Interactive aerosol supply system
Patent Information
- Authority / Receiving Office
- JP Β· JP
- Patent Type
- Applications
- Current Assignee / Owner
- NICOVENTURES TRADING LTD
- Filing Date
- 2026-03-25
- Publication Date
- 2026-06-23
Smart Images

Figure 2026102873000001_ABST
Abstract
Claims
1. Aerosol delivery devices and A first motion detection sensor configured to generate a motion signal in response to motion, A motion classification processor configured to classify whether the motion is specific to a particular transport mode based on the generated motion signal, A control processor configured to change one or more operating parameters of an aerosol delivery system in response to the classification of a motion signal generated by the motion detection sensor by the motion classification processor, The motion classification processor is configured to classify, based on the generated motion signal, whether the motion is specific to powered transport. If the classified transport mode is one of a first subset of powered transport, the control processor is configured to put the aerosol delivery device into a first active state. If the classified transport mode is one of a second subset of powered transport, the control processor is configured to put the aerosol delivery device into a second active state. Aerosol delivery system.
2. Equipped with a companion device, The companion device is i. The motion detection sensor and, ii. The motion classification processor and, iii. The control processor and The aerosol delivery system according to claim 1, comprising one or more selected from the list consisting of the following.
3. The classified transport modes are i. Automobiles, ii. Bus, iii. Truck, iv. train, v. boat, vi. plane, vii. Motorcycles, and viiii. Mobility Vehicle The aerosol delivery system according to claim 1, comprising one selected from a list consisting of the following.
4. A first subset of powered transport is i. Automobiles, ii. Truck, iii. Motorcycles, and iv. Mobility Vehicles The aerosol delivery system according to claim 3, including the above.
5. The user can be configured so that the control processor assumes that the user is a passenger in the powered transport. The control processor is configured to put the aerosol delivery device into the second active state. The aerosol delivery system according to claim 4.
6. A second subset of powered transport is i. train, ii. Ship, iii. Airplanes, and iv. bus The aerosol delivery system according to claim 3 or 4, comprising:
7. The motion classification processor is configured to classify, based on the generated motion signal, whether the motion is specific to unpowered transport. The aerosol delivery system according to any one of claims 1 to 2.
8. If the classified transport mode is one of a first subset of unpowered transport, the control processor is configured to put the aerosol delivery device into a first active state. The aerosol delivery system according to claim 7.
9. The motion classification processor is configured to classify, based on the generated motion signal, whether the motion is specific to movement that does not utilize transport. The aerosol delivery system according to claim 1.
10. If the classified movement is walking, the control processor is configured to put the aerosol delivery device into a second active state. The aerosol delivery system according to claim 9.
11. The motion classification processor is configured to classify whether the motion is specific to the user's interaction with the aerosol delivery device. The aerosol delivery system according to claim 1.
12. Equipped with a wireless signal receiver, The motion classification processor is further configured to classify whether the motion is specific to a particular mode of transport based on the classification of one or more received radio signals. The aerosol delivery system according to claim 1.
13. The motion detection sensor, i. One or more accelerometers, ii. One or more gyroscopes, iii. One or more cameras, and iv. Barometric pressure sensor The aerosol delivery system according to claim 1, comprising one or more selected from the list consisting of the following.
14. The aforementioned motor classification processor is configured to estimate the user's emotional state in addition to classifying the motor. The control processor is configured to change one or more operating parameters of the aerosol delivery device in response to the estimated emotional state. The aerosol delivery system according to claim 1.
15. The motion classification processor is configured to estimate the user's emotional state in response to one or more additional factors other than motion. The aerosol delivery system according to claim 14.
16. The control processor, i. Display of the first information set, i. Display of information at the first level of detail, ii. Lower duty cycle or lower power data transmission, iii. Lower duty cycle or lower power preheating, iv. Lower duty cycle or lower power lighting, and v. Situational awareness with lower duty cycle or lower power consumption The aerosol delivery system according to claim 1, which is operable to set the aerosol delivery device to a first active state that includes one or more selected from a list consisting of the following.
17. The control processor, i. Representation of a second information set, which is separate from the first information set or is a superset of the first information set. ii. Display of a second, higher level of detail, iii. Higher duty cycle or higher power data transmission, iv. Higher duty cycle or higher power heating, v. Higher duty cycle or higher power lighting, and vi. Situational awareness of higher duty cycles or higher power The aerosol delivery system according to claim 1, which is operable to set the aerosol delivery device to a second active state which may include one or more selected from a list consisting of the following.
18. A method for controlling an aerosol delivery system comprising an aerosol delivery device, A step of generating a motion signal in response to motion, A step of classifying whether the motion is specific to a particular transport mode based on the generated motion signal, A method comprising the step of changing one or more operating parameters of the aerosol delivery system in response to the classification of the motion signals.
19. A computer program comprising a computer executable instruction configured to cause a computer system to perform the method described in claim 18.
20. Aerosol delivery devices and A first motion detection sensor configured to generate a motion signal in response to motion, A motion classification processor configured to classify whether the motion is specific to a particular transport mode based on the generated motion signal, A control processor configured to change one or more operating parameters of an aerosol delivery system in response to the classification of a motion signal generated by the motion detection sensor by the motion classification processor, Equipped with a wireless signal receiver, The motion classification processor is further configured to classify whether the motion is specific to a particular mode of transport based on the classification of one or more received radio signals. Aerosol delivery system.