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Patent US10564655
Issued 2020-02-18
Peer-to-peer Air Analysis And Treatment
A method is disclosed comprising drawing air into a robotic vapor device, exposing the drawn air to a sensor to detect one or more constituents in the drawn air, determining first measurement data for the one or more constituents of the drawn air via the sensor, transmitting the first measurement data to a one or more of a plurality of vapor devices via a peer-to-peer network, receiving second measurement data from the one or more of the plurality of vapor devices via the peer-to-peer network, determining one or more vaporizable materials to vaporize based on the first measurement data and the second measurement data, and dispensing a vapor comprised of the one or more vaporizable materials.
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- 1. An electronic vapor device comprising:
a device processor operable for controlling the electronic vapor device; an air intake configured to receive an air sample from an environment proximate to the electronic vapor device; at least one sensing component operatively coupled to the device processor and controlled in part by the device processor, wherein the at least one sensing component is configured to be in contact with at least a portion of the air sample, wherein the at least one sensing component is operable to detect a plurality of constituent data associated with the air sample; at least one container configured to store vaporizable material; a vaporizing component operatively coupled to the device processor and controlled in part by the device processor, wherein the vaporizing component is in fluid communication with the at least one container for receiving a select amount of vaporizable material therefrom, wherein the vaporizing component is operable to vaporize vaporizable material received therein to generate vapor therefrom; a vapor outlet coupled to the vaporizing component and configured to receive at least a portion of the vapor generated by the vaporizing component, wherein the vapor outlet is operable to expel the received vapor from the electronic vapor device; an input/output device operatively coupled to the device processor and controlled in part by the device processor, wherein the input/output device is configured to connect the device processor to an associated network for communication with a plurality of auxiliary vapor devices, wherein the input/output device is operable to transmit data from the device processor to at least a portion of the auxiliary vapor devices, wherein the input/output device is operable to receive a plurality of auxiliary data from at least a portion of the plurality of auxiliary vapor devices; and at least one power source operatively coupled to the device processor and operable to generate a supply of power for operation of the electronic vapor device; wherein the device processor is further operable to:
receive at least a portion of the plurality of detected air sample constituent data from the at least one sensing component,
determine, based on at least a portion of the plurality of detected air sample constituent data, at least one air sample measurement associated with at least one constituent present in the air sample and generate a plurality of air sample measurement data therefrom,
receive, from the input/output device, at least a portion of the plurality of auxiliary data received from at least a portion of the plurality of auxiliary vapor devices,
determine, based on at least a portion of the plurality of air sample measurement data and at least a portion of the plurality of received auxiliary data, at least one vaporizing configuration for vaporizing at least a portion of vaporizable material received in the vaporizing component, and
generate at least one vaporizing control signal for controlling at least one operational parameter of the electronic vapor device in accordance with the at least one vaporizing configuration.
- 12. A method for operating an electronic vapor device, wherein the electronic vapor device comprises (a) a device processor operable for controlling the electronic vapor device, (b) at least one container configured to store vaporizable material therein, (c) a vaporizing component operable to vaporize a plurality of materials received therein and expel a generated vapor therefrom, (d) an air intake configured to receive an air sample from an environment proximate to the electronic vapor device, (e) at least one sensing component operable to detect a plurality of constituent data associated with the air sample, (f) an input/output device configured to connect the device processor to an associated network for communication with a plurality of auxiliary vapor devices, and (g) at least one power source operable to generate a supply of power for operation of the electronic vapor device, the method comprising:
receiving a command to activate the electronic vapor device; receiving, a quantity of air proximate to the electronic vapor device into the air intake; detecting, by the at least one sensing component, a plurality of air sample constituent data associated with at least one constituent present in the air sample; determining, by the device processor, at least one air sample measurement associated with at least one constituent present in the air sample and generate a plurality of air sample measurement data therefrom; receiving, via the input/output device, a plurality of auxiliary data associated with at least one of the plurality of auxiliary vapor devices; determining, by the device processor, based on at least a portion of the plurality of air sample measurement data and at least a portion of the plurality of received auxiliary data, at least one vaporizing configuration for vaporizing at least a portion of vaporizable material received in the vaporizing component; generating, by the device processor, at least one vaporizing control signal for controlling at least one operational parameter of the electronic vapor device in accordance with the at least one vaporizing configuration; and vaporizing, by the vaporizing component, at least a portion of the vaporizable material received therein in accordance with the at least one vaporizing control signal.
