CN113854777A - Cloud-based multifunctional inflatable mattress and interaction method thereof - Google Patents

Abstract

The invention relates to a cloud-based multifunctional inflatable mattress interaction method, which comprises the following steps: the cloud acquires a relevant request instruction of a user; the cloud end responds according to a preset relevant request instruction and correspondingly controls the inflatable mattress; the cloud end acquires sleep parameters of a user, the sleep parameters comprise the sleep heart rate of the user, and sleep characteristic parameters of the user are calculated according to the sleep parameters; the cloud end evaluates the sleep quality of the user according to the sleep characteristic parameters of the user, and pushes the sleep quality condition and the sleep heart rate of the user to the mobile terminal of the user. The air mattress can be controlled based on the cloud, the sleep heart rate of the user can be intelligently monitored, the sleep quality analysis of the user is carried out, the related data are pushed to the client, and a certain early warning effect on the body health of the user can be achieved.

Description

Cloud-based multifunctional inflatable mattress and interaction method thereof

Technical Field

The invention relates to the technical field of inflatable mattresses, in particular to a cloud-based multifunctional inflatable mattress and an interaction method thereof.

Background

The inflatable mattress is a mattress which has strong flexibility and elasticity and expands to a larger volume after being inflated. The advantages that the inflatable bed is not easy to deform due to elasticity, is comfortable to sleep, feels the same as a spring bed, and is easy to carry and move.

The inflatable mattress in the current market is often single in function, and intelligent lower, can't satisfy user's user demand.

Disclosure of Invention

The invention aims to at least solve one of the defects of the prior art and provides a cloud-based multifunctional inflatable mattress and an interaction method thereof.

In order to achieve the purpose, the invention adopts the following technical scheme:

specifically, a cloud-based multifunctional inflatable mattress interaction method is provided, which comprises the following steps:

the cloud acquires a relevant request instruction of a user;

the cloud end responds according to a preset relevant request instruction and correspondingly controls the inflatable mattress;

the cloud end acquires sleep parameters of a user, the sleep parameters comprise the sleep heart rate of the user, and sleep characteristic parameters of the user are calculated according to the sleep parameters;

the cloud end evaluates the sleep quality of the user according to the sleep characteristic parameters of the user, and pushes the sleep quality condition and the sleep heart rate of the user to the mobile terminal of the user.

Further, the request instructions related to the user specifically include a heart rate measurement request, a massage function request, a heating function request, and a weather forecast request,

when the relevant request instruction is a heart rate measurement request, the cloud end controls the inflatable mattress to carry out heart rate measurement;

when the related request instruction is a massage function request, the cloud end controls the inflatable mattress to massage a preset area;

when the related request instruction is a heating function request, the cloud analyzes the heating function request to obtain the required temperature of a user, and controls the inflatable mattress to heat to the required temperature;

and when the related request instruction is a weather forecast request, the cloud terminal analyzes the weather forecast request to acquire a target city of the user and controls a display module of the inflatable mattress to display the weather forecast of the target city.

Further, the method may further comprise,

pre-establishing a personal information database of a user, wherein the personal information database is used for storing personal identity information of the user and an operation record of the user for using the inflatable mattress each time;

the user accesses the cloud end through identity recognition, the cloud end accesses the personal information database of the user, and the operation records of the inflatable mattress used by the user every time are recorded into the cloud end.

Further, the method may further comprise,

the cloud acquires identity information of a first-level associated user preset by a user, and the user and the first-level associated user can select a preset second-level associated user, wherein the first-level associated user and the second-level associated user meet the following rule;

the cloud acquires information acquisition permission of a user to the first-level associated user and the second-level associated user, if the access is allowed, the first-level associated user and the second-level associated user can log in the cloud in an identity verification mode to access the relevant information stored by the user in the cloud, but the record of each access is stored by the cloud, in addition, the sleep heart rate measured by the user each time and the sleep quality data obtained by evaluation are automatically pushed to the first-level associated user under the condition that the user is allowed, the cloud also acquires the opinion of the first user about the pushing, and the data are pushed to the second-level associated user under the conditions that the user is allowed and the opinion of the first-level associated user is agreed.

Further, specifically, the obtaining of the sleep characteristic parameter of the user by calculating according to the sleep parameter includes,

the sleep parameters also comprise triaxial sensor data monitored by the body motion recorder except the sleep heart rate, the sleep starting time, the sleep stopping time, the deep sleep time and the shallow sleep time of the user are judged according to the triaxial sensor data, the total sleep time of the user is obtained according to the sleep stopping time and the sleep starting time of the user, and the total sleep time, the deep sleep time and the shallow sleep time of the user are used as sleep characteristic parameters of the user.

