CN114947232A - Electronic cigarette control method based on user health state - Google Patents

Abstract

The invention relates to the technical field of electronic cigarette control, in particular to an electronic cigarette control method based on a user health state, which comprises the following steps: the method comprises the steps that a mobile terminal obtains user health state information collected by wearable equipment in real time and generates a health state index of a current user; the mobile terminal generates an electronic cigarette working mode based on the health state index of the current user and sends the electronic cigarette working mode to the electronic cigarette; and when the electronic cigarette is started, the power-on self-test is carried out, the latest electronic cigarette working mode is read after the power-on self-test is normal, and the electronic cigarette is controlled to operate based on the latest electronic cigarette working mode. According to the technical scheme provided by the invention, the situation that the user excessively uses the electronic cigarette is avoided, and the user can receive the warning reminding signal in time so as to achieve the purpose of protecting the body health of the user.

Description

Electronic cigarette control method based on user health state

Technical Field

The invention relates to the field of electronic cigarette control, in particular to an electronic cigarette control method based on a user health state.

Background

For the current electronic cigarette market, the electronic cigarette becomes a mature smoking substitute, however, only the portable electronic cigarette with the appearance similar to a cigarette cannot affect the smoking time and the smoking frequency of the user based on the physical health state of the user, because the smoking process of the electronic cigarette is not visualized, the smoking amount and the smoking frequency cannot be directly observed, and the physical health of the user is easily affected by excessive smoking.

Along with the development of society, people pay more and more attention to the health, and the current electron cigarette effect is single only can satisfy consumer's smoking experience, can't carry out the management and control to user's excessive smoking.

Disclosure of Invention

The invention mainly aims to provide an electronic cigarette control method based on the health state of a user, and aims to solve the technical problems that the existing electronic cigarette has single function and cannot control excessive smoking of the user

The invention provides an electronic cigarette control method based on a user health state, which comprises the following steps:

the method comprises the steps that a mobile terminal obtains user health state information collected by wearable equipment in real time and generates a health state index of a current user;

the mobile terminal generates an electronic cigarette working mode based on the health state index of the current user and sends the electronic cigarette working mode to the electronic cigarette;

and when the electronic cigarette is started, the electronic cigarette is subjected to power-on self-test, the latest electronic cigarette working mode is read after the power-on self-test is normal, and the electronic cigarette is controlled to operate based on the latest electronic cigarette working mode.

Optionally, in a first implementation manner of the first aspect of the present invention, the obtaining, by the mobile terminal, user health status information acquired by the wearable device in real time, and generating a health status index of the current user includes:

the mobile terminal acquires an original pulse wave signal acquired by a pulse wave sensor arranged in the wearable equipment in real time;

the mobile terminal preprocesses the original pulse wave signal to obtain a reconstructed pulse wave characteristic point;

the mobile terminal analyzes and calculates the reconstructed pulse wave feature points to obtain the health state information of the current user, wherein the health state information comprises: real-time heart rate, real-time blood pressure, and real-time blood oxygen saturation;

and the mobile terminal generates a health state index of the current user based on the health state information of the current user.

Optionally, in a second implementation manner of the first aspect of the present invention, the generating, by the mobile terminal, a health status indicator of the current user based on the health status information of the current user includes:

the mobile terminal draws electrocardiosignals and body temperature data of the current user in real time according to the health state information of the current user;

based on a preset acquisition cycle, extracting a plurality of electrocardiosignal values and body temperature values of the current user according to a time sequence, and taking the electrocardiosignal values and the body temperature values as health state data of the current user;

averaging the health state data to obtain a health state average value corresponding to the current user in the current acquisition period, and performing function fitting on the health state average value to generate a health state fitting function corresponding to the current user;

and generating future health state data of the current user in a preset time period based on the health state fitting function, and taking the current health state data and the future health state data of the current user as health state indexes of the current user.

Optionally, in a third implementation manner of the first aspect of the present invention, the generating, by the mobile terminal, an electronic cigarette operating mode based on the health status indicator of the current user includes:

the mobile terminal judges whether the current health state index of the user is within a preset human health index threshold range;

if the health status index of the user is within the threshold range of the human health index, the mobile terminal generates an optimal control parameter of the electronic cigarette according to the health status index of the user and sends the optimal control parameter to the electronic cigarette as an electronic cigarette working mode;

if the human health index is not within the threshold range of the human health index, the mobile terminal displays warning information and pushes the warning information to the electronic cigarette;

wherein the optimal control parameters of the electronic cigarette comprise: a smoke total amount control parameter, a smoking frequency control parameter and a smoking duration control parameter.

