).
- the action information on the air condition of the ventilation device (Z) indicated by the ventilation device image (z) may be referred to as ventilation device action information.
- the action information of ventilation equipment includes, for example, information indicating the blowing direction of air from ventilation equipment (Z) (exhaust port (ZB), ventilation fan, etc.) It includes information indicating the suction direction.
- the second control unit (230) of the server (200) outputs ventilation device action information for all ventilation device images (z) arranged on the target area image (e) in step S6.
- a fourth table is included in the ventilator action information of the third correspondence information (223).
- the fourth table is information that associates an index related to the ventilation volume with the ventilation volume.
- the second control unit (230) of the server (200) calculates the ventilation volume associated with the ventilation volume index (see step S7) received by the reception unit (120) in the fourth table by the ventilation device (Z). Output as the ventilation volume of the target area (E). In this way, the ventilation volume output using the fourth table and the ventilation volume index (see step S7) received by the reception unit (120) may be referred to as ventilation volume information.
- the third corresponding information (223) consists of multiple types of ventilator images (z) (the first ventilator image (za) indicating the intake port (ZA), the second ventilator image (zb) indicating the exhaust port (ZB) , the third ventilation equipment image (zc) showing the ventilation fan, etc.) (see FIG. 6(c)).
- the second control unit (230) of the server (200) provides furniture arrangement information (see step S4), furniture action information, air conditioner arrangement information (see step S5), air conditioner action information, air conditioner air volume information, ventilation device arrangement
- a predetermined program dedicated or general-purpose fluid analysis software
- the air in the target area (E) Output the analysis result of the state.
- a predetermined program is stored in the second storage unit (220) of the server (200).
- information indicating the age of the air in the target area (E) is output as the analysis result.
- the air age indicates the time it takes for air entering the target area (E) to reach a predetermined location within the target area (E). The shorter the air age, the fresher the air.
- step S11 the second communication unit (210) of the server (200) transmits information indicating analysis results to the processing device (100).
- the first communication unit (130) of the processing device (100) receives information indicating the analysis result from the server (200).
- step S13 the display unit (110) of the processing device (100) displays an analysis result display screen (g3).
- the analysis result display screen (g3) includes a first screen (g31) and a second screen (g32).
- the first screen (g31) displays the target area image (e) shown in FIG. 7, that is, the image having the same content as the image used when the server (200) performs the analysis process.
- the second screen (g32) displays information indicating the analysis result of the air condition of the target area (E) by the server (200). In this embodiment, the second screen (g32) displays information about the air age of the target area (E). In this embodiment, the second screen (g32) is displayed below the first screen (g31).
- the second screen (g32) displays the information indicating the analysis results in a superimposed manner.
- the information indicating the analysis result is displayed as a contour diagram showing that the darker the color, the longer the air age and the more stagnant the air.
- the lower right area (e1) in the target area image (e) is dark in color, the air age is high and the air is stagnant.
- the second storage unit (220) stores object images (furniture image (x), air conditioner image (y), and ventilator image (z)) and objects indicated by the object images (furniture (X), Correspondence information (first correspondence information (221) to third correspondence information (223)) associated with action information for the air condition of the air conditioner (Y) and the ventilator (Z)) is stored.
- the second control unit (230) generates information indicating the air condition of the target area (E) based on the object image layout information (furniture layout information, air conditioner layout information, and ventilation equipment layout information) and correspondence information.
- the object image and the effect information on the air condition of the object indicated by the object image are associated with each other.
- the worker does not need to check the action information of the object provided in the target area (E) with respect to the air state and input it to the processing device (100), so the burden on the worker is reduced.
- the operator can easily check the air condition in the target area (E).
- the action information on the air condition of the air conditioner (Y) includes information (second table) on the air conditioning capacity of the air conditioner (Y).
- the second control The unit (230) can calculate the air volume of the air conditioner (Y) from the size of the target area (E) and the air conditioning capacity, and use the calculated air volume as a parameter when outputting the air condition of the target area (E). .
- the operator when outputting the air condition of the target area (E), the operator does not need to input the air conditioning capacity, the air volume of the air conditioner (Y), etc., and the analysis information by the second control unit (230) is output. This reduces the burden on the operator and allows the operator to easily check the air condition in the target area (E).
