WO2021038786A1 - 香味吸引器具等を操作手段として用いるためのプログラム、方法及びシステム並びに操作手段として適した香味吸引器具等 - Google Patents

香味吸引器具等を操作手段として用いるためのプログラム、方法及びシステム並びに操作手段として適した香味吸引器具等 Download PDF

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Publication number
WO2021038786A1
WO2021038786A1 PCT/JP2019/033885 JP2019033885W WO2021038786A1 WO 2021038786 A1 WO2021038786 A1 WO 2021038786A1 JP 2019033885 W JP2019033885 W JP 2019033885W WO 2021038786 A1 WO2021038786 A1 WO 2021038786A1
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WO
WIPO (PCT)
Prior art keywords
predetermined
suction device
flavor suction
change
detected
Prior art date
Application number
PCT/JP2019/033885
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English (en)
French (fr)
Japanese (ja)
Inventor
将人 板橋
政義 猿谷
美紀 若松
雅俊 千住
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/JP2019/033885 priority Critical patent/WO2021038786A1/ja
Priority to JP2021541895A priority patent/JPWO2021038786A1/ja
Priority to TW109102828A priority patent/TW202109291A/zh
Publication of WO2021038786A1 publication Critical patent/WO2021038786A1/ja

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Classifications

    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F47/00Smokers' requisites not otherwise provided for
    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/03Arrangements for converting the position or the displacement of a member into a coded form
    • G06F3/033Pointing devices displaced or positioned by the user, e.g. mice, trackballs, pens or joysticks; Accessories therefor
    • G06F3/0346Pointing devices displaced or positioned by the user, e.g. mice, trackballs, pens or joysticks; Accessories therefor with detection of the device orientation or free movement in a 3D space, e.g. 3D mice, 6-DOF [six degrees of freedom] pointers using gyroscopes, accelerometers or tilt-sensors
    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/048Interaction techniques based on graphical user interfaces [GUI]
    • G06F3/0481Interaction techniques based on graphical user interfaces [GUI] based on specific properties of the displayed interaction object or a metaphor-based environment, e.g. interaction with desktop elements like windows or icons, or assisted by a cursor's changing behaviour or appearance
    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/048Interaction techniques based on graphical user interfaces [GUI]
    • G06F3/0484Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
    • G06F3/0485Scrolling or panning
    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/048Interaction techniques based on graphical user interfaces [GUI]
    • G06F3/0487Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser

Definitions

  • the present invention relates to a flavor suction device or an aerosol generator (hereinafter referred to as "flavor suction device, etc.”). More specifically, the present invention relates to operating a computer using a flavor suction device or the like.
  • flavor suction device is a device for sucking flavor, and is not limited to, but is intended for, for example, electronic cigarettes, heat-not-burn tobacco, and conventional cigarettes.
  • 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.
  • Patent Document 1 describes an assembly 1702 which is a personal steam device, and the assembly 1702 has a shape similar to a stylus for a touch screen and performs a slylas function. It is described that one or both of the shapes can be formed (see paragraphs [00134] and [00144], etc.).
  • Patent Document 2 describes a flavor delivery system 5 including a housing 300, which describes that the housing 300 is configured to hold a suction article 10 and a writing instrument 315 replaceable with a stylus. (See paragraphs [0048] and [0111], etc.).
  • Patent Document 3 describes a steam device 10 to which the mouthpiece cover 64 is attached, which operates a capacitive touch screen on an electronic device and is not used for steam. It is stated that the tip of a capacitive material 66 that sometimes causes the device 10 to function as a stylus can be included (see paragraphs [0018] and [0036] and FIG. 3 and the like).
  • Patent Document 4 describes an aerosol delivery device that can include a stylus (see paragraph [0036] and the like).
  • Patent Document 5 describes an electronic cigarette equipped with a laser pen.
  • the computer can be operated by utilizing an externally observable predetermined change (for example, LED light emission) that occurs in at least a part of a flavor suction device or the like.
  • an externally observable predetermined change for example, LED light emission
  • the present invention has been made in view of the above, and the first object thereof is to provide a program or the like for operating a computer by using a flavor suction device or the like.
  • a second object of the present invention is to provide a flavor suction device or the like suitable for operating a computer using the above-mentioned predetermined changes.
  • a program causes a computer to perform a step of detecting one or both movements and a step of executing a predetermined action based on the detected change and one or both of the movements.
  • At least a part of the motion detected may be at least a part of the externally observable change.