Optionally, in a fourth implementation manner of the first aspect of the present invention, performing power on self-test when the electronic cigarette is started, reading a latest electronic cigarette operating mode after the power on self-test is normal, and controlling the electronic cigarette to operate based on the latest electronic cigarette operating mode includes:

the mobile terminal sends a starting signal to the electronic cigarette;

the electronic cigarette receives the starting signal and judges whether the voltage value of the battery reaches a preset working voltage threshold value or not;

if the preset working voltage threshold is reached, the electronic cigarette determines that the electronic cigarette is normal in power-on self-test;

the electronic cigarette receives a working mode of the electronic cigarette generated by the mobile terminal through a health state index of a current user;

and the electronic cigarette adjusts the control parameters of the electronic cigarette based on the working mode of the electronic cigarette and operates based on the adjusted control parameters.

Optionally, in a fifth implementation manner of the first aspect of the present invention, the adjusting, by the electronic cigarette, a control parameter of the electronic cigarette based on the operating mode of the electronic cigarette, and the operating based on the adjusted control parameter includes:

the electronic cigarette collects the smoke amount generated by the work of the electronic cigarette atomizer in real time, and obtains the current smoke total amount through a preset smoke total amount calculation formula;

the electronic cigarette judges whether the current total smoke loss working voltage value exceeds a preset total loss working voltage threshold value or not in real time based on a preset working voltage calculation formula, and if the current total smoke loss working voltage value exceeds the preset total loss working voltage threshold value, the electronic cigarette atomizer is controlled to stop working and send out reminding information to prompt a user.

Optionally, in a sixth implementation manner of the first aspect of the present invention, the smoke amount calculation formula is as follows:

wherein C represents aerosol volume flow, t represents detection time, D represents total smoke, di represents ith grading diameter of aerosol particles, k is a positive integer, i is a positive integer less than or equal to k, n represents average particle number concentration, and rho ₀ Is the standard density, t, of the aerosol particles ₀ To detect the start time, t ₁ To detect the termination time.

Optionally, in a seventh implementation manner of the first aspect of the present invention, the operating voltage calculation formula is as follows:

D _N ＝D _N-1 +d _N ，d _N ＝η _N ×a _N ×t _N

wherein N represents the working times of the electronic cigarette atomizer, and N is more than or equal to 1 and d _N Value, η, representing the loss operating voltage resulting from the nth operation of the electronic cigarette atomizer _N Represents a voltage value correction factor, a _N Represents the loss working voltage value t generated when the electronic cigarette atomizer works for the Nth time _N Shows the working time length of the Nth electronic cigarette atomizer, D _N And the value of the total loss working voltage of the electronic cigarette atomizer after N times of work is represented.

Optionally, in an eighth implementation manner of the first aspect of the present invention, the electronic cigarette control method further includes:

when the electronic cigarette starts to work, the electronic cigarette checks whether the smoking times reach the preset times of the day and judges whether the current smoking interval and the last smoking interval reach the preset time interval of the day;

if the smoking times of the current day are not reached and the preset time interval of the current day is reached, the electronic cigarette continues to work normally;

and if the smoking times of the current day are reached and the preset time interval of the current day is not reached, the electronic cigarette sends reminding information to prompt the user.

Optionally, in a ninth implementation manner of the first aspect of the present invention, the electronic cigarette control method further includes:

when the electronic cigarette starts to work, accumulating the time length of the current user for smoking in real time and judging whether the time length exceeds a preset smoking time length threshold value or not in real time;

and if the smoking time length of the current user exceeds a preset healthy smoking time length threshold, the electronic cigarette displays alarm information and sends a power supply closing signal for stopping smoking.

According to the technical scheme provided by the invention, the user can acquire the health state information acquired by the wearable device in real time through the mobile terminal, for example, the current electrocardiosignal and body temperature data of the user are acquired, and the current health state index is generated through function processing and analysis according to the electrocardiosignal and the body temperature data of the user. The mobile terminal generates an electronic cigarette working mode based on current health state indexes of users and issues the electronic cigarette working mode to the electronic cigarette, the electronic cigarette is started for self-checking, the latest electronic cigarette working mode is read after the self-checking is normal, and the electronic cigarette is controlled to operate based on the latest electronic cigarette working mode. Therefore, the electronic cigarette has the smoking function and the health detection function, so that the smoking requirement of a user is met, and the aim of protecting the body health of the user is fulfilled.