- the worker carries the processing device (100), which is a smartphone, to the target area (E), and in the state where the worker is in the target area (E), performs the data input work shown in steps S2 to S6, and the input result can be sent to the server (200), and the information indicating the analysis result from the server (200) is acquired by the processing device (100), and the analysis result is displayed on the display unit (110) of the processing device (100) You can check the information indicating As a result, the operator can quickly acquire the air condition of the target area (E).
- the processing device (100) which is a smartphone
- the air condition includes a plurality of conditions, each of which corresponds to a plurality of colors different from each other, and the display unit (110) displays the conditions for each distribution of the target area (E) in the corresponding colors. to display.
- the display unit (110) displays the conditions for each distribution of the target area (E) in the corresponding colors. to display.
- the display unit (110) displays the conditions for each distribution of the target area (E) in the corresponding colors. to display.
- the display unit (110) displays the conditions for each distribution of the target area (E) in the corresponding colors. to display.
- the display unit (110) displays the conditions for each distribution of the target area (E) in the corresponding colors. to display.
- the second control section (230) outputs information indicating the air age in the target area (E) as the analysis result of the air condition in the target area (E).
- the second control section (230) may output information indicating information indicating the CO2 concentration in the target area (E) as the analysis result of the air condition in the target area (E).
- the second screen (g32) of the display unit (110) shown in FIG. Is displayed the second control unit (230) outputs information indicating the concentration of VOCs (volatile organic compounds) present in the air within the target area (E) as the analysis result of the air condition of the target area (E).
- the second control unit (230) outputs information indicating the concentration of solid particles (particles) present in the air within the target area (E) as the analysis result of the air condition of the target area (E).
- information indicating the concentration of solid particles (particles) present in the air within the target area (E) as the analysis result of the air condition of the target area (E). may In this case, for example, the second screen (g32) of the display unit (110) shown in FIG. Or it is displayed so that it becomes thin.
- the air condition visualized by the visualization system (1) may be the velocity distribution of the airflow, including the wind direction, within the target area (E).
- step S10 the second control unit (230) controls the second control unit ( 230) may be treated so that the air conditions are the same immediately before and after the air passes through the air conditioner (Y) or blower.
- step S10 when the second control unit (230) performs analysis processing of the air condition of the target area (E) and the object includes an air purifier, the second control unit (230) It may be processed so that the air condition changes immediately before and after the air passes through the air purifier.
- the second control unit (230) outputs information indicating the concentration of solid particles present in the air in the target area (E) as an analysis result of the air condition in the target area (E)
- the air is air
- concentration of solid particles in the air immediately after passing through the purifier is lower than that immediately before passing through the purifier by a predetermined value.
- the second control unit (230) may create an improved layout image (H2) of the object image for improving the air condition of the target area (E) output in step S10.
- FIG. 9 shows an unimproved layout image (H1) that is a layout image of the object image before improvement.
- FIG. 10 shows an improved layout image (H2) that is a layout image of the object image after improvement.
- the lower right area (e1) of the target area image (e) has a dark color, so the air age is long and the air is stagnant.
- the second control unit (230) determines, for example, that the cause of air stagnation in the lower right area (e1) is the first ventilator image (za) showing the intake port (ZA) and the second image showing the exhaust port (ZB). It is determined that this is due to the fact that the two ventilation equipment images (zb) are too close to each other and that ventilation is not being performed effectively. In this case, the second control unit (230) adjusts the air intake (ZA) so that the air age in the lower right area (e1) is shorter than a predetermined value by means of an arrangement optimization algorithm, reinforcement learning, etc.
- H2 Create an improved layout image (H2) in which the first ventilator image (za) shown and the second ventilator image (zb) showing the exhaust port (ZB) are separated from each other more than the pre-improvement layout image (H1).
- the pre-improvement layout image (H1) the first ventilator image (za) indicating the intake port (ZA) and the second ventilator image (zb) indicating the exhaust port (ZB) were aligned vertically in the left part of the target area image (e), but as shown in FIG. 10, in the improved layout image (H2) image, the second control unit (230) ) is arranged in the lower right area (e1) to improve the air flow in the lower right area (e1).
- Information indicating the improved layout image (H2) is transmitted from the server (200) to the processing device (100) and displayed on the display section (110).
- the operator can improve the air condition of the target area (E) by changing the location of the object in consideration of the improved layout image (H2).