  • the computer can be operated by using a flavor suction device or the like.
  • the step of executing a predetermined action may include a step of displaying a cursor on a computer when one or both of a predetermined change and a predetermined movement are detected.
  • the step of executing a predetermined action may include a step of moving the cursor displayed on the computer according to the detected movement.
  • the step of performing a predetermined action includes a step of making a selection based on the cursor displayed on the computer when one or both of a predetermined change and a predetermined movement are detected. You can go out.
  • the cursor displayed on the computer can be operated by using a flavor suction device or the like.
  • the step of executing a predetermined action may include a step of executing one or both of enlargement and reduction of the display on the computer according to the detected movement.
  • the step of detecting one or both of the change and the movement is executed based on the output from the detection unit, and the step of executing one or both of the enlargement and reduction of the display on the computer is executed.
  • the display on the computer can be enlarged or reduced by using a flavor suction device or the like.
  • the step of performing a predetermined action may include a step of scrolling the display on the computer according to the detected movement.
  • the step of scrolling the display on the computer is a step of setting the computer to a mode of scrolling the display on the computer when one or both of a predetermined change and a predetermined movement are detected. May include.
  • the display on the computer can be scrolled by using a flavor suction device or the like.
  • the predetermined change includes emission of an arbitrary color, emission of a predetermined color, an arbitrary change in the emission color, a predetermined change in the emission color, and blinking in an arbitrary pattern of emission.
  • the predetermined movement includes one or more of blinking in a predetermined pattern of light emission, light emission of a predetermined intensity, a predetermined change in the intensity of light emission, an arbitrary temperature change, and a predetermined temperature change. It may include one or more of the movement that draws a predetermined trajectory in the at least a part of the space where the movement is detected and the vibration of at least a part of the movement that is detected.
  • an externally observable change occurring in at least a part of the flavor suction device or the aerosol generation device and at least one of the flavor suction device or the aerosol generation device is provided.
  • a method performed by a computer comprising a step of detecting one or both of the movements of a unit and a step of performing a predetermined action based on the detected change and one or both of the movements.
  • the computer can be operated by using a flavor suction device or the like.
  • the detection unit and the control unit are at least a part of the flavor suction device or the aerosol generator based on the output from the detection unit. Detects one or both of the externally observable changes and the movements of at least a part of the flavor suction device or the aerosol generator, and executes a predetermined action based on the detected changes and one or both of the movements.
  • a system is provided with a control unit configured to do so.
  • the flavor suction device or the aerosol generating device is the flavor suction device or the aerosol generating device in response to a predetermined operation in a suctionable state.
  • a flavor suction device or an aerosol generator that causes a predetermined change that can be observed externally when not being sucked.
  • the predetermined operation may include a suction operation on the flavor suction device or aerosol generator for a predetermined time or less.
  • the predetermined operation includes continuous pressing of a button provided on the flavor suction device or aerosol generating device for a predetermined time or less or a predetermined time or longer, or pressing the button in a predetermined pattern. You can stay.
  • the flavor suction device or aerosol generating device may sustain the predetermined change for a predetermined time after the end of the suction operation for the flavor suction device or the aerosol generating device.
  • the flavor suction device or aerosol generating device may continue a predetermined change from the time when the button included in the flavor suction device or aerosol generating device is pressed until the button is pressed again.
  • a flavor suction device suitable for operating a computer using the predetermined change or the like can be provided.
  • 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.
  • It shows an example image output from the detection unit 210 when the distance between the change unit 120 and the detection unit 210 is relatively long. It is a figure for demonstrating the scrolling of the display of the display unit 220. It is a figure for demonstrating the movement of the cursor displayed on the display part 220. It shows an example of the hardware configuration of a computer.
  • 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 preferably provided at the other 162 of the above two ends.
  • 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 FIG. 1B, along the outer circumference of the flavor suction device 100. It may have any shape such as an annular shape (not shown). Further, a plurality of changing portions 120 may be provided in 100 such as a flavor suction device.
  • FIG. 1C shows an exemplary schematic appearance of 100 such flavor suction devices and the like.
  • the flavor suction device 100 shown in FIG. 1C includes, in addition to the changing portion 120 provided at the end 162, an annular changing portion 120 provided at an approximately intermediate portion between the end 161 and the end 162. ..
  • 130 indicates a control unit that causes a predetermined change in the change unit 120, at least based on a signal from the sensor 110.