Drawings

Fig. 1 is a schematic diagram of a first embodiment of an electronic cigarette control method based on a user health status according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a second embodiment of an electronic cigarette control method based on a health status of a user according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a third embodiment of an electronic cigarette control method based on the health status of the user according to the embodiment of the present invention;

figure 4 is a schematic diagram of a fourth embodiment of the electronic cigarette control method based on the health status of the user in the embodiment of the present invention;

fig. 5 is a schematic diagram of a fifth embodiment of an electronic cigarette control method based on the health status of the user in the embodiment of the present invention.

Detailed Description

The embodiment of the invention provides an electronic cigarette control method based on the health state of a user, which generates a latest electronic cigarette working mode by detecting the health state of the user in real time and solves the problem that the health of the user is influenced by overuse of the electronic cigarette.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that the embodiments described herein may be implemented in other sequences than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," or "having," and any variations thereof, are intended to cover non-exclusive inclusions, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

For convenience of understanding, a specific flow of an embodiment of the present invention is described below, and referring to fig. 1, a first embodiment of an electronic cigarette control method based on a user health status in an embodiment of the present invention includes:

101, a mobile terminal acquires user health state information acquired by wearable equipment in real time and generates a health state index of a current user;

in this embodiment, the mobile terminal may be an intelligent device such as a mobile phone, a tablet, a notebook, and the like, and is connected with the electronic cigarette through a wireless network to control the work of the electronic cigarette.

In this embodiment, the wearable device is connected with the mobile terminal, and the wearable device can be a watch, a bracelet, and the like, and can detect the portable device of human body data, and can feed back the health information of the wearing user to the mobile terminal in real time through the wireless network.

In this embodiment, the mobile terminal may process and analyze the collected health status information of the user, for example, determine the current dynamic condition of the user according to the electrocardiographic signal of the user. Through comprehensive comparative analysis, the latest health status index of the user is obtained, wherein the health status index of the user can be divided into: excellent, good, normal and poor, four grade cases.

102, the mobile terminal generates an electronic cigarette working mode based on the health state index of the current user and sends the electronic cigarette working mode to the electronic cigarette;

in this embodiment, the mobile terminal sets up a corresponding electronic cigarette working mode suitable for the user according to the current health status index classification of the user, for example, when the health status index of the user is excellent, the mobile terminal may set up a working mode with high consumption of the electronic cigarette in a short time, and when the health status index of the user is poor, the mobile terminal provides a warning message to alert the user.

And 103, performing power-on self-test when the electronic cigarette is started, reading the latest electronic cigarette working mode after the power-on self-test is normal, and controlling the electronic cigarette to operate based on the latest electronic cigarette working mode.

In this embodiment, the normal start of electron cigarette needs to be based on certain electron cigarette equipment condition, so the electron cigarette begins to detect whether the electron cigarette has reached the prerequisite condition of start-up when receiving the enabling signal simultaneously, and when satisfying the condition, the electron cigarette begins to acquire the mode of electron cigarette and control the operation of self.

In the embodiment of the invention, the mobile terminal can acquire the health state information acquired by the wearable device in real time, for example, acquire the current electrocardiosignal and body temperature data of the users, and generate the current health state index through function processing and analysis according to the electrocardiosignal and the body temperature data of the users. The mobile terminal generates an electronic cigarette working mode based on current health state indexes of users and issues the electronic cigarette working mode to the electronic cigarette, the electronic cigarette is started for self-checking, the latest electronic cigarette working mode is read after the self-checking is normal, and the electronic cigarette is controlled to operate based on the latest electronic cigarette working mode. Therefore, the electronic cigarette has the smoking function and the health detection function, so that the smoking requirement of a user is met, and the aim of protecting the body health of the user is fulfilled.