- the second storage unit (220) of the server (200) stores input information including information indicating the type of object image, information indicating the layout of the object image, and information indicating the air volume of the object indicated by the object image; A learning model associated with the air condition may be stored, and the second control unit (230) may output information indicating the air condition of the target area (E) using the learning model.
- the second The control unit (230) can output information indicating the air condition of the target area (E) using the learning model.
- the second control section (230) does not need to perform a fluid analysis simulation, so the computation load on the second control section (230) can be reduced.
- the second control unit (230) of the server (200) may function as a learning unit that re-learns the learning model.
- the second control unit (230) which is a learning unit, uses the object images and the layout of the object images in the learning model to output the air conditions through simulation. is used as teacher data to relearn the learning model.
- the learning model it is possible to improve the analysis accuracy of the air condition in the target area (E).
- the reception unit (120) receives input of a reference index that serves as a reference for the index indicating the air condition in the target area image (e).
- the display unit (110) may display the location where the index indicating the air condition exceeds the reference index in the target area image (e), distinguishing it from the other locations.
- the index of air condition indicates, for example, air age, CO2 concentration, VOC concentration, or concentration of solid particles.
- a display unit (110) distinguishes and displays locations in the target area image (e) that exceed the reference index, that is, locations where the air condition is not good, by displaying them in a different color from other locations. As a result, the operator can easily confirm the location of the target area (E) where the air condition is not good from the display contents of the display (110).
- the display unit (110) displays information indicating the analysis result of the air condition of the target area (E) by the server (200) on the second screen (g32) (see FIG. 8).
- Information indicating the air condition on a horizontal plane at a height of 1.0 m or more and 1.8 m or less in E) may be displayed.
- the display section (110) can display the air condition at a height where a person's face (breathing part) is generally located.
- step S10 when various types of information are input from the reception unit (120) (see FIG. 1), temperature information of the target area (E) is further input, and in step S10 When the analysis result of the air condition of the target area (E) is output by the second control unit (230), the temperature information of the target area (E) may be considered in the analysis result.
- objects are composed of fixtures (X), air conditioners (Y), and ventilation equipment (Z).
- Objects should include at least the furniture (X) and the air conditioner (Y). If the object is composed of the furniture (X) and the air conditioner (Y), the process shown in step S6 and the process shown in step S7 (see FIG. 2) are unnecessary.
- the server (200) performs analysis processing (see step S10).
- the processing device (100) may perform analysis processing.
- the first control unit (150) of the processing device (100) functions as the second control unit (230) of the server (200)
- the first storage unit (140) of the processing device (100) functions as the server (200).
- a second storage unit (220) as a second storage unit (220).
- reception unit (120) which is a touch panel.
- the reception unit (120) may be configured with a keyboard, mouse, etc., and the various information may be input from the keyboard, mouse, etc. FIG.
- the same display unit (110) performs the operation of inputting various information from the touch panel performed in steps S2 to S7 (see FIG. 2) and the display processing of the analysis results performed in step S13. is done in However, the invention is not so limited.
- the display processing of the analysis result may be performed by a display unit of a terminal different from the processing device (100).
- the present disclosure is useful for visualization systems and programs.