  • the control unit 130 may cause a predetermined change in the change unit 120 when, for example, the magnitude of the signal from the sensor 110 or the suction strength determined based on the signal is equal to or greater than a predetermined threshold value. Further, the control unit 130 may cause a predetermined change in the change unit 120 according to, for example, the magnitude of the signal from the sensor 110 or the strength of suction determined based on the signal. For example, the control unit 130 may cause a predetermined change different depending on whether the suction is strong or weak.
  • control unit 130 may, for example, divide the suction strength into a plurality of stages and cause a predetermined change different for each of the plurality of stages. Further, the predetermined change may differ depending on the type of operation of the flavor suction device or the like 100 by the user.
  • the signal from the sensor 110 may be generated in response to a predetermined operation by a user of 100, such as a flavor suction device.
  • the flavor suction device 100 is preferably suitable for operating a computer utilizing a predetermined change, and therefore, in response to a predetermined operation in a suction-capable state, the change unit 120 is predetermined. Can be caused for a while when the user is not sucking, that is, when the user is not holding the flavor suction device or the like 100.
  • the suction-capable state is a state in which 100 power supplies such as a flavor suction device are already turned on.
  • control unit 130 may cause a predetermined change in response to a suction operation of 100 such as a flavor suction device by a user for a predetermined time, for example, 0.1 second or less.
  • This predetermined change preferably lasts for at least a predetermined time, for example 2-3 minutes, after the end of the suction operation.
  • control unit 130 continues to press the button of the sensor 110 for a predetermined time, for example, 0.1 second or less, or for a predetermined time, for example, for 1 second or longer, or for a predetermined pattern, for example, 1 second.
  • a predetermined change may occur.
  • This predetermined change also preferably lasts for at least a predetermined time, for example 2-3 minutes.
  • a plurality of buttons may be provided. For example, in a flavor suction device or the like 100 provided with a button that turns off the power when pressed for a long time, another button may be provided for causing a predetermined change by pressing and holding.
  • control unit 130 may sustain a predetermined change for a predetermined time, for example, 2 to 3 minutes after the suction operation of the flavor suction device or the like 100 by the user is completed.
  • the predetermined time may be, for example, a proportional length according to the length of the suction operation time.
  • control unit 130 may continue a predetermined change from the time when the button, which is the sensor 110, is pressed by the user until the button is pressed again.
  • the predetermined change is Light emission of any color, that is, light emission regardless of color, With a given color, such as blue emission, Arbitrary change in emission color, that is, the change in emission color itself, A predetermined change in emission color, for example, a change from a predetermined color to a predetermined color, Blinking in an arbitrary pattern of light emission, that is, the flashing of light emission itself, Blinking in a predetermined pattern of light emission and With a predetermined intensity of light emission, A given change in luminescence intensity, such as a change from weak luminescence to strong luminescence, Any temperature change, that is, the change in temperature itself, It may include one or more of a predetermined temperature change, for example, a change to a predetermined temperature.
  • the control unit 130 may be an electronic circuit module configured as a microprocessor or a microcomputer.
  • the flavor suction device or the like according to the embodiment of the present invention includes conventional tobacco.
  • the conventional cigarette does not include the sensor 110 and the control unit 130, but its combustion unit corresponds to the change unit 120. This is because the color and temperature of the conventional cigarette burning part change based on the suction action of the user.
  • 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 an externally connected computer.
  • the 210 is information for detecting at least a part of 100 such as a flavor suction device, for example, an externally observable change occurring in the changing portion 120, and one or both movements of the changing portion 120 in which the change is occurring, for example, two-dimensional.
  • a detector that outputs an image is shown.
  • the detection unit 210 may be realized by using at least a general digital camera as a hardware resource, a temperature sensor that outputs a two-dimensional image like a general digital camera, for example, a thermography camera, or the like.
  • the display unit 220 indicates a display unit for displaying arbitrary information. This information may be generated by an operating system or application running on system 200, such as cursors, user interface (UI) controls (buttons, text boxes, etc.), text, images, etc. Video and web pages, but not limited to these.
  • 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 detects one or both of the externally observable change occurring in the changing unit 120 and the movement of the changing unit 120 in which the change is occurring, and determines the predetermined change based on one or both of the detected changes and the movement. It may be configured to perform the actions of.