Referring to fig. 2, a second embodiment of the electronic cigarette control method based on the health status of the user according to the present invention includes:

201, a mobile terminal acquires an original pulse wave signal acquired by a pulse wave sensor arranged in wearable equipment in real time;

in the present embodiment, the pulse sensor is mainly applied to measurement and monitoring of pulse rate and pathological analysis of pulse wave in clinic. The general common types mainly adopt photoelectricity as a main part, and include a discrete type and an integrated type, wherein a transmitting part adopts visible light and infrared light, the sensitive characteristic of the infrared light with specific wavelength on the change of blood volume generated by blood microcirculation at the tail end of a blood vessel can be utilized to detect the blood change of fingertips caused by the beating of the heart, and the blood change is processed by circuits such as signal amplification, adjustment and the like. And outputting pulse signals synchronous with the pulse beat so as to calculate the pulse rate and output complete original pulse wave signals reflecting the blood volume change of the finger tips.

202, preprocessing an original pulse wave signal by the mobile terminal to obtain a reconstructed pulse wave characteristic point;

in this embodiment, the original pulse wave signal is converted into a digital signal, the digital signal is converted into a power spectrogram through fast fourier transform, and reconstructed pulse wave feature points with equal length of the original signal are obtained through calculation.

203, the mobile terminal analyzes and calculates the reconstructed pulse wave feature points to obtain the health state information of the current user, wherein the health state information comprises: real-time heart rate, real-time blood pressure, and real-time blood oxygen saturation;

in this embodiment, through decomposition and processing of the reconstructed pulse wave feature points, physical sign data of a human body in a preset time period can be obtained, and then the organ health state of the current wearer of the wearable device is determined, so that the health state information of the current user is obtained.

204, the mobile terminal generates a health state index of the current user based on the health state information of the current user;

205, the mobile terminal generates an electronic cigarette working mode based on the health status index of the current user, and issues the electronic cigarette working mode to the electronic cigarette;

and 206, performing power-on self-test when the electronic cigarette is started, reading the latest electronic cigarette working mode after the power-on self-test is normal, and controlling the electronic cigarette to operate based on the latest electronic cigarette working mode.

In this embodiment, the health status index that obtains corresponding through the analysis of the health status information to the user has richened the electron cigarette greatly and has had intelligent monitoring and the function of reminding the user, and then has realized carrying out real-time supervision to user status information and the working parameter information that the electron cigarette has to give the electron cigarette monitoring work of user and brought very big facility.

Referring to fig. 3, a third embodiment of the electronic cigarette control method based on the health status of the user according to the present invention includes:

301, the mobile terminal acquires an original pulse wave signal acquired by a pulse wave sensor arranged in the wearable device in real time;

302, the mobile terminal preprocesses the original pulse wave signal to obtain a reconstructed pulse wave characteristic point;

303, the mobile terminal analyzes and calculates the reconstructed pulse wave feature points to obtain the health state information of the current user, wherein the health state information includes: real-time heart rate, real-time blood pressure, and real-time blood oxygen saturation;

304, the mobile terminal draws the electrocardiosignal and the body temperature data of the current user in real time according to the health state information of the current user;

in the embodiment, the actual physical sign data of the user can be obtained according to the obtained health state information of the current user, wherein the most convenient and fast obtained data are electrocardiosignal data and body temperature data, and the two factors are significant characteristics which can reflect the change of human health most.

305, extracting a plurality of electrocardiosignal values and body temperature values of the current user in time sequence based on a preset acquisition cycle, and taking the electrocardiosignal values and the body temperature values as health state data of the current user;

in this embodiment, an acquisition period is set in advance, and the acquisition period is a variable that can be set, and the period is set to 5 days as a reference.

306, averaging the plurality of health state data to obtain a health state average value corresponding to the current user in the current acquisition period, and performing function fitting on the health state average value to generate a health state fitting function corresponding to the current user;

in this embodiment, averaging a plurality of health status data can describe the concentration of the data more, reflect the general situation of a group of data, and have the characteristics of intuition and conciseness, and the corresponding user health status fitting curve is obtained by applying the EXCEL fitting function.

307, generating future health state data of the current user in a preset time period based on the health state fitting function, and taking the current health state data and the future health state data of the current user as health state indexes of the current user;

308, the mobile terminal generates an electronic cigarette working mode based on the health state index of the current user and sends the electronic cigarette working mode to the electronic cigarette;

and 309, performing power-on self-test when the electronic cigarette is started, reading the latest electronic cigarette working mode after the power-on self-test is normal, and controlling the electronic cigarette to operate based on the latest electronic cigarette working mode.

In this embodiment, the health state curve of the current user obtained by applying the EXCEL fitting function is combined with the future health state data in the preset time period to obtain the health state index of the current user, and the analysis and processing based on the fitting function can predict the large number, naturally developing, and not drastically changing, and grasp the development direction of the object, for example, the physical health condition of the user in the preset time period.