- 1 visualization system 100 processing device 110 display unit 120 reception unit 130 first communication unit (transmitting unit, receiving unit) 200 server 220 second storage unit (storage unit) 221 First Correspondence Information (Correspondence Information) 222 Second Correspondence Information (Correspondence Information) 223 Third Correspondence Information (Correspondence Information) 230 Second control unit (control unit) e Target area image E Target area X Furniture Y Air conditioner Z Ventilation equipment
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Abstract
Description
図1に示すように、可視化システム(1)は、処理装置(100)と、サーバ(200)とを備える。
図3を参照して、本実施形態の対象エリア(E)について説明する。図3は、本実施形態の対象エリア(E)を示す平面図である。
図1~図9を参照して、可視化システム(1)の動作について説明する。図2は、可視化システム(1)の動作を示すフロー図である。図3は、対象エリア(E)の平面図である。
サーバ(200)の第2記憶部(220)は、解析処理を行うための各種情報を記憶する。第2記憶部(220)に記憶される当該各種情報は、第1対応情報(221)と、第2対応情報(222)と、第3対応情報(223)とを含む。
第1対応情報(221)は、什器画像(x)と、什器画像(x)が示す什器(X)の空気状態に対する作用情報とを対応付けた情報である。以下では、什器画像(x)が示す什器(X)の空気状態に対する作用情報を、什器作用情報と記載することがある。什器作用情報は、例えば、空調機(Y)等から発生する気流に対して什器(X)が与える影響を示す情報(什器(X)が気流をどのように変化させるか等)を含む。
第2対応情報(222)は、空調機画像(y)と、空調機画像(y)が示す空調機(Y)の空気状態に対する作用情報とを対応付けた情報である。以下では、空調機画像(y)が示す空調機(Y)の空気状態に対する作用情報を、空調機作用情報と記載することがある。空調機作用情報は、例えば、空調機(Y)からの空気の吹き出し方向を示す情報等を含む。
第2対応情報(222)の空調機作用情報には、第1テーブルと、第2テーブルと、第3テーブルとが含まれる。第1テーブルは、対象エリア(E)の広さ(cm3)を示す広さ情報と、対象エリア(E)の広さに応じた空調負荷(冷暖房負荷)(kW/cm3)とを対応付けた情報である。第2テーブルは、空調負荷と、空調負荷に対して必要な空調能力(kW)とを対応付けた情報である。第3テーブルは、空調能力と、空調能力に応じた空調機(Y)の風量とを対応付けた情報である。サーバ(200)の第2制御部(230)は、第1テーブル~第3テーブルを用いることで、ステップS2において受付部(120)が受け付けた対象エリア(E)の広さ情報に基づいて、空調機(Y)の風量を出力する。詳細には、サーバ(200)の第2制御部(230)は、対象エリア(E)の広さ情報と第1テーブルとを用いて対象エリア(E)の広さに応じた空調負荷を出力し、出力した空調負荷と第2テーブルとを用いて空調能力を出力し、出力した空調能力と第3テーブルとを用いて空調機(Y)の風量を出力する。なお、本実施形態のように、対象エリア(E)内に複数の空調機(Y)が存在する場合(図3参照)、複数の空調機(Y)の各々の風量は、例えば、上記のように対象エリア(E)の広さ情報に基づいて出力された風量を等分した大きさに設定される。以下では、各空調機(Y)に設定された風量を総称して、空調機風量情報と記載することがある。
第3対応情報(223)は、換気機器画像(z)と、換気機器画像(z)が示す換気機器(Z)の空気状態に対する作用情報とを対応付けた情報である。以下では、換気機器画像(z)が示す換気機器(Z)の空気状態に対する作用情報を、換気機器作用情報と記載することがある。換気機器作用情報は、例えば、換気機器(Z)(排気口(ZB)、換気ファン等)からの空気の吹き出し方向を示す情報、換気機器(Z)(吸気口(ZA)等)による空気の吸い込み方向を示す情報等を含む。
