WO2021038784A1 - 香味吸引器具等の吸い方を確認するためのプログラム、方法及びシステム - Google Patents

香味吸引器具等の吸い方を確認するためのプログラム、方法及びシステム Download PDF

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Publication number
WO2021038784A1
WO2021038784A1 PCT/JP2019/033883 JP2019033883W WO2021038784A1 WO 2021038784 A1 WO2021038784 A1 WO 2021038784A1 JP 2019033883 W JP2019033883 W JP 2019033883W WO 2021038784 A1 WO2021038784 A1 WO 2021038784A1
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WO
WIPO (PCT)
Prior art keywords
predetermined change
time
predetermined
suction device
flavor suction
Prior art date
Application number
PCT/JP2019/033883
Other languages
English (en)
French (fr)
Japanese (ja)
Inventor
賢太郎 橋本
Original Assignee
日本たばこ産業株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 日本たばこ産業株式会社 filed Critical 日本たばこ産業株式会社
Priority to PCT/JP2019/033883 priority Critical patent/WO2021038784A1/ja
Priority to JP2021541893A priority patent/JP7496360B2/ja
Priority to EP19943619.7A priority patent/EP4023088A4/de
Priority to TW109103049A priority patent/TWI801709B/zh
Publication of WO2021038784A1 publication Critical patent/WO2021038784A1/ja

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    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/50Control or monitoring
    • A24F40/53Monitoring, e.g. fault detection
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/60Devices with integrated user interfaces
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G5/00Control arrangements or circuits for visual indicators common to cathode-ray tube indicators and other visual indicators
    • G09G5/02Control arrangements or circuits for visual indicators common to cathode-ray tube indicators and other visual indicators characterised by the way in which colour is displayed
    • G09G5/026Control of mixing and/or overlay of colours in general
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/50Control or monitoring
    • A24F40/51Arrangement of sensors
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G2354/00Aspects of interface with display user
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G2370/00Aspects of data communication
    • G09G2370/02Networking aspects
    • G09G2370/022Centralised management of display operation, e.g. in a server instead of locally
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G2380/00Specific applications
    • G09G2380/06Remotely controlled electronic signs other than labels

Definitions

  • the present invention relates to a flavor suction device or an aerosol generator. More specifically, the present invention relates to confirming how to suck a flavor suction device or an aerosol generator.
  • Patent Document 1 Technology related to smoking devices such as electronic cigarettes has been developed for some time (see, for example, Patent Document 1).
  • Smoking devices such as e-cigarettes have not been established for smoking, and the smoking method varies from individual to individual. Therefore, it may not always be said that the user's sucking method is suitable for the user. Also, at present, in addition to explaining how to smoke, illustrations and videos show how others are smoking, but these are just showing how others are smoking. , It may be difficult for the user to understand. Therefore, users who are new to smoking devices such as e-cigarettes may be confused.
  • flavor suction device is a device for sucking flavor, and is not limited to, but is intended for, for example, an electronic cigarette, a heat-not-burn tobacco, or a conventional cigarette.
  • aerosol generator is a device for sucking the generated aerosol, and is not limited to, for example, intended for electronic cigarettes, heat-not-burn tobacco, and medical nebulizers. is there.
  • the above invention utilizes an externally observable predetermined change that occurs in at least a part of a flavor suction device or the like that occurs based on the action of sucking by the user.
  • the inventor of the present application considers flavor suction. I noticed that there is a discrepancy between the period during which the user is sucking and the period during which a predetermined change that can be observed externally occurs, depending on the equipment. For example, in a certain flavor suction device, according to the specifications, while detecting the start of the action of sucking by the user and at the same time starting a predetermined change that can be observed externally, the outside immediately after detecting the end of the action of sucking by the user. It was found that it did not end the observable predetermined change. When the user detects the action of sucking the flavor suction device or the like by simply using the predetermined change, the detection result will be different from the user's experience.
  • the inventor of the present application has noticed that the detection accuracy of the above-mentioned predetermined change is lowered depending on the design of the flavor suction device or the like. This means that when the user tries to detect the suction operation by using the prior art, the design of the flavor suction device or the like is restricted.
  • the present invention has been made in view of the above, and an object of the present invention is to provide an improved program or the like for a user to confirm how to suck a flavor suction device or the like while experiencing it.
  • the present invention is a step of detecting an externally observable predetermined change occurring in at least a part of the flavor suction device or the aerosol generation device, and the predetermined change is the flavor suction device or the aerosol generation.
  • a program that causes a computer to execute a step generated based on an action of sucking a device by a user and a step of displaying information based on the detection of the predetermined change, and displays information based on the detection of the predetermined change.
  • the step of controlling the display of information is based on the difference between the period in which the user's suction operation is detected in the flavor suction device or the aerosol generator and the period in which the predetermined change occurs. Programs are provided, including.
  • the difference may include a first predetermined time from the detection of the end of the action sucked by the user in the flavor suction device or the aerosol generator to the end of the predetermined change.
  • the step of displaying information based on the detection of the predetermined change is When the predetermined change is detected, the step of displaying one or more information representing the time so as to indicate the passage of time is further included, and the step of controlling the display of the information is the end of the predetermined change. May include a step of returning at least one of the one or more information representing the time to the display before the first predetermined time when the first predetermined time is detected.
  • the step of displaying information based on the detection of the predetermined change is The step of controlling the display of the information includes the step of displaying the first one or more information representing the time so as to indicate the passage of time when the predetermined change is detected.
  • a step of displaying the second one or more information representing the time obtained by subtracting the first predetermined time from the time represented by the first one or more information may be included.
  • the step of controlling the display of information provides one or more pieces of information representing the time so as to indicate the passage of time when the predetermined change is continuously detected for the first predetermined time or longer. It may include a step to display.
  • the step of controlling the display of information is to indicate the passage of time when detecting the predetermined change, and from the time when the start of the predetermined change is actually detected. It may include a step of displaying one or more pieces of information representing the time as if the start of the predetermined change was detected before the second predetermined time.