In the embodiment, the processing and analysis of the function can be used for more accurately providing the functions of the user such as smoking time length, atomization adjustment and the like, so that the scientific, systematic and optimal smoking scheme called by the user can be provided in real time.

Referring to fig. 4, a fourth embodiment of the electronic cigarette control method based on the health status of the user according to the present invention includes:

401, the mobile terminal acquires user health state information acquired by wearable equipment in real time and generates a health state index of a current user;

402, the mobile terminal judges whether the current health state index of the user is within a preset human health index threshold range;

403, if the current health status is within the threshold range of the human health index, the mobile terminal generates the optimal control parameter of the electronic cigarette according to the health status index of the user and sends the optimal control parameter to the electronic cigarette as the electronic cigarette working mode;

404, if the current time is not within the threshold range of the human health index, the mobile terminal displays warning information and pushes the warning information to the electronic cigarette;

wherein, the best control parameter of electron cigarette includes: the control parameters of the total smoke amount, the smoking frequency and the smoking duration are used for issuing the working mode of the electronic cigarette to the electronic cigarette;

and 405, performing power-on self-test when the electronic cigarette is started, reading the latest electronic cigarette working mode after the power-on self-test is normal, and controlling the electronic cigarette to operate based on the latest electronic cigarette working mode.

In this embodiment, the preset human health index threshold is a variable that can be set, and is generally referred to an evaluation criterion of a group health level in the same country or the same region.

In this embodiment, when the current user physical quality is not within the threshold range of the human health index, it indicates that the current user physical quality is not suitable for a lot of smoking or is not suitable for smoking, but the user does not realize that the current user physical quality is not suitable for smoking, so that excessive smoking of the user can be effectively controlled by displaying and pushing the warning message.

In this embodiment, the total smoke amount, the smoking frequency and the smoking duration can directly obtain the smoking condition of the user, different smoking modes can be formulated by adjusting the control parameters of the total smoke amount, the smoking frequency and the smoking duration, and personalized electronic cigarette control based on the health condition of the user is realized.

Referring to fig. 5, a fifth embodiment of the electronic cigarette control method based on the health status of the user according to the present invention includes:

501, the mobile terminal acquires user health state information acquired by wearable equipment in real time and generates a health state index of a current user;

502, the mobile terminal generates an electronic cigarette working mode based on the health state index of the current user and sends the electronic cigarette working mode to the electronic cigarette;

503, the mobile terminal sends a starting signal to the electronic cigarette;

504, the electronic cigarette receives the starting signal and judges whether the voltage value of the battery reaches a preset working voltage threshold value;

505, if the preset working voltage threshold is reached, the electronic cigarette determines that the electronic cigarette is normal in power-on self-test;

506, the electronic cigarette receives a working mode of the electronic cigarette generated by the mobile terminal through the health state index of the current user;

507, the electronic cigarette adjusts the control parameters of the electronic cigarette based on the working mode of the electronic cigarette, and operates based on the adjusted control parameters.

In this embodiment, the electronic cigarette can flexibly adjust the total smoke amount control parameter, the smoking frequency control parameter and the smoking duration control parameter of the electronic cigarette according to the health status of the current user, and different electronic cigarette working modes are generated to enable the user to better control the smoking time and the smoking frequency of the user.

In this embodiment, the electronic cigarette can flexibly adjust the total smoke amount control parameter, the smoking frequency control parameter and the smoking duration control parameter of the electronic cigarette according to the health state of the current user, and different electronic cigarette working modes are generated to enable the user to better control the smoking time and the smoking frequency of the user, so that blind smoking and overlong smoking time of the user are avoided, the user gradually shortens the smoking time according to the health state information of the user, the smoking frequency is reduced, and the electronic cigarette is beneficial to the physical health of the user.

Further, in an optional embodiment, the electronic cigarette adjusts a control parameter of the electronic cigarette based on the operating mode of the electronic cigarette, and the operating based on the adjusted control parameter further includes:

the electronic cigarette collects the smoke amount generated by the work of the electronic cigarette atomizer in real time, and obtains the current smoke total amount through a preset smoke total amount calculation formula;

the electronic cigarette judges whether the current total smoke loss working voltage value exceeds a preset total loss working voltage threshold value or not in real time based on a preset working voltage calculation formula, and if the current total smoke loss working voltage value exceeds the preset total loss working voltage threshold value, the electronic cigarette atomizer is controlled to stop working and send out reminding information to prompt a user.