第3対応情報(223)の換気機器作用情報には、第4テーブルが含まれる。第4テーブルは、換気量に関する指標と、換気量とを対応付けた情報である。サーバ(200)の第2制御部(230)は、第4テーブルにおいて、受付部(120)が受け付けた換気量に関する指標(ステップS7参照)と対応付けられる換気量を、換気機器(Z)による対象エリア(E)の換気量として出力する。このように、第4テーブルと、受付部(120)が受け付けた換気量に関する指標(ステップS7参照)とを用いて出力された換気量を、換気量情報と記載することがある。
サーバ(200)の第2制御部(230)は、什器配置情報(ステップS4参照)、什器作用情報、空調機配置情報(ステップS5参照)、空調機作用情報、空調機風量情報、換気機器配置情報(ステップS6参照)、換気機器作用情報、及び換気量情報を、流体解析シミュレーションを行う所定のプログラム(専用又は汎用の流体解析ソフト)にパラメータとして入力することで、対象エリア(E)の空気状態の解析結果を出力する。所定のプログラムは、サーバ(200)の第2記憶部(220)に記憶される。本実施形態では、解析結果として、対象エリア(E)の空気齢を示す情報が出力される。空気齢は、対象エリア(E)内に入ってきた空気が、対象エリア(E)内の所定の場所に到達するまでにかかる時間を示す。空気齢が短いほど空気が新鮮であることを表す。
以上のように、第2記憶部(220)は、オブジェクト画像(什器画像(x)、空調機画像(y)及び換気機器画像(z))と、オブジェクト画像が示すオブジェクト(什器(X)、空調機(Y)及び換気機器(Z))の空気状態に対する作用情報とを対応付けた対応情報(第1対応情報(221)~第3対応情報(223))を記憶する。第2制御部(230)は、オブジェクト画像の配置情報(什器配置情報、空調機配置情報、及び換気機器配置情報)と、対応情報とに基づいて、対象エリア(E)の空気状態を示す情報を出力する。これによると、第2記憶部(220)に記憶される対応情報において、オブジェクト画像と、オブジェクト画像が示すオブジェクトの空気状態に対する作用情報とが対応付けられているので、対象エリア(E)の空気状態を出力する際に、作業者は、対象エリア(E)に設けられるオブジェクトの空気状態に対する作用情報を確認して処理装置(100)に入力する必要がないので、作業者の負担が減り、作業者が対象エリア(E)の空気状態を容易に確認することができる。また、空調機(Y)の空気状態に対する作用情報は、空調機(Y)の空調能力に関する情報(第2テーブル)を含む。これによると、第2記憶部(220)に記憶される作用情報には空調機(Y)の空調能力に関する情報が含まれているので、対象エリア(E)の広さがわかれば、第2制御部(230)が対象エリア(E)の広さと空調能力から空調機(Y)の風量を算出して、当該風量を対象エリア(E)の空気状態を出力する際のパラメータとして用いることができる。これにより、対象エリア(E)の空気状態を出力する際に、作業者が空調能力、空調機(Y)の風量等を入力する必要がなく、第2制御部(230)による解析情報を出力するための計算範囲を大きくできるので、作業者の負担が減り、作業者が対象エリア(E)の空気状態を容易に確認することができる。
以上、実施形態および変形例を説明したが、特許請求の範囲の趣旨および範囲から逸脱することなく、形態や詳細の多様な変更が可能なことが理解されるであろう(例えば、下記(1)~(15))。また、以上の実施形態および変形例は、本開示の対象の機能を損なわない限り、適宜組み合わせたり、置換したりしてもよい。
100 処理装置
110 表示部
120 受付部
130 第1通信部(送信部、受信部)
200 サーバ
220 第2記憶部(記憶部)
221 第1対応情報(対応情報)
222 第2対応情報(対応情報)
223 第3対応情報(対応情報)
230 第2制御部(制御部)
e 対象エリア画像
E 対象エリア
X 什器
Y 空調機
Z 換気機器
Claims (18)
- 対象エリア(E)を示す対象エリア画像(e)上におけるオブジェクト画像の配置場所を示す配置情報の入力を受け付ける受付部(120)と、
前記オブジェクト画像と、前記オブジェクト画像が示すオブジェクトの空気状態に対する作用情報とを対応付けた対応情報(221,222,223)を記憶する記憶部(220)と、
前記オブジェクト画像の前記配置情報と、前記対応情報(221,222,223)とに基づいて、前記対象エリア(E)の空気状態を示す情報を出力する制御部(230)と、
前記対象エリア画像(e)を示す情報と前記対象エリア(E)の空気状態を示す情報とのうちの少なくとも1つの情報を表示する表示部(110)と
を備え、
前記オブジェクトは、空調機(Y)と什器(X)とを含む可視化システム。 - 請求項1において、
前記空調機(Y)の空気状態に対する前記作用情報は、前記空調機(Y)の空調能力に関する情報を含む可視化システム。 - 請求項2において、
前記制御部(230)は、前記空調機(Y)の空調能力と対応する前記空調機(Y)の風量に基づいて前記対象エリア(E)の空気状態を示す情報を出力する可視化システム。 - 請求項3において、