  • the one or more pieces of information representing time may include characters and gauges, and at least one of the one or more pieces of information representing time may include said gauges.
  • the first one or more information representing time may include a gauge
  • the second one or more information representing time may include characters
  • the one or more pieces of information representing time may include one or both of characters and gauges.
  • the present invention is a step of detecting an externally observable predetermined change occurring in at least a part of the flavor suction device or the aerosol generator, and the predetermined change is the flavor suction device or the flavor suction device or the step.
  • a method executed by a computer including a step generated based on an operation of sucking an aerosol generator by a user and a step of displaying information based on the detection of the predetermined change, wherein the detection of the predetermined change is performed.
  • the step of displaying information based on the display of information is based on the difference between the period during which the user's suction operation is detected by the flavor suction device or the aerosol generator and the period during which the predetermined change occurs. It provides a way for the computer to perform, including steps to control.
  • the detection unit, the display unit, and the control unit can be externally observed by at least a part of the flavor suction device or the aerosol generation device based on the output from the detection unit.
  • the predetermined change is detected, and the predetermined change occurs based on the action of the user sucking the flavor suction device or the aerosol generator, and the information based on the detection of the predetermined change is displayed on the display unit.
  • a system including a control unit configured as described above, wherein the control unit has a period in which the user's suction operation is detected in the flavor suction device or the aerosol generator, and the predetermined change occurs.
  • a system is provided that is further configured to control the display of information based on the difference from the duration.
  • a program is provided that causes a computer to perform a step that occurs based on the action of a user sucking an instrument or an aerosol generator and a step that displays information based on the detection of the predetermined change.
  • the predetermined position or range may be within the frame.
  • the predetermined position or the predetermined range may be outside the frame.
  • the user can easily align the flavor suction device or the like in order to detect a predetermined change in the flavor suction device or the like. Further, according to such a configuration, since a predetermined change in the flavor suction device or the like is detected by using a limited portion in the real-time image, the predetermined change in the flavor suction device or the like having a design confusing with the predetermined change. Detection accuracy is improved.
  • the program includes a step of determining whether the flavor suction device or aerosol generating device overlaps the frame based on a real-time image in the frame, and the flavor suction device or aerosol generating device in the frame.
  • the computer may further perform the step of detecting a predetermined externally observable change that occurs in at least a part of the flavor suction device or the aerosol generator when it is determined that they overlap.
  • a predetermined change in the flavor suction device or the like is detected by using a limited portion in the real-time image.
  • the accuracy of detecting the predetermined change in a flavor suction device or the like having a design that is confusing with the predetermined change is further improved.
  • a step of displaying the acquired real-time image and the frame on the real-time image corresponding to the shape of the flavor suction device or the aerosol generator and the above-mentioned step.
  • a method performed by a computer includes a step that occurs based on the action of the user sucking a flavor suction device or an aerosol generator, and a step that displays information based on the detection of the predetermined change.
  • the detection unit, the display unit, and the control unit are the display unit, the real-time image acquired by the detection unit, and the frame on the real-time image.
  • the frame corresponding to the shape of the flavor suction device or the aerosol generator is displayed, and the external generated in at least a part of the flavor suction device or the aerosol generator based on the image of the predetermined position or the predetermined range in the real-time image.
  • An observable predetermined change is detected, and the predetermined change occurs based on the action of the user sucking the flavor suction device or the aerosol generator, and information is displayed on the display unit based on the detection of the predetermined change.
  • a system is provided with a control unit configured to display.
  • the user can easily align the flavor suction device or the like in order to detect a predetermined change in the flavor suction device or the like. Further, according to such a configuration, since a predetermined change in the flavor suction device or the like is detected by using a limited portion in the real-time image, the predetermined change in the flavor suction device or the like having a design confusing with the predetermined change. Detection accuracy is improved.
  • the user can confirm how to suck the flavor suction device or the like while experiencing it.
  • FIG. 1 It is a block diagram of an exemplary configuration of 100 flavor suction devices and the like according to one embodiment of the present invention.
  • the schematic appearance of 100 examples such as a flavor suction device is shown.
  • the schematic appearance of 100 examples such as a flavor suction device is shown.
  • the example screen 400A for performing a test for detecting a predetermined change of 100 such as a flavor suction device is shown.
  • the example screen 400B for performing a test for detecting a predetermined change of 100 such as a flavor suction device is shown.
  • the example screen 500 for the user to confirm how to suck 100 such as a flavor suction device is shown. It shows an example of UI (user interface) component 520. It shows an example of UI component 520. It shows an example of UI component 520. It shows an example of UI component 520. It shows an example of UI component 520. It shows an example of UI component 520. It shows an example of UI component 520. It shows an example of UI component 520. It shows an example of UI component 520. Shows an exemplary screen 600 that displays the result of confirming how the user sucks 100 flavor suction devices and the like. The example screen 700 for displaying reference information to the user is shown. The flowchart of the exemplary method 800 executed by the system 200 is shown.
  • the flowchart of the exemplary method 800 executed by the system 200 is shown.
  • the flowchart of the exemplary method 800 executed by the system 200 is shown.
  • FIG. 1A is a block diagram of an exemplary configuration of a flavor suction device or the like 100 according to an embodiment of the present invention.
  • FIG. 1A shows roughly and conceptually each component included in the flavor suction device 100, and does not show the exact arrangement, shape, dimensions, positional relationship, etc. of each component and the flavor suction device 100. Please note that.
  • the flavor suction device 100 may include components (not shown) such as cigarette capsules and liquid cartridges.
  • the sensor 110 indicates a sensor for detecting the sucking motion of the user.
  • the sensor 110 may be any kind of sensor for detecting the user's suction operation, such as a flow rate sensor, a flow velocity sensor, and a pressure sensor. Further, the sensor 110 may be a button pressed by the user to perform a suction operation.
  • the sensor 110 may be, for example, a suction sensor, or may detect the user's suction to the flavor suction device 100. Further, the sensor 110 may be an airflow sensor, or may detect an airflow generated by suction by the user.
  • the changing unit 120 indicates a change part where a predetermined change that can be observed externally occurs.