Further, specifically, the cloud end evaluating the sleep quality of the user according to the sleep characteristic parameters of the user comprises the following steps,

taking the ratio of the deep sleep time to the total sleep time of the user as a first influence factor A, taking the ratio of the sum of the deep sleep time and the shallow sleep time to the total sleep time of the user as a second influence factor B, distributing weights a and B to the first influence factor and the second influence factor by an analytic hierarchy process, taking Aa + Bb as a sleep quality score, and representing the better sleep quality of the user when the score is higher.

Further, the method may further comprise,

after a user accesses the cloud terminal through identity recognition, the personal information database of the user is accessed, the number of preference parameters of the user is determined, the preference parameters comprise the hardness, the temperature and the massage gear parameters which are adjusted by the inflatable mattress, the personal information database of the user is traversed, the numerical value of the user with the most adjustment times on the preference parameters is found, the numerical value of the hardness, the temperature and the massage gear parameters which are adjusted most is used as a starting scheme, and the corresponding operation of the inflatable mattress is controlled by the starting scheme.

Further, specifically, the manner in which the cloud acquires the relevant request instruction of the user includes a voice recognition manner and a manner of triggering by acquiring a virtual button at the mobile terminal of the user.

The invention also provides a cloud-based multifunctional inflatable mattress, which comprises the following components:

the cloud end comprises a cloud end and a cloud end,

a request instruction obtaining module for obtaining the relevant request instruction of the user,

the response module is used for responding according to the preset relevant request instruction and correspondingly controlling the inflatable mattress,

a sleep parameter acquiring module for acquiring sleep parameters of a user, wherein the sleep parameters comprise the sleep heart rate of the user, the sleep characteristic parameters of the user are calculated according to the sleep parameters,

the sleep quality calculation module is used for evaluating the sleep quality of the user according to the sleep characteristic parameters of the user and pushing the sleep quality condition and the sleep heart rate of the user to a mobile terminal of the user;

an air mattress, comprising a plurality of air chambers,

the heart rate measuring module is used for measuring the heart rate of the user;

the massage module is used for massaging a preset area;

the heating module is used for heating to the required temperature of a user;

and the display module is used for displaying the weather forecast of the target city.

Further, it is preferable that, in particular,

the heart rate measuring module comprises a heart rate sensor based on photoelectric transmission measurement;

the massage module comprises air bags arranged according to regions, the air bags are controlled by a motor to be deflated and deflated, and the motor is operated at a corresponding frequency according to a preselected gear to inflate and deflate so as to massage a user;

the heating module comprises a temperature control circuit formed on the basis of a heating element and a temperature regulator, and is used for heating the inflatable mattress according to a preselected temperature;

the display module comprises a display circuit formed on the basis of a display screen and is used for displaying the weather of the city according to a preselected target city.

The invention has the beneficial effects that:

the cloud-based multifunctional inflatable mattress interaction method provided by the invention can control the inflatable mattress based on the cloud, intelligently monitor the sleep heart rate of a user, and push related data to a client for sleep quality analysis of the user, so that a certain early warning effect on the body health of the user can be realized.

Drawings

The foregoing and other features of the present disclosure will become more apparent from the detailed description of the embodiments shown in conjunction with the drawings in which like reference characters designate the same or similar elements throughout the several views, and it is apparent that the drawings in the following description are merely some examples of the present disclosure and that other drawings may be derived therefrom by those skilled in the art without the benefit of any inventive faculty, and in which:

FIG. 1 is a flow chart illustrating a cloud-based multi-functional inflatable mattress interaction method according to the present invention;

FIG. 2 is a functional block diagram of a cloud end of the cloud-based multi-functional inflatable mattress according to the present invention;

fig. 3 is a functional block diagram of an inflatable mattress of the cloud-based multifunctional inflatable mattress according to the present invention.

Detailed Description

The conception, the specific structure and the technical effects of the present invention will be clearly and completely described in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the schemes and the effects of the present invention. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The same reference numbers will be used throughout the drawings to refer to the same or like parts.

Referring to fig. 1, in embodiment 1, the invention provides a cloud-based multifunctional inflatable mattress interaction method, which includes the following steps:

step 110, the cloud acquires a relevant request instruction of a user;

step 120, the cloud end responds according to a preset relevant request instruction, and correspondingly controls the inflatable mattress;

step 130, the cloud acquires sleep parameters of the user, wherein the sleep parameters comprise the sleep heart rate of the user, and sleep characteristic parameters of the user are calculated according to the sleep parameters;

and step 140, the cloud end evaluates the sleep quality of the user according to the sleep characteristic parameters of the user, and pushes the sleep quality condition and the sleep heart rate of the user to the mobile terminal of the user.