In this embodiment, the smoke total amount calculation formula is:

wherein C represents aerosol volume flow, t represents detection time, D represents total smoke, di represents ith grading diameter of aerosol particles, k is a positive integer, i is a positive integer less than or equal to k, n represents average particle number concentration, and rho ₀ Is the standard density, t, of the aerosol particles ₀ To detect the start time, t ₁ To detect the termination time.

D _N ＝D _N-1 +d _N ，d _N ＝η _N ×a _N ×t _N

Wherein N represents the working times of the electronic cigarette atomizer, and N is more than or equal to 1 and d _N Value, η, representing the loss operating voltage resulting from the nth operation of the electronic cigarette atomizer _N Represents a voltage value correction factor, a _N Represents the loss working voltage value t generated when the electronic cigarette atomizer works for the Nth time _N Represents the working time length of the Nth electronic cigarette atomizer, D _N And the value of the total loss working voltage of the electronic cigarette atomizer after N times of working is represented.

In this embodiment, the preset total loss working voltage threshold of the electronic cigarette can indirectly determine the smoking time of the user and the generated smoke amount, so as to form a running mode of the electronic cigarette based on the health status index of the user, which better accords with the actual situation of the user, is more beneficial to the physical and mental health of the user, or is used for the user to refer, and the user is prevented from smoking excessively and protecting the physical health of the user in time.

Further, in an optional embodiment, the electronic cigarette control method based on the health status of the user further includes:

when the electronic cigarette starts to work, accumulating the time length of the current user for smoking in real time and judging whether the time length exceeds a preset smoking time length threshold value or not in real time;

and if the smoking time length of the current user exceeds the preset healthy smoking time length threshold, the electronic cigarette displays alarm information and sends a power supply closing signal for stopping smoking.

In this embodiment, the preset smoking time length threshold is a settable variable, and since the electronic cigarette is not visualized like a cigarette, a user cannot directly observe the smoking condition of the electronic cigarette as if the user were smoking the cigarette, and at this time, setting a preset healthy smoking time length threshold can effectively supervise the user to avoid that the user smokes too long.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention, which is substantially or partly contributed by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to perform all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a portable hard disk, a read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, an optical disk, or other various media capable of storing program codes.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The electronic cigarette control method based on the user health state is characterized by comprising the following steps of:

the method comprises the steps that a mobile terminal obtains user health state information collected by wearable equipment in real time and generates a health state index of a current user;

the mobile terminal generates an electronic cigarette working mode based on the health state index of the current user and sends the electronic cigarette working mode to the electronic cigarette;

and when the electronic cigarette is started, the electronic cigarette is subjected to power-on self-test, the latest electronic cigarette working mode is read after the power-on self-test is normal, and the electronic cigarette is controlled to operate based on the latest electronic cigarette working mode.

2. The user health status-based electronic cigarette control method according to claim 1, wherein the mobile terminal obtaining the user health status information collected by the wearable device in real time and generating the health status indicator of the current user comprises:

the mobile terminal acquires an original pulse wave signal acquired by a pulse wave sensor arranged in the wearable equipment in real time;

the mobile terminal preprocesses the original pulse wave signal to obtain a reconstructed pulse wave characteristic point;

the mobile terminal analyzes and calculates the reconstructed pulse wave feature points to obtain the health state information of the current user, wherein the health state information comprises: real-time heart rate, real-time blood pressure, and real-time blood oxygen saturation;

and the mobile terminal generates a health state index of the current user based on the health state information of the current user.

3. The method for controlling the electronic cigarette based on the health status of the user according to claim 2, wherein the generating the health status indicator of the current user based on the health status information of the current user by the mobile terminal comprises:

the mobile terminal draws electrocardiosignals and body temperature data of the current user in real time according to the health state information of the current user;

based on a preset acquisition cycle, extracting a plurality of electrocardiosignal values and body temperature values of the current user according to a time sequence, and taking the electrocardiosignal values and the body temperature values as health state data of the current user;

averaging the health state data to obtain a health state average value corresponding to the current user in the current acquisition period, and performing function fitting on the health state average value to generate a health state fitting function corresponding to the current user;

and generating future health state data of the current user in a preset time period based on the health state fitting function, and taking the current health state data and the future health state data of the current user as health state indexes of the current user.