  • the changing unit 120 may be an LED (Light Emitting Diode) that emits light in a predetermined color, for example, a blue LED, and the predetermined change may be an LED that emits light in a predetermined color, for example, blue.
  • the predetermined color is not limited to blue and may be any color.
  • the predetermined change may be a change in the color of light emission or a change in the intensity of light emission according to the intensity of suction sensed by the sensor 110.
  • the changing unit 120 is not limited to the LED, and may be a light source having another configuration that emits light in a predetermined color.
  • FIG. 1B shows the schematic appearance of 100 examples of flavor suction devices and the like.
  • the flavor suction device and the like 100 may have a stick shape including, but not limited to, two ends 161 and 162.
  • the user will hold to suck 161 on the other hand.
  • the user may hold the 161 in order to suck the 161 through a mouthpiece or the like that can be attached to the 161.
  • the changing portion 120 is provided on the other 162 of the above two ends and has a substantially rectangular shape.
  • FIG. 1C shows the schematic appearance of another example of 100 flavor suction devices and the like.
  • the difference between the flavor suction device 100 shown in FIG. 1C and that shown in FIG. 1B is the position and shape of the change portion 120. That is, in the flavor suction device 100 shown in FIG. 1C, the changing portion 120 is provided at a substantially intermediate portion between the end 161 and the end 162, and has an annular shape.
  • the changing portion 120 is at least a part of the outer surface of the flavor suction device 100, for example, in addition to a substantially rectangular shape or an annular shape as shown in FIGS. 1B and 1C, the outer circumference of the flavor suction device 100. It may have any shape, such as an annular shape (not shown) along the line.
  • the design 121 in FIGS. 1B and 1C shows a design confusing with a predetermined change attached to the flavor suction device 100.
  • the design 121 can be, for example, a pattern of the predetermined color when the predetermined change is the emission of the predetermined color.
  • the design 121 is close to the changing portion 120, but the design 121 may be present at any part of 100 such as a flavor suction device.
  • the shape of the design 121 is arbitrary, and there may be one or more discontinuous designs 121.
  • the design 121 may not exist.
  • the 130 detects at least the suction of the flavor suction device and the like 100 by the user based on the signal from the sensor 110, and when the suction is detected, the control that causes the change unit 120 to make a predetermined change. Shows the part.
  • the control unit 130 is determined by the user, for example, based on the magnitude of the signal from the sensor 110 or the suction strength determined based on the signal (hereinafter, referred to as “sensor signal or the like”) being equal to or higher than a predetermined threshold value.
  • the suction of 100 such as a flavor suction device
  • the suction is detected
  • the changing unit 120 may generate light emission of a predetermined color.
  • control unit 130 may change the color of light emission and the intensity of light emission in the changing unit 120 according to, for example, the magnitude of the signal from the sensor or the intensity of suction determined based on the signal. For example, the control unit 130 may increase the intensity of light emission when the suction is strong, and may decrease the intensity of light emission when the suction is weak. Further, for example, the control unit 130 may divide the suction strength into a plurality of stages, set a predetermined color for each of the plurality of stages, and emit a predetermined color corresponding to the suction strength. The control unit 130 can detect the end of suction by the user of the flavor suction device or the like 100, and when the end of the suction is detected, can end a predetermined change in the change unit 120.
  • the control unit 130 detects, for example, the end of suction of the flavor suction device 100 by the user based on the sensor signal or the like becoming equal to or less than a predetermined threshold value, and when the end of the suction is detected, the change unit 120 A predetermined change may be terminated.
  • the control unit 130 may be an electronic circuit module configured as a microprocessor or a microcomputer.
  • the period during which the user sucks the flavor suction device or the like 100 and the period during which a predetermined change occurs coincide with each other.
  • the former period and the latter period may actually differ. Specifically, there may be a delay between the time when the suction by the user is determined to be completed and the time when the predetermined change is completed. Further, in place of or in addition to the delay, there may be a delay from the determination that the suction by the user has started to the start of the predetermined change.
  • FIG. 2 is a block diagram of an exemplary configuration of the system 200 according to the embodiment of the present invention. It should be noted that FIG. 2 shows roughly and conceptually each component included in the system 200, and does not show the exact arrangement, shape, dimensions, positional relationship, etc. of each component and the system 200. Also note that the system 200 may include components not shown.
  • the example of the system 200 is one computer such as a smartphone, a tablet, and a personal computer, but the system 200 is not limited to this.
  • the detection unit 210 described later may be realized by a digital camera externally connected to the computer.
  • Reference numeral 210 denotes a detection unit for detecting at least a part of 100 such as a flavor suction device, for example, an externally observable predetermined change occurring in the change unit 120.
  • the detection unit 210 may be realized by using at least a general digital camera, a temperature sensor, or the like as a hardware resource.
  • the temperature sensor includes a thermography camera that outputs a two-dimensional image like a general digital camera.
  • the display unit 220 indicates a display unit for displaying information based on the detection of the predetermined change.
  • the display unit 220 may be realized by using at least a display (including a touch panel display) as a hardware resource.
  • the input unit 230 indicates an input unit for receiving input from the user.
  • the input unit 230 may be realized by using at least a keyboard, a mouse, a touch panel display, or the like as hardware resources.
  • the 240 indicates a storage unit for storing programs, data, and the like.
  • the storage unit 240 may be realized by using at least an HDD (Hard Disk Drive), an SSD (Solid State Drive), a memory, or the like as hardware resources.
  • the storage unit 240 may be referred to as a non-temporary computer-readable storage medium.
  • the communication unit 250 indicates a communication unit for communicating with another computer.
  • the communication unit 250 may be realized by using at least a network interface or the like as a hardware resource.
  • the control unit 260 indicates a control unit for performing various controls.
  • the control unit 260 may be realized by using at least a processor or the like as a hardware resource.
  • the control unit 260 may be configured to make a determination regarding how the user sucks.
  • the determination regarding the sucking method of the user includes detecting a predetermined change occurring in the changing portion 120 of the flavor suction device and the like 100, and displaying information based on the detection of the predetermined change.