As a preferred embodiment of the present invention, in particular, the request instruction related to the user specifically includes a heart rate measurement request, a massage function request, a heating function request and a weather forecast request,

when the relevant request instruction is a heart rate measurement request, the cloud end controls the inflatable mattress to carry out heart rate measurement;

when the related request instruction is a massage function request, the cloud end controls the inflatable mattress to massage a preset area;

when the related request instruction is a heating function request, the cloud analyzes the heating function request to obtain the required temperature of a user, and controls the inflatable mattress to heat to the required temperature;

and when the related request instruction is a weather forecast request, the cloud terminal analyzes the weather forecast request to acquire a target city of the user and controls a display module of the inflatable mattress to display the weather forecast of the target city.

As a preferred embodiment of the present invention, the method further comprises,

pre-establishing a personal information database of a user, wherein the personal information database is used for storing personal identity information of the user and an operation record of the user for using the inflatable mattress each time;

the user accesses the cloud end through identity recognition, the cloud end accesses the personal information database of the user, and the operation records of the inflatable mattress used by the user every time are recorded into the cloud end.

As a preferred embodiment of the present invention, the method further comprises,

the cloud acquires identity information of a first-level associated user preset by a user, and the user and the first-level associated user can select a preset second-level associated user, wherein the first-level associated user and the second-level associated user meet the following rule;

the cloud acquires information acquisition permission of a user to the first-level associated user and the second-level associated user, if the access is allowed, the first-level associated user and the second-level associated user can log in the cloud in an identity verification mode to access the relevant information stored by the user in the cloud, but the record of each access is stored by the cloud, in addition, the sleep heart rate measured by the user each time and the sleep quality data obtained by evaluation are automatically pushed to the first-level associated user under the condition that the user is allowed, the cloud also acquires the opinion of the first user about the pushing, and the data are pushed to the second-level associated user under the conditions that the user is allowed and the opinion of the first-level associated user is agreed.

In the preferred embodiment, considering that most of the users of the product are senior child users, a second-level associated user is set, the first level can be set as a caretaker of the user and the like to directly check the sleep condition of the user, and the second level can be a corresponding doctor and the like of the user to acquire the sleep information of the user through the relative authorization conditions of the user and the second-level associated user.

As a preferred embodiment of the present invention, specifically, the calculating the sleep characteristic parameter of the user according to the sleep parameter includes,

the sleep parameters also comprise triaxial sensor data monitored by the body motion recorder except the sleep heart rate, the sleep starting time, the sleep stopping time, the deep sleep time and the shallow sleep time of the user are judged according to the triaxial sensor data, the total sleep time of the user is obtained according to the sleep stopping time and the sleep starting time of the user, and the total sleep time, the deep sleep time and the shallow sleep time of the user are used as sleep characteristic parameters of the user.

In the preferred embodiment, the triaxial sensor data of the user are monitored through the body motion recorder, and the sleep condition of the user is obtained according to the monitored data, which is a technology with a mature market.

Specifically, as a preferred embodiment of the present invention, the cloud evaluating the sleep quality of the user according to the sleep characteristic parameters of the user includes the following steps,

taking the ratio of the deep sleep time to the total sleep time of the user as a first influence factor A, taking the ratio of the sum of the deep sleep time and the shallow sleep time to the total sleep time of the user as a second influence factor B, distributing weights a and B to the first influence factor and the second influence factor by an analytic hierarchy process, taking Aa + Bb as a sleep quality score, and representing the better sleep quality of the user when the score is higher.

As a preferred embodiment of the present invention, the method further comprises,

after a user accesses the cloud terminal through identity recognition, the personal information database of the user is accessed, the number of preference parameters of the user is determined, the preference parameters comprise the hardness, the temperature and the massage gear parameters which are adjusted by the inflatable mattress, the personal information database of the user is traversed, the numerical value of the user with the most adjustment times on the preference parameters is found, the numerical value of the hardness, the temperature and the massage gear parameters which are adjusted most is used as a starting scheme, and the corresponding operation of the inflatable mattress is controlled by the starting scheme.

In the preferred embodiment, the behavior of the user can be learned, and the pre-starting parameters of the inflatable mattress can be adjusted according to the operation habits of the user.

As a preferred embodiment of the present invention, specifically, the manner in which the cloud obtains the relevant request instruction of the user includes a voice recognition manner and a manner of triggering by obtaining a virtual button at the mobile terminal of the user.