  • the control unit 120 can control the display on the display unit 220. Further, the control unit 260 may process the input from the input unit 230. Further, 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 shows a flowchart of an exemplary method 300 executed by system 200. More specifically, the exemplary method 300 may be performed by the control unit 260 of the system 200. The exemplary method 300 is for operating the system 200 by utilizing an externally observable change that occurs in the changing portion 120 of the flavor suction device or the like 100. Therefore, the exemplary method 300 may be initiated in response to the system 200 being set to a mode for it by any method. It should be noted that some of the steps included in the exemplary method 300 described below may not be included in another method, and the steps may be executed in a different order in another method. Please note.
  • This image may be an output image, that is, a captured image of a digital camera or a thermography camera constituting the detection unit 210.
  • Reference numeral 320 indicates a step of detecting one or both of the externally observable change occurring in the changing portion 120 of the flavor suction device and the like 100 and the movement of the changing portion 120 in which the change is occurring in the acquired image. This step may be implemented using any image recognition algorithm.
  • 330 indicates a step of performing a predetermined action based on one or both of the detected changes and movements. Details of this step will be described later.
  • the movement of the changing unit 120 in which the change is occurring (and one or both of the changes) is detected, and based on such detected movement (and one or both of the changes), a predetermined method is used. It is assumed that the action will be executed. However, even if the movement of the change unit 120 (and one or both of the changes) in which the change has not occurred is detected and a predetermined action is executed based on the detected movement (and one or both of the changes). Good. Alternatively, a portion of the flavor suction device 100 that is not the change portion 120, for example, a characteristic pattern movement (and one or both of the externally observable changes that occur in the change portion 120) is detected, and such a detected movement is detected. Predetermined actions may be performed based on (and one or both of the changes).
  • This step is performed when the system 200 is set to a mode for operating the system 200 by utilizing an externally observable predetermined change generated in the change unit 120 of the flavor suction device or the like. It may be a step of determining whether to release. Alternatively, this step may be a step of determining whether the system 200 should be powered off. Alternatively, this step is predetermined after one or both of the externally observable change occurring in the changing portion 120 of the flavor suction device and the like 100 and the movement of the changing portion 120 in which the change is occurring are no longer detected. It may be a step of determining whether time (for example, 30 seconds or 1 minute) has passed. Therefore, the method of determination in this step is arbitrary. If it is determined that the process should be terminated, the exemplary method 300 is terminated, otherwise the process returns to step 310.
  • FIGS. 4A and 4B represent a detailed flowchart of the example of step 330.
  • step 405 indicates a step of determining whether or not the cursor is already displayed on the display unit 120. This step may be a step of determining whether or not step 415, which will be described later, has already been executed by using a flag or the like. If it is determined that the cursor is already displayed on the display unit 120, the process proceeds to step 420, otherwise the process proceeds to step 410.
  • step 410 indicates a step of determining whether one or both of the first predetermined change occurring in the changing unit 120 and the first predetermined movement of the changing unit 120 in which the change is occurring are detected.
  • This step can be, for example, a step of determining whether or not light emission of an arbitrary color or light emission of a predetermined color is detected as the first predetermined change. If it is determined that one or both of the first predetermined change and the first predetermined movement have been detected, the process proceeds to step 415, otherwise step 330 ends.
  • step 415 indicates a step of displaying the cursor on the display unit 220.
  • the cursor displayed on the display unit 220 may be erased at the end of the exemplary method 300.
  • step 330 may include a step of erasing the cursor displayed on the display unit 220 when a predetermined condition is satisfied, and the determination of step 405 may be false after the execution of the step.
  • Reference numeral 420 denotes a step of determining whether one or both of the second predetermined change occurring in the changing unit 120 and the second predetermined movement of the changing unit 120 in which the change is occurring are detected. If it is determined that one or both of the second predetermined change and the second predetermined movement have been detected, the process proceeds to step 425, otherwise the process proceeds to step 430.
  • the first predetermined movement described above, the second predetermined movement, and the third predetermined movement described later are A movement that draws a predetermined trajectory (for example, a circle or a triangle) in the space of the changing portion 120, It may include one or more of the vibrations of the changing portion 120.
  • the movement of drawing a predetermined locus in the space of the changing unit 120 may be determined to be detected when it is determined that the movement of drawing a predetermined locus of the changing unit 120 is detected in the image acquired from the detection unit 210.
  • the vibration may be generated by moving the changing unit 120 in small steps by the user, and when it is determined that the vibration of the changing unit 120 is detected in the image acquired from the detecting unit 210, it is determined that the vibration is detected. You can do it.