  • the display unit 220 can further display the result of the determination.
  • the control unit 260 may be configured to allow the user to select one of the plurality of sucking methods via the input unit 230.
  • the display unit 220 can further display information based on the selected sucking method.
  • the control unit 260 may be configured to transmit / receive data via the communication unit 250.
  • the display unit 220 can further display information based on the received data.
  • FIG. 3 is a block diagram of an exemplary configuration of the system 300 according to an embodiment of the present invention. It should be noted that FIG. 3 shows roughly and conceptually each component included in the system 300, and does not show the exact arrangement, shape, dimensions, positional relationship, etc. of each component and the system 300. Also note that the system 300 may include components not shown.
  • the system 300 includes the flavor suction device 100 and the system 200 as its components.
  • 100A and 100B correspond to 100 flavor suction devices and the like.
  • 200A and 200B correspond to the system 200.
  • 310A and 310B indicate that the systems 200A and 200B detect predetermined externally observable changes that occur in at least a part of 100A and 100B such as a flavor suction device, respectively.
  • the 320 indicates one or more networks including the Internet.
  • the systems 200A and 200B can be connected to the network 320 by wire or wirelessly.
  • server 330 indicates one or more servers, each composed of one or more computers. At least a part of the server 330 may provide the systems 200A and 200B with programs, data, and the like for causing the systems 200A and 200B to execute the method described later.
  • the program may be provided in a form installed in the systems 200A and 200B (so-called "app"), or may be executed via a web browser executed in the systems 200A and 200B (for example, HTML (for example, HTML). It may be provided on a web page composed of Hyperext Markup Language), JavaScript (registered trademark), or the like.
  • Such a form may include PWA (Progressive Web Apps).
  • FIG. 4A represents an exemplary screen (hereinafter, referred to as “first test screen”) 400A for performing a test related to detection of the predetermined change of the flavor suction device 100.
  • 410 shows a real-time image from the detection unit 210.
  • 411A shows a frame drawn in a predetermined area of the real-time image 410.
  • the user is prompted to shoot a moving image while trying to suck the flavor suction device or the like 100. More specifically, the user can determine the relative distance between himself and the detection unit 210 so that the changing portion 120 of the flavor suction device or the like 100 enters the frame 411, preferably only the changing portion 120 enters the frame 411A. You will be prompted to adjust your posture. Then, when the user performs a suction operation and the system 200 detects the change generated in the change unit 120 in the frame 411A, the system 200 determines that the detection has been successful.
  • An example of the change that occurs in the change unit 120 is light emission of a predetermined color as described above.
  • the predetermined color is, for example, blue
  • the detection from the entire real-time image 410 may erroneously detect the blue clothes worn by the user as blue light emission.
  • the detection using the frame 411A is intended to improve the detection accuracy of a predetermined change.
  • the detection of a predetermined change may be performed using an arbitrary image recognition algorithm. Therefore, if the performance of the image recognition algorithm used is good and a predetermined change can be sufficiently distinguished from other than that, the frame 411A is not always necessary, and the predetermined change may be detected from the entire real-time image 410.
  • FIG. 4B represents another example screen (hereinafter, referred to as “second test screen”) 400B for performing a test related to the detection of the above-mentioned predetermined change of the flavor suction device and the like 100.
  • the difference between the second test screen 400B and the first test screen 400A is the shape and technical significance of the frame drawn in a predetermined area of the real-time image 410.
  • the frame 411B has a shape corresponding to the shape of 100 such as a flavor suction device, whereas the frame 411A does not.
  • the shape corresponding to the flavor suction device 100 is, for example, a shape in which the entire flavor suction device 100 can be matched with the frame 411B by adjusting the relative distance and posture between the user and the detection unit 210 (hereinafter,). , "First shape").
  • the shape corresponding to the flavor suction device 100 is to match only a specific part of the flavor suction device 100 with the frame 411B by adjusting the relative distance or posture between the user and the detection unit 210, for example. It is a shape that can be formed (hereinafter, referred to as "second shape").
  • the shape corresponding to the flavor suction device 100 is only a specific design such as a pattern attached to the flavor suction device 100 by adjusting the relative distance or posture between the user and the detection unit 210, for example. It is a shape that can be matched with the frame 411B (hereinafter, referred to as “third shape”).
  • the flavor suction device 100 may have a design 121 that is confusing with a predetermined change. In such a case, especially when the change portion 120 and the design 121 are in close proximity to each other, if the frame 411A is used for detection, it is erroneously detected that the design 121 has entered the frame 411A as a predetermined change has occurred. there is a possibility.
  • a predetermined position or a predetermined range 412 (necessary to be shown on the real-time image 410) in the real-time image 410 where the changing portion 120 will be present when the frame and the flavor suction device 100 overlap each other. )
  • the predetermined position or the predetermined range exists in the frame 411B when the frame 411B has the first shape. However, when the frame 411B has the second shape or the third shape, the predetermined position or the predetermined range may exist inside the frame 411B or outside the frame 411B.
  • the detection of a predetermined change may be attempted only when it is determined that the frame 411B and the flavor suction device 100 overlap.
  • “the frame 411B and the flavor suction device 100 overlapped” means that when the frame 411B had the second shape, the frame 411B and a specific part of the flavor suction device 100 overlapped.
  • the frame 411B has the third shape, the frame 411B and the specific design attached to the flavor suction device 100 are overlapped.
  • this determination may be performed using an arbitrary image recognition algorithm, and the frame 411B and the flavor suction device 100 (or a specific part or a specific design of the flavor suction device 100) completely overlap. It should be noted that the procedure may be performed in consideration of a predetermined error or deviation.
  • test screen 400 the first test screen 400A and the second test screen 400B are collectively referred to as "test screen 400".
  • the frames 411A and 411B are collectively referred to as “frame 411”.
  • FIG. 5A represents an example screen (hereinafter, referred to as “sucking method confirmation screen”) 500 for the user to confirm how to suck 100 flavor suction devices and the like.
  • FIG. 5A shows the case where the frame 411B is used, the frame 411A may be used for the sucking method confirmation screen 500.