Referring to fig. 2 and 3, the invention further provides a cloud-based multifunctional inflatable mattress, which comprises the following components:

the cloud end comprises a cloud end and a cloud end,

a request instruction obtaining module 100, configured to obtain a request instruction related to a user,

a response module 200, configured to respond according to a preset relevant request instruction, perform corresponding control on the inflatable mattress,

a sleep parameter acquiring module 300, configured to acquire a sleep parameter of a user, where the sleep parameter includes a sleep heart rate of the user, calculate a sleep characteristic parameter of the user according to the sleep parameter,

the sleep quality calculation module 400 is configured to evaluate the sleep quality of the user according to the sleep characteristic parameters of the user, and push the sleep quality condition and the sleep heart rate of the user to the mobile terminal of the user;

an air mattress, comprising a plurality of air chambers,

a heart rate measurement module 500 for performing heart rate measurement on a user;

a massage module 600 for massaging a preset area;

a heating module 700 for heating to a desired temperature of a user;

and the display module 800 is used for displaying the weather forecast of the target city.

As a preferred embodiment of the present invention, specifically,

the heart rate measuring module comprises a heart rate sensor based on photoelectric transmission measurement;

the massage module comprises air bags arranged according to regions, the air bags are controlled by a motor to be deflated and deflated, and the motor is operated at a corresponding frequency according to a preselected gear to inflate and deflate so as to massage a user;

the heating module comprises a temperature control circuit formed on the basis of a heating element and a temperature regulator, and is used for heating the inflatable mattress according to a preselected temperature;

the display module comprises a display circuit formed on the basis of a display screen and is used for displaying the weather of the city according to a preselected target city.

The modules described as separate parts may or may not be physically separate, and parts displayed as modules may or may not be physical modules, may be located in one place, or may be distributed on a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution in this embodiment.

In addition, functional modules in the embodiments of the present invention may be integrated into one processing module, or each of the modules may exist alone physically, or two or more modules are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode.

The integrated module, if implemented in the form of a software functional module and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, all or part of the flow of the method according to the embodiments of the present invention may also be implemented by a computer program, which may be stored in a computer-readable storage medium and can implement the steps of the above-described method embodiments when the computer program is executed by a processor. Wherein the computer program comprises computer program code, which may be in the form of source code, object code, an executable file or some intermediate form, etc. The computer-readable medium may include: any entity or system capable of carrying said computer program code, recording medium, usb disk, removable hard disk, magnetic disk, optical disk, computer Memory, Read-Only Memory (ROM), Random Access Memory (RAM), electrical carrier wave signals, telecommunications signals, software distribution medium, etc. It should be noted that the computer readable medium includes content that can be suitably increased or decreased according to the requirements of legislation and patent practice in jurisdictions, for example, in some jurisdictions, computer readable media does not include electrical carrier signals and telecommunication signals according to legislation and patent practice.

While the present invention has been described in considerable detail and with particular reference to a few illustrative embodiments thereof, it is not intended to be limited to any such details or embodiments or any particular embodiments, but it is to be construed as effectively covering the intended scope of the invention by providing a broad, potential interpretation of such claims in view of the prior art with reference to the appended claims. Furthermore, the foregoing describes the invention in terms of embodiments foreseen by the inventor for which an enabling description was available, notwithstanding that insubstantial modifications of the invention, not presently foreseen, may nonetheless represent equivalent modifications thereto.

The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above embodiment, and the present invention shall fall within the protection scope of the present invention as long as the technical effects of the present invention are achieved by the same means. The invention is capable of other modifications and variations in its technical solution and/or its implementation, within the scope of protection of the invention.

Claims (10)

1. The cloud-based multifunctional inflatable mattress interaction method is characterized by comprising the following steps:

the cloud acquires a relevant request instruction of a user;

the cloud end responds according to a preset relevant request instruction and correspondingly controls the inflatable mattress;

the cloud end acquires sleep parameters of a user, the sleep parameters comprise the sleep heart rate of the user, and sleep characteristic parameters of the user are calculated according to the sleep parameters;

the cloud end evaluates the sleep quality of the user according to the sleep characteristic parameters of the user, and pushes the sleep quality condition and the sleep heart rate of the user to the mobile terminal of the user.

2. The cloud-based multifunctional inflatable mattress interaction method of claim 1, wherein the user-related request instructions specifically comprise a heart rate measurement request, a massage function request, a heating function request, and a weather forecast request,

when the relevant request instruction is a heart rate measurement request, the cloud end controls the inflatable mattress to carry out heart rate measurement;

when the related request instruction is a massage function request, the cloud end controls the inflatable mattress to massage a preset area;

when the related request instruction is a heating function request, the cloud analyzes the heating function request to obtain the required temperature of a user, and controls the inflatable mattress to heat to the required temperature;

and when the related request instruction is a weather forecast request, the cloud terminal analyzes the weather forecast request to acquire a target city of the user and controls a display module of the inflatable mattress to display the weather forecast of the target city.