  • the detection of the motion including the first predetermined motion to the third predetermined motion is realized, for example, by analyzing the change in the position of the change unit 120 in a plurality of images acquired from the detection unit 210 at different time points. You can do it.
  • this step indicates a step of setting the system 200 to the scroll mode. If the system 200 is already set to the scroll mode, this step may be a step of releasing the scroll mode in the system 200.
  • step 425 may include a step of displaying an icon (hereinafter, referred to as “scroll icon”) indicating that the system 200 is set to the scroll mode on the display unit 220.
  • swipe icon an icon
  • a step of erasing the scroll icon from the display unit 220 may be included.
  • the scroll icon preferably has a different design than the cursor. Further, the scroll icon may be displayed in place of the cursor when the cursor is displayed on the display unit 220, or may be displayed in addition to the cursor. If the scroll icon is replaced with a cursor and displayed, the cursor may be displayed again when the scroll icon is deleted. Further, even when the scroll icon is replaced with the cursor and displayed, the determination in step 405 may remain true.
  • the scroll mode may have restrictions on the scrolling direction.
  • the scroll mode may be provided with a plurality of modes in which the scroll direction is limited, and different scroll modes may be set according to the type of the detected second predetermined movement. Therefore, for example, step 425 scrolls only up and down when it is determined in step 420 that the vertical vibration of the changing unit 120 is detected in the image acquired from the detecting unit 210 as the second predetermined movement.
  • step 425 scrolls only up and down when it is determined in step 420 that the vertical vibration of the changing unit 120 is detected in the image acquired from the detecting unit 210 as the second predetermined movement.
  • Reference numeral 430 indicates a step of determining whether one or both of the third predetermined change occurring in the changing unit 120 and the third predetermined movement of the changing unit 120 in which the change is occurring are detected.
  • this step for example, as a third predetermined change, whether an arbitrary change in the emission color, a predetermined change in the emission color, blinking in an arbitrary pattern of emission, or blinking in a predetermined pattern of emission is detected. It can be a determination step. Alternatively, this step can be, for example, a step of determining whether or not a movement of drawing a circle or a triangle in the space of the changing portion 120 is detected as a third predetermined movement. If it is determined that one or both of the third predetermined change and the third predetermined movement are detected, the process proceeds to step 435, otherwise the process proceeds to step 440.
  • step 435 indicates a step of selecting based on the cursor displayed on the display unit 220. This step may be a step of selecting the UI component displayed on the display unit 220 pointed to by the cursor.
  • step 435 may be a step of selecting based on the cursor at the display position at the start of the third predetermined movement.
  • Reference numeral 440 indicates a step of determining whether the changing unit 120 of the flavor suction device or the like 100 has detected a movement approaching the detection unit 210 of the system 200. If it is determined that an approaching motion has been detected, the process proceeds to step 445, otherwise the process proceeds to step 450.
  • This step indicates a step of enlarging the display of the display unit 220. This step may be a step of enlarging the display of a document, an image, a video, a web page, or the like on the display unit 220.
  • Reference numeral 450 is a step of determining whether or not the changing unit 120 of the flavor suction device or the like has detected a movement away from the detecting unit 210 of the system 200. If it is determined that the moving away is detected, the process proceeds to step 455, otherwise the process proceeds to step 460.
  • This step indicates a step of reducing the display of the display unit 220. This step may be a step of reducing the display of a document, an image, a video, a web page, or the like on the display unit 220.
  • Steps 440 and 450 can be realized by using the size of the changing unit 120 on the image acquired from the detecting unit 210. Supplementing this, the size of the changing unit 120 on the image acquired from the detecting unit 210 changes according to the distance between the changing unit 120 of the flavor suction device 100 and the detecting unit 210 of the system 200. Therefore, since the size of the changing portion 120 in the image acquired immediately before is larger than the size of the changing portion 120 in the image acquired before immediately before, for example, the image acquired immediately before is shown in FIG. 5A. Image 500A, and the image acquired before immediately before is the image 500B shown in FIG. 5B, so that the approaching motion may be detected.
  • the image acquired immediately before is smaller than the size of the changing portion 120 in the image acquired before immediately before, for example, the image acquired immediately before is shown in FIG. 5B.
  • the moving away motion may be detected by the image 500B being displayed and the image acquired before immediately before being the image 500A shown in FIG. 5A.
  • the size of the changing unit 120 on the image acquired from the detecting unit 210 may be acquired by using an arbitrary image recognition algorithm.