  • the UI components 511 and 512, the UI components 513 and 514, and the UI components 515 and 516 are for performing confirmations regarding the first sucking method, the second sucking method, and the third sucking method, respectively.
  • the confirmation regarding the sucking method is not limited to the confirmation regarding the three sucking methods, and may be any number. It is assumed that the confirmation regarding one sucking method is performed multiple times. It should be noted that the confirmation regarding one sucking method may be executed once, and may not necessarily be executed a plurality of times. Each check is initiated by selecting each of the UI components 511-516.
  • sucking method confirmation screen 500 shown in FIG. 5A the first confirmation regarding the first sucking method has been completed, the second confirmation regarding the first sucking method is being executed, and the second sucking method is being executed. And the confirmation about the third sucking method is when it has not been executed.
  • Reference numeral 520 indicates a UI component for displaying information based on the detection of an externally observable predetermined change occurring in at least a part of 100 such as a flavor suction device, for example, a change unit 120.
  • Each of 521 and 522 indicates a character and a gauge representing a time (hereinafter, referred to as “detection time” for convenience) to be updated based on the detection of the predetermined change as one or more information representing the time.
  • the gauges 522 shown in FIGS. 5A to 5I are circular in which the position of the zero value and the position of the maximum value are adjacent to each other, but the gauge 522 is not limited to this.
  • Reference numeral 523 indicates a character representing the elapsed time from the start of the execution of the confirmation of the sucking method.
  • FIG. 5B shows an example of the UI component 520 immediately after selecting the UI component 510.
  • the detection time represented by the character 521 is zero, and the current value 530 of the gauge 522 is also zero. Further, in FIG. 5B, the elapsed time represented by the character 523 is also zero.
  • FIG. 5C shows an example of the UI component 520 when 0.52 seconds have passed since the UI component 510 was selected.
  • the elapsed time represented by the character 523 is 0.52 seconds.
  • the detection time represented by the character 521 is 0.35 seconds
  • the current value 530 of the gauge 522 is also a value corresponding to 0.35 seconds. That is, FIG. 5C shows that the detection time is 0.35 seconds out of the 0.52 seconds that have passed since the UI component 510 was selected.
  • this detection time is counted based on the detection of the predetermined change, but it does not always coincide with the time for detecting the predetermined change.
  • at least one of the one or more information representing the detection time included in the UI component 520 may represent a detection time different from the other information.
  • FIG. 5I shows an example of such a UI component 520, where the detection time represented by the character 521 is 0.15 seconds, while the current value 530 of the gauge 522 is a value corresponding to 0.35 seconds. ing.
  • the operation of one suction by the user may be intermittent.
  • the user may hold his / her breath for reasons such as shortness of breath during one suction operation.
  • the system 200 can determine that the suction is interrupted when the predetermined change is not detected for a predetermined time or longer.
  • FIG. 5D shows an example of UI component 520 after a suction interruption occurs.
  • the suction is interrupted when the UI component 520 is in the state shown in FIG. 5C.
  • the elapsed time represented by the character 523 is 0.98 seconds.
  • the detection time represented by the character 521 is 0.43 seconds
  • the current value 530 of the gauge 522 is also a value corresponding to 0.43 seconds. That is, FIG. 5D shows the UI component 520 when the detection time is once reset due to the interruption of suction, and shows that the detection time after the interruption of suction is 0.43 seconds.
  • the UI component 520 can indicate that the suction interruption has occurred, and as an example, the gauge 522 in FIG. 5D after the suction interruption has a gauge in FIG. 5C before the suction interruption has occurred. It is displayed differently from 522.
  • FIG. 5E shows another example of the UI component 520 after the suction interruption occurs.
  • the suction is interrupted when the UI component 520 is in the state shown in FIG. 5C.
  • the elapsed time represented by the character 523 is 0.98 seconds.
  • the detection time represented by the character 521 is 0.58 seconds
  • the current value 530 of the gauge 522 is a value corresponding to 0.78 seconds. That is, FIG. 5E shows the UI component 520 when the detection time is not once reset due to the interruption of suction, and the total detection time before and after the interruption of suction is 0.58 seconds for the character 521 and 0.58 seconds for the gauge 522. It represents 0.78 seconds.
  • the UI component 520 can indicate that the suction interruption has occurred, and as an example, in FIG. 5E, the gauges 522 are displayed differently before and after 535 when the suction interruption occurs. ..
  • Each of the above-mentioned first suction method, second suction method, and third suction method has, as a parameter, a time (for example, 1 second, respectively, for which the user is expected to suck in at least one suction). 2 seconds and 3 seconds; hereinafter referred to as "reference time”) are defined.
  • 5F and 5G show an example of the UI component 520 when 0.90 seconds have passed since the UI component 510 was selected.
  • the detection time represented by the character 521 and the gauge 522 is 0.80 seconds, but the apparent position of the current value 530 of the gauge 522 is different.
  • the maximum value 540 of the gauge 522 in FIGS. 5F and 5G is set as a value corresponding to 1.0 second and 2.0 seconds, respectively. In this way, when confirming the suction method, the user is trying to confirm his / her own suction method with respect to the suction time by determining the maximum value of the gauge 522 based on the reference time determined in the suction method.
  • the user can determine the position of the gauge value exactly. It is particularly advantageous to suck so as to make one round, because the sucking method assumed for the reference time can be performed.
  • the UI component 520 in place of or in addition to the character 523 indicating the elapsed time, information indicating the remaining time from the start of the execution of the confirmation of the sucking method to the elapse of the reference time may be displayed. ..
  • the UI component 520 may display information representing the reference time itself. Further, the UI component 520 does not have to display the character 521 representing the detection time and the character 523 representing the elapsed time, and FIG. 5H shows such an example.
  • the parameter defined in the suction method may include the strength of suction.
  • FIG. 6 shows an example screen (hereinafter, referred to as “result display screen”) 600 for displaying the result of confirming how the user sucks 100, such as a flavor suction device.
  • the confirmation of the sucking method may include determining for each sucking method whether the reference time determined in the sucking method and the detection time match within a predetermined error range. it can.