前記受付部(120)は、前記対象エリア(E)の広さに関する広さ情報の入力を受け付け、
前記制御部(230)は、前記広さ情報に基づいて前記対象エリア(E)に対して必要な前記空調能力を求めることで、前記空調能力に対応する前記空調機(Y)の風量を出力する可視化システム。 - 請求項1から請求項4のいずれか1項において、
前記オブジェクトは、換気機器(Z)を含む可視化システム。 - 請求項5において、
前記受付部(120)は、前記換気機器(Z)による前記対象エリア(E)の換気量に関する指標の入力を受け付け、
前記制御部(230)は、前記換気量に関する指標にさらに基づいて前記対象エリア(E)の空気状態を示す情報を出力する可視化システム。 - 請求項1から請求項6のいずれか1項において、
前記対象エリア(E)の空気状態を示す情報は、前記対象エリア(E)内の空気齢を示す情報を含む可視化システム。 - 請求項1から請求項7のいずれか1項において、
前記対象エリア(E)の空気状態を示す情報は、前記対象エリア(E)内のCO2濃度を示す情報を含む可視化システム。 - 請求項1から請求項8のいずれか1項において、
前記対象エリア(E)の空気状態を示す情報は、前記対象エリア(E)内の空気中に存在する固形粒子の濃度を示す情報を含む可視化システム。 - 請求項1から請求項9のいずれか1項において、
前記オブジェクトが前記空調機(Y)又は送風機を含む場合、前記制御部(230)は、空気が前記空調機(Y)又は前記送風機を通過する直前と通過した直後とで空気状態が同じであるように処理する可視化システム。 - 請求項1から請求項10のいずれか1項において、
前記オブジェクトが空気清浄機を含む場合、前記制御部(230)は、空気が前記空気清浄機を通過する直前と通過した直後とで空気状態が変化するように処理する可視化システム。 - 請求項1から請求項11のいずれか1項において、
前記制御部(230)は、前記オブジェクト画像の前記配置情報と、前記対応情報(221,222,223)とに基づいて出力した前記対象エリア(E)の空気状態を改善するための前記オブジェクト画像の改善レイアウト画像(H2)を作成する可視化システム。 - 請求項1から請求項12のいずれか1項において、
前記記憶部(220)は、前記オブジェクト画像の種類を示す情報、前記オブジェクト画像のレイアウトを示す情報、及び前記オブジェクト画像が示すオブジェクトの風量を示す情報を含む入力情報と、空気状態とを対応付けた学習モデルを記憶し、
前記制御部(230)は、前記学習モデルを用いて前記対象エリア(E)の空気状態を示す情報を出力する可視化システム。 - 請求項13において、
前記制御部(230)が前記学習モデルにおける前記オブジェクト画像及び前記オブジェクト画像のレイアウトを採用して空気状態をシミュレーションにより出力したときの出力結果を、教師データとして用いて前記学習モデルを再学習する学習部(230)を備える可視化システム。 - 請求項1から請求項14のいずれか1項において、
空気状態は、複数の状態を含み、
複数の状態は、それぞれ、互いに異なる複数の色と対応し、
前記表示部(110)は、前記対象エリア(E)の分布毎の前記状態を前記対応する色で表示する可視化システム。 - 請求項1から請求項15のいずれか1項において、
前記受付部(120)は、前記対象エリア画像(e)内の空気状態を示す指標の基準となる基準指標の入力を受け付け、
前記表示部(110)は、前記対象エリア画像(e)内で空気状態を示す指標が前記基準指標を上回る箇所を他の箇所と区別して表示する可視化システム。 - 請求項1から請求項16のいずれか1項において、
前記表示部(110)は、前記対象エリア(E)における高さ1.0m以上、1.8m以下の水平面上の空気状態を示す情報を表示する可視化システム。 - コンピュータを、
対象エリア(E)を示す対象エリア画像(e)上におけるオブジェクト画像の配置場所を示す配置情報の入力を受け付ける受付部(120)、
前記配置情報をサーバ(200)へ送信する送信部(130)、
前記対象エリア(E)の空気状態を示す情報を前記サーバ(200)から受信する受信部(130)、及び、
前記対象エリア画像(e)を示す情報と前記対象エリア(E)の空気状態を示す情報とのうちの少なくとも1つの情報を表示する表示部(110)
として機能させ、
前記サーバ(200)は、前記オブジェクト画像と、前記オブジェクト画像が示すオブジェクトの空気状態に対する作用情報とを対応付けた対応情報(221,222,223)を記憶し、前記オブジェクト画像の前記配置情報と、前記対応情報(221,222,223)とに基づいて、前記対象エリア(E)の空気状態を示す情報を出力し、
前記オブジェクトは、空調機(Y)と什器(X)とを含むプログラム。
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