  • step 460 indicates a step of determining whether the system 200 is set to the scroll mode. If it is determined that the scroll mode is set, the process proceeds to step 465, otherwise the process proceeds to step 475.
  • This step indicates a step of scrolling the display of the display unit 220 according to the detected movement. This step may be a step of scrolling the display of a document, an image, or a web page in the display unit based on the movement vector of the change unit 120 in the image acquired immediately before, based on the image acquired immediately before or after.
  • step 465 may be a step of scrolling the display of the document, image, or web page on the display unit 220 in a direction corresponding to the direction of the movement vector by a distance proportional to the magnitude of the movement vector.
  • step 465 sets the display of the document, image, or web page on the display unit to the direction corresponding to the direction of the movement vector among the scroll directions. It may be a step of scrolling a distance proportional to the size of a component parallel to the scroll direction of the movement vector.
  • 600 indicates an image acquired from the detection unit 210
  • 610 indicates the position of 100 such as a flavor suction device in the image 600 acquired immediately before
  • 615 indicates immediately before.
  • the position of 100 such as a flavor suction device in the acquired image 600 is shown.
  • Reference numeral 650 indicates a screen of the display unit 220
  • 660 indicates a scroll direction
  • 670 indicates a scroll icon.
  • Reference numerals 680 and 685 indicate the display of the display unit 220 before and after scrolling, respectively.
  • 620 indicates a movement vector
  • 625 indicates a component parallel to the scroll direction 660 of the movement vector 620.
  • the display of the display unit 220 scrolls in the direction 690 corresponding to the movement vector 620 in the scroll direction 660. Is illustrated.
  • the scroll distance may be proportional to the magnitude of the component 625 parallel to the scroll direction 660 of the movement vector 620.
  • step 465 may be a step of returning or advancing the reproduction time of the video displayed on the display unit based on the movement vector.
  • Reference numeral 475 indicates a step of moving the cursor displayed on the display unit 220 according to the detected movement. This step may be a step of moving the cursor displayed on the display unit 220 based on the movement vector of the change unit 120 in the image acquired immediately before, based on the image acquired immediately before or before.
  • step 475 may be a step of moving the cursor displayed on the display unit 220 in a direction corresponding to the direction of the movement vector by a distance proportional to the magnitude of the movement vector.
  • 700 indicates an image acquired from the detection unit 210
  • 710 indicates the position of 100 such as a flavor suction device in the image 700 acquired immediately before
  • 715 is acquired immediately before.
  • the position of 100 such as the flavor suction device in the image 700 is shown
  • 720 shows the movement vector.
  • FIG. 7 illustrates that the cursor moves in the direction 770 corresponding to the movement vector 720 when the detected movement of the change unit 120 is as indicated by the movement vector 720.
  • the moving distance may be proportional to the magnitude of the moving vector 720.
  • FIG. 8 shows an example of the hardware configuration of the computer.
  • the computer 800 mainly includes a processor 810, a main storage device 820, an auxiliary storage device 830, an input / output interface 840, and a communication interface 850 as hardware resources. These are connected to each other via a bus line 860 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 860 and each hardware resource.
  • the processor 810 controls the entire computer.
  • the main storage device 820 provides a work area for the processor 810 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 830 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 830 to the main storage device 820 via the bus line 860 at an arbitrary time.
  • Auxiliary storage device 830 may be referred to as a non-temporary computer-readable storage medium.
  • the input / output interface 840 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 850 is connected to the network 890 and transmits / receives data via the network 890.
  • the communication interface 850 and the network 890 may be connected by wire or wirelessly.
  • the communication interface 850 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.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • Human Computer Interaction (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • User Interface Of Digital Computer (AREA)
PCT/JP2019/033885 2019-08-29 2019-08-29 香味吸引器具等を操作手段として用いるためのプログラム、方法及びシステム並びに操作手段として適した香味吸引器具等 WO2021038786A1 (ja)

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PCT/JP2019/033885 WO2021038786A1 (ja) 2019-08-29 2019-08-29 香味吸引器具等を操作手段として用いるためのプログラム、方法及びシステム並びに操作手段として適した香味吸引器具等
JP2021541895A JPWO2021038786A1 (enrdf_load_stackoverflow) 2019-08-29 2019-08-29
TW109102828A TW202109291A (zh) 2019-08-29 2020-01-30 用以將香味吸嚐器具等做為操作手段使用的程式、方法及系統以及適合做為操作手段的香味吸嚐器具等

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