  • the result 610 in this example was determined in the first sucking method, the second sucking method, and the third sucking method twice, and only once for each sucking method. It shows that the reference time and the detection time match within a predetermined error range.
  • the predetermined error is, for example, 0.2 seconds, but is not limited to this, and may be another predetermined value including zero, a reference time multiplied by a predetermined ratio, or the like.
  • the predetermined error is not limited to this.
  • the suction strength determined by the suction method and the suction strength estimated by the user based on the output from the detection unit 210 match within a predetermined error range. It may include determining whether to do so.
  • the UI component 620 shows an example of a UI component for selecting one of the first sucking method, the second sucking method, and the third sucking method.
  • the UI component 620 may be configured so that one or more of the first sucking method, the second sucking method, and the third sucking method can be selected.
  • the UI component 620 may be for receiving a selection of sucking methods that is good for the user, the system 200 can send the selected sucking method to the server 330, and the server 330 receives the selected selection. Arbitrary statistical processing based on how to suck can be performed.
  • the UI component 620 can be configured so that at least once, only the sucking method in which the predetermined reference time and the detection time match within a predetermined error range can be selected. Only such a sucking method can display the corresponding UI component 620. By doing so, it is possible to increase the possibility that the sucking method transmitted to the server 330 reflects the user's experience, and thus improve the reliability of the statistical processing on the server 330.
  • the detection time used on the result display screen 600 has been corrected in consideration of the difference between the period in which the user's suction operation is detected in the flavor suction device 100 and the period in which the predetermined change occurs. It is preferably time. Further, the UI component 620 may be for receiving a selection of a sucking method that is not good for the user, a sucking method that has a chewy feeling, and the like.
  • FIG. 7 represents an example screen (hereinafter, referred to as “reference display screen”) for displaying reference information to the user.
  • the data for displaying the graph 710 can be generated by the server 330 by statistical processing based on the sucking method selected by the plurality of users received from the plurality of systems 200.
  • Graph 710 is an example of information representing a sucking method selected by a plurality of users.
  • the reference display screen 700 can display recommended information based on the selected sucking method in addition to or in place of the graph 710.
  • recommended information is information about recommended flavors.
  • the preferred sucking method may differ for each flavor.
  • the system 200 displays information about flavors with a suitable suction time of 1 second as recommended information. be able to.
  • the data for displaying the recommended information the data stored in advance in the system 200 may be used, or the data received from the plurality of systems 200 may be statistically processed based on the sucking method selected by the plurality of users.
  • the one generated by the server 330 may be used.
  • the system 200 displays a screen (not shown) that allows the user to select the flavor currently used in the flavor suction device 100, etc., and transmits the selected flavor to the server 330.
  • Server 330 can generate data for displaying information about recommended flavors by statistical processing based on flavors selected by a plurality of users and sucking methods selected by a plurality of users.
  • the display unit 220 may display a sucking method reconfirmation or practice screen (not shown) for the user to reconfirm or practice the selected sucking method.
  • the sucking method reconfirmation or practice screen can include UI control 510 and UI control 520 corresponding to the selected sucking method.
  • FIGS. 8A to 8C show a flowchart of an exemplary method 800 executed by system 200. More specifically, the exemplary method 800 may be performed by the control unit 260 of the system 200.
  • 810 shows a step of displaying the test screen 400 on the display unit 220.
  • step 820 indicates a step of determining whether a predetermined change occurring in at least a part of the flavor suction device or the like 100 is detected based on the output from the detection unit 210. If the predetermined change is detected, the process proceeds to step 830, otherwise step 820 is repeated.
  • Step 820 can include a step of determining whether or not the predetermined change is detected based on the image in the frame 411A in the real-time image 410 included in the output from the detection unit 210.
  • the predetermined change is based on the image of the predetermined position or the predetermined range 412 in the real-time image 410 in which the change portion 120 will be present when the frame 411B and the flavor suction device 100 overlap.
  • the frame 411 is not always necessary as long as the predetermined change and the non-predetermined change can be sufficiently distinguished, and the predetermined change occurring in at least a part of 100 such as the flavor suction device is the entire real-time image 410. It may be determined whether or not it is detected by.
  • FIG. 9 shows a flowchart of another exemplary step that step 820 may include.
  • Reference numeral 910 indicates a step of determining whether the flavor suction device 100 overlaps with the frame 411B in the real-time image 410. If it is determined that the flavor suction device 100 overlaps with the frame 411B, the process proceeds to step 920, and if not, step 910 is repeated.
  • step 820 ends, otherwise the process returns to step 910.
  • 830 shows a step of displaying the sucking method confirmation screen 500 on the display unit 220.
  • step 840 indicates a step of determining whether the UI component 510 is selected. This step includes a step of receiving as a selection a sucking method corresponding to the selected UI component 510 from a plurality of sucking methods. If it is determined that the UI component 510 has been selected, the process proceeds to step 850, otherwise it repeats step 840.
  • This step 850 indicates a step of initializing the UI component 520.
  • This step includes a step of determining a maximum value of 540 of the gauge 522 based on a reference time determined in the selected sucking method.
  • an instruction about how to suck ("Please suck strongly” etc.) and a message indicating that confirmation of how to suck such as "Start" has started are displayed on the display unit 220 for the user.
  • step 855 indicates a step of detecting a predetermined change and displaying information on the display unit 220.
  • step 855 includes a step of displaying information based on the detection of a predetermined change, and the step includes a period during which the action of suction by the user is detected in the flavor suction device or the like 100, and a predetermined period. Includes steps to control the display of information based on the difference from the period of change.
  • the difference between the period in which the action of the user sucking in the flavor suction device 100 and the period in which the predetermined change occurs is, for example, the action of the user sucking in the flavor suction device 100.
  • the difference may include one or both of the first predetermined time, which is the length of the former delay, and the second predetermined time, which is the length of the latter delay.
  • FIG. 10A shows a flow chart of exemplary steps that step 855 may include.