4. The method for controlling the electronic cigarette based on the health status of the user according to claim 1, wherein the generating the electronic cigarette working mode based on the health status indicator of the current user by the mobile terminal comprises:

the mobile terminal judges whether the current health state index of the user is within a preset human health index threshold range;

if the health status index of the user is within the threshold range of the human health index, the mobile terminal generates an optimal control parameter of the electronic cigarette according to the health status index of the user and sends the optimal control parameter to the electronic cigarette as an electronic cigarette working mode;

if the current value is not within the range of the human health index threshold value, the mobile terminal displays warning information and pushes the warning information to the electronic cigarette;

wherein the optimal control parameters of the electronic cigarette comprise: smoke total amount control parameters, smoking frequency control parameters and smoking duration control parameters.

5. The electronic cigarette control method based on the user health status according to claim 1, wherein the electronic cigarette performs power-on self-test when started, reads a latest electronic cigarette working mode after the power-on self-test is normal, and controls the electronic cigarette to operate based on the latest electronic cigarette working mode includes:

the mobile terminal sends a starting signal to the electronic cigarette;

the electronic cigarette receives the starting signal and judges whether the voltage value of the battery reaches a preset working voltage threshold value or not;

if the preset working voltage threshold is reached, the electronic cigarette determines that the electronic cigarette is normal in power-on self-test;

the electronic cigarette receives a working mode of the electronic cigarette generated by the mobile terminal through a health state index of a current user;

and the electronic cigarette adjusts the control parameters of the electronic cigarette based on the working mode of the electronic cigarette and operates based on the adjusted control parameters.

6. The electronic cigarette control method based on the health status of the user according to claim 5, wherein the electronic cigarette adjusts the control parameters of the electronic cigarette based on the working mode of the electronic cigarette, and the operation based on the adjusted control parameters comprises:

the electronic cigarette collects the smoke amount generated by the work of the electronic cigarette atomizer in real time, and obtains the current smoke total amount through a preset smoke total amount calculation formula;

the electronic cigarette judges whether the value of the current total smoke loss working voltage exceeds a preset total loss working voltage threshold value or not in real time based on a preset working voltage calculation formula, and if the value exceeds the preset total loss working voltage threshold value, the electronic cigarette atomizer is controlled to stop working and send out reminding information to prompt a user.

7. The method for controlling the electronic cigarette according to the user health status of claim 6, wherein the smoke amount calculation formula is as follows:

wherein C represents aerosol volume flow, t represents detection time, D represents total smoke, di represents ith grading diameter of aerosol particles, k is positive integer, i is positive integer less than or equal to k, and n represents average particle number concentration rho ₀ Is the standard density, t, of the aerosol particles ₀ To detect the start time, t ₁ To detect the termination time.

8. The user health status-based electronic cigarette control method according to claim 6, wherein the operating voltage calculation formula is as follows:

D _N ＝D _N-1 +d _N ，d _N ＝η _N ×a _N ×t _N

wherein N represents the working frequency of the electronic cigarette atomizer, and N is more than or equal to 1, d _N Value, η, representing the loss operating voltage resulting from the nth operation of the electronic cigarette atomizer _N Represents a voltage value correction factor, a _N Represents the loss working voltage value t generated when the electronic cigarette atomizer works for the Nth time _N Represents the working time length of the Nth electronic cigarette atomizer, D _N And the value of the total loss working voltage of the electronic cigarette atomizer after N times of work is represented.

9. The electronic cigarette control method based on the user health status of claim 5, further comprising:

when the electronic cigarette starts to work, the electronic cigarette checks whether the smoking times reach the preset times of the day and judges whether the current smoking interval and the last smoking interval reach the preset time interval of the day;

if the smoking times of the current day are not reached and the preset time interval of the current day is reached, the electronic cigarette continues to work normally;

and if the smoking times of the current day are reached and the preset time interval of the current day is not reached, the electronic cigarette sends reminding information to prompt the user.

10. The electronic cigarette control method based on the user health status of claim 1, further comprising:

when the electronic cigarette starts to work, accumulating the time length of the current user for smoking in real time and judging whether the time length exceeds a preset smoking time length threshold value or not in real time;

and if the smoking time length of the current user exceeds a preset healthy smoking time length threshold, the electronic cigarette displays alarm information and sends a power supply closing signal for stopping smoking.

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