  • Reference numeral 1010 indicates a step of displaying the character 523 indicating the elapsed time on the display unit 220. Step 1010 includes updating the display of the character 523 representing the elapsed time as time elapses.
  • Reference numeral 1020 indicates a step of determining whether or not the predetermined change has been detected based on the output from the detection unit 210. Step 1020 may be the same step as step 820. If it is determined that the predetermined change is detected, the process proceeds to step 1022, and if not, the process proceeds to step 1030.
  • Step 1022 indicates a step of displaying the character 521 indicating the detection time and the gauge 522 on the display unit 220.
  • Step 1022 includes a step of updating the display of the character 521 representing the detection time and the gauge 522 with the passage of time.
  • Step 1022 is an example of a step of displaying one or more pieces of information representing time so as to indicate the passage of time when a predetermined change is detected.
  • Reference numeral 1030 indicates a step of determining whether or not the end of the predetermined change has been detected. In step 1030, it may be determined that the end of the predetermined change has been detected based on the output from the detection unit 210. Alternatively, in step 1030, when the determination in the immediately preceding step 1020 is true but the determination in the immediately preceding step 1020 is false by using a flag or the like, the end of the predetermined change is completed. May be determined to have been detected. If the end of the predetermined change is detected, the process proceeds to step 1032, otherwise the process proceeds to step 1090.
  • Step 1032 shows a step of returning the display of the gauge 522 on the display unit 210 to the one before the first predetermined time.
  • Step 1032 corresponds to, for example, a step of updating what was displayed in FIG. 5C until immediately before to the display in FIG. 5I.
  • the first predetermined time in this example is 0.2 seconds.
  • the first predetermined time may be other than 0.2 seconds, may be predetermined, or may be arbitrarily set. Further, the first predetermined time may be set according to 100 types such as a flavor suction device.
  • the first predetermined time for one type of flavor suction device 100 may be set to 0.2 seconds, and the first predetermined time for another different type of flavor suction device 100 may be set to 0.15 seconds. ..
  • Step 1032 is an example of a step of returning at least one of the one or more information representing the time to the display before the first predetermined time when the end of the predetermined change is detected.
  • the first predetermined time may be an average value of the time from the detection of the end of the operation of sucking by the user to each of the plurality of flavor suction devices 100 to the end of the predetermined change. .. For example, for each of a plurality of flavor suction devices of the same type, the time from the detection of the end of the suction operation by the user to the end of the predetermined change is measured, and the average of the measured times is measured. The value may be the first predetermined time. Further, for each of a plurality of flavor suction devices of different types, etc. 100, the time from the detection of the end of the suction operation by the user to the end of the predetermined change is measured, and the average of the measured times is measured. The value may be the first predetermined time.
  • the first predetermined time may be set individually for each of the plurality of flavor suction devices and the like 100.
  • the storage unit 240 of the system 200 stores the first predetermined time for each 100, for example, a plurality of flavor suction devices.
  • the system 200 reads an identifier (for example, a QR code (registered trademark)) displayed on the flavor suction device or the like 100 by the detection unit 210, and displays the identifier using the first predetermined time associated with the identifier.
  • the step of returning the display of the gauge 522 in the unit 210 to the one before the first predetermined time is executed.
  • the first predetermined time may be set for each of 100 types of flavor suction devices and the like.
  • the storage unit 240 of the system 200 stores the first predetermined time for each of 100 types such as the flavor suction device. Then, the system 200 reads, for example, an identifier (for example, a QR code (registered trademark)) displayed on the flavor suction device 100 by the detection unit 210, identifies the type of the flavor suction device 100, and associates it with the type.
  • an identifier for example, a QR code (registered trademark)
  • the step of returning the display of the gauge 522 on the display unit 210 to the one before the first predetermined time is executed.
  • the user or the like instead of reading the identifier (for example, QR code (registered trademark)) displayed on the flavor suction device 100 by the detection unit 210, the user or the like first depending on the type of the flavor suction device 100. It may have a function that can select a predetermined time.
  • the identifier for example, QR code (registered trademark)
  • step 1090 indicates a step of determining whether the elapsed time is larger than the reference time + ⁇ .
  • is, for example, 0.2 seconds, but is not limited to this, and may be a predetermined other value including zero, a reference time multiplied by a predetermined ratio, or the like. If the elapsed time is greater than the reference time + ⁇ , step 855 ends, otherwise the process returns to step 1010.
  • FIG. 10B shows a flowchart of another exemplary step that step 855 may include.
  • step 855 may include.
  • Step 1024 indicates a step of displaying a gauge 522 indicating the detection time on the display unit 220.
  • the character 521 representing the detection time is not displayed.
  • Step 1024 includes updating the display of the gauge 522, which represents the detection time, over time.
  • Step 1024 is an example of a step of displaying one or more pieces of information representing time to indicate the passage of time when a predetermined change is detected.
  • Step 1034 indicates a step of correcting the detection time according to the first predetermined time and displaying the character 521 indicating the detection time on the display unit 220.
  • This correction takes into consideration the difference between the period in which the user's suction operation is detected in the flavor suction device 100 and the period in which the predetermined change occurs.
  • the time represented by the character 521 is , The time may be derived by subtracting the first predetermined time from the current detection time.
  • Step 1034 displays the second one or more information representing the time obtained by subtracting the first predetermined time from the time represented by the one or more information representing the first time when the end of the predetermined change is detected. This is an example of steps.
  • FIG. 10C shows a flowchart of yet another exemplary step that step 855 may include.
  • step 855 may include.
  • step 1050 indicates a step of determining whether or not the predetermined change has been continuously detected for the first predetermined time or longer.
  • step 1050 after detecting the start of the predetermined change based on the output from the detection unit 210 and using a flag or the like as described later, the end of the predetermined change is completed for the first predetermined time or longer. If it is not detected, it may be determined that the predetermined change is continuously detected for the first predetermined time or longer.
  • Step 1032 in FIG. 10C is an example of a step of displaying one or more information representing the time so as to indicate the passage of time when the predetermined change is continuously detected for the first predetermined time or longer.
  • FIG. 10D shows a flow chart of yet another exemplary step that step 855 may include.
  • step 855 may include.
  • Reference numeral 1060 indicates a step of determining whether or not the start of the predetermined change has been detected based on the output from the detection unit 210.
  • the predetermined change is detected for the first time by using a flag or the like, or after the end of the predetermined change is detected and before the start of the predetermined change is detected. When it is detected, it may be determined that the start of the predetermined change has been detected.
  • step 1062 indicates a step of correcting the detection time according to the second predetermined time.
  • the correction in step 1062 may be, for example, adding a second predetermined time to the current detection time.
  • Steps 1062 and 1032 in FIG. 10D indicate the passage of time when a predetermined change is detected, and are predetermined from a second predetermined time before the start of the predetermined change is actually detected. This is an example of a step of displaying one or more pieces of information representing time as if the start of a change in was detected.
  • step 855 may include a step in which the step shown in any of FIGS. 10A to 10C and the step shown in FIG. 10D are combined.
  • 860 shows a step of determining whether the user's sucking method matches the sucking method corresponding to the selected UI component 510.
  • This step can include a step of determining whether the reference time determined in the sucking method corresponding to the selected UI component 510 and the detection time match within a predetermined error range.
  • the detection time is preferably a time corrected in consideration of the difference between the period in which the user's suction operation is detected in the flavor suction device or the like 100 and the period in which the predetermined change occurs.
  • the predetermined error may be the same as that of ⁇ , but is not limited to this.
  • this step includes a step of determining whether the suction strength by the user and the suction strength determined in the suction method corresponding to the selected UI component 510 match within a predetermined error range. You can go out. If the sucking methods match, the process proceeds to step 862, otherwise the process proceeds to step 864.
  • steps 862 and 864 indicate the steps to update the display of the selected UI component 510 to the first display (“ ⁇ ” in this example) and the second display (“ ⁇ ” in this example), respectively. There is. It should be noted that these steps can include a step of displaying a message for the user indicating that the confirmation of the sucking method such as "end" has been completed.
  • step 866 indicates a step of determining whether or not there is a UI component 510 that has not yet been selected. If present, the process returns to step 840, otherwise the process proceeds to step 870.
  • 870 shows a step of displaying the result display screen 600 on the display unit 220.
  • This step is a message about the criteria for choosing the sucking method selected via the result display screen 600 (for example, "Please choose the sucking method you like", “Select the sucking method you think is not good”. , "Please select the sucking method that you think was chewy”, etc.) can be included in the display unit 220.
  • step 880 indicates a step of determining whether the UI component 620 is selected. This step includes a step of selectively receiving a sucking method corresponding to the selected UI component 620 among a plurality of sucking methods. If it is determined that the UI component 620 has been selected, the process proceeds to step 882, otherwise it repeats step 880.
  • This step can include receiving data from the server 330 for displaying recommended information.
  • step 890 indicates a step of displaying the reference display screen 700 on the display unit 220.
  • a sucking method reconfirmation or practice screen may be displayed.
  • FIG. 11 shows an example of the hardware configuration of the computer.
  • the computer 1100 mainly includes a processor 1110, a main storage device 1120, an auxiliary storage device 1130, an input / output interface 1140, and a communication interface 1150 as hardware resources. These are connected to each other via a bus line 1160 including an address bus, a data bus, a control bus and the like. An interface circuit (not shown) may be appropriately interposed between the bus line 1160 and each hardware resource.
  • the processor 1110 controls the entire computer.
  • the main storage device 1120 provides a work area for the processor 1110 and is a volatile memory such as a SRAM (Static Random Access Memory) or a DRAM (Dynamic Random Access Memory).
  • SRAM Static Random Access Memory
  • DRAM Dynamic Random Access Memory
  • the auxiliary storage device 1130 is a non-volatile memory such as an HDD, SSD, or flash memory that stores software programs and data.
  • the program, data, or the like is loaded from the auxiliary storage device 1130 to the main storage device 1120 via the bus line 1160 at an arbitrary time point.
  • Auxiliary storage device 1130 may be referred to as a non-temporary computer-readable storage medium.
  • the input / output interface 1140 performs one or both of presenting information and receiving input of information, and is a digital camera, keyboard, mouse, display, touch panel display, microphone, speaker, temperature sensor, or the like. is there.
  • the communication interface 1150 is connected to the network 320, and sends and receives data via the network 320.
  • the communication interface 1150 and the network 320 may be connected by wire or wirelessly.
  • the communication interface 1150 may also acquire information related to the network, for example, information related to a Wi-Fi access point, information related to a base station of a communication carrier, and the like.
  • Gauge 523 indicating the detection time ... Characters representing elapsed time 530... Current value of gauge 522 535... Suspension of suction 540... Maximum value of gauge 522 600... Result display screen 610... Result 620... UI component for selecting suction method 700... Reference display screen 710 ... Graph showing the percentage of users who like each way of smoking

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  • Engineering & Computer Science (AREA)
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  • Computer Hardware Design (AREA)
  • General Physics & Mathematics (AREA)
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  • User Interface Of Digital Computer (AREA)
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PCT/JP2019/033883 2019-08-29 2019-08-29 香味吸引器具等の吸い方を確認するためのプログラム、方法及びシステム WO2021038784A1 (ja)

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PCT/JP2019/033883 WO2021038784A1 (ja) 2019-08-29 2019-08-29 香味吸引器具等の吸い方を確認するためのプログラム、方法及びシステム
JP2021541893A JP7496360B2 (ja) 2019-08-29 2019-08-29 香味吸引器具等の吸い方を確認するためのプログラム、方法及びシステム
EP19943619.7A EP4023088A4 (de) 2019-08-29 2019-08-29 Programm, verfahren und system zum überprüfen des saugverfahrens eines geschmacksauginstruments usw.
TW109103049A TWI801709B (zh) 2019-08-29 2020-01-31 用以確認香味吸嚐器具等之吸法的程式、方法及系統

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EP4023088A4 (de) 2023-06-14
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JPWO2021038784A1 (de) 2021-03-04
JP7496360B2 (ja) 2024-06-06

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