3. The cloud-based multi-functional airbed interaction method of claim 2, further comprising,

pre-establishing a personal information database of a user, wherein the personal information database is used for storing personal identity information of the user and an operation record of the user for using the inflatable mattress each time;

the user accesses the cloud end through identity recognition, the cloud end accesses the personal information database of the user, and the operation records of the inflatable mattress used by the user every time are recorded into the cloud end.

4. The cloud-based multi-functional airbed interaction method of claim 3, further comprising,

the cloud acquires identity information of a first-level associated user preset by a user, and the user and the first-level associated user can select a preset second-level associated user, wherein the first-level associated user and the second-level associated user meet the following rule;

the cloud acquires information acquisition permission of a user to the first-level associated user and the second-level associated user, if the access is allowed, the first-level associated user and the second-level associated user can log in the cloud in an identity verification mode to access the relevant information stored by the user in the cloud, but the record of each access is stored by the cloud, in addition, the sleep heart rate measured by the user each time and the sleep quality data obtained by evaluation are automatically pushed to the first-level associated user under the condition that the user is allowed, the cloud also acquires the opinion of the first user about the pushing, and the data are pushed to the second-level associated user under the conditions that the user is allowed and the opinion of the first-level associated user is agreed.

5. The cloud-based multifunctional inflatable mattress interaction method of claim 1, wherein specifically, the calculating sleep characteristic parameters of the user according to the sleep parameters comprises,

the sleep parameters also comprise triaxial sensor data monitored by the body motion recorder except the sleep heart rate, the sleep starting time, the sleep stopping time, the deep sleep time and the shallow sleep time of the user are judged according to the triaxial sensor data, the total sleep time of the user is obtained according to the sleep stopping time and the sleep starting time of the user, and the total sleep time, the deep sleep time and the shallow sleep time of the user are used as sleep characteristic parameters of the user.

6. The cloud-based multifunctional inflatable mattress interaction method of claim 5, wherein specifically, the cloud evaluating the sleep quality of the user according to the sleep characteristic parameters of the user comprises the following steps,

taking the ratio of the deep sleep time to the total sleep time of the user as a first influence factor A, taking the ratio of the sum of the deep sleep time and the shallow sleep time to the total sleep time of the user as a second influence factor B, distributing weights a and B to the first influence factor and the second influence factor by an analytic hierarchy process, taking Aa + Bb as a sleep quality score, and representing the better sleep quality of the user when the score is higher.

7. The cloud-based multi-functional airbed interaction method of claim 3, further comprising,

after a user accesses the cloud terminal through identity recognition, the personal information database of the user is accessed, the number of preference parameters of the user is determined, the preference parameters comprise the hardness, the temperature and the massage gear parameters which are adjusted by the inflatable mattress, the personal information database of the user is traversed, the numerical value of the user with the most adjustment times on the preference parameters is found, the numerical value of the hardness, the temperature and the massage gear parameters which are adjusted most is used as a starting scheme, and the corresponding operation of the inflatable mattress is controlled by the starting scheme.

8. The cloud-based multifunctional inflatable mattress interaction method of claim 1, wherein the manner in which the cloud obtains the relevant request instruction of the user specifically comprises a voice recognition manner and a manner of triggering by obtaining a virtual button at a mobile terminal of the user.

9. Multi-functional air mattress based on high in clouds, its characterized in that includes following:

the cloud end comprises a cloud end and a cloud end,

a request instruction obtaining module for obtaining the relevant request instruction of the user,

the response module is used for responding according to the preset relevant request instruction and correspondingly controlling the inflatable mattress,

a sleep parameter acquiring module for acquiring sleep parameters of a user, wherein the sleep parameters comprise the sleep heart rate of the user, the sleep characteristic parameters of the user are calculated according to the sleep parameters,

the sleep quality calculation module is used for evaluating the sleep quality of the user according to the sleep characteristic parameters of the user and pushing the sleep quality condition and the sleep heart rate of the user to a mobile terminal of the user;

an air mattress, comprising a plurality of air chambers,

the heart rate measuring module is used for measuring the heart rate of the user;

the massage module is used for massaging a preset area;

the heating module is used for heating to the required temperature of a user;

and the display module is used for displaying the weather forecast of the target city.

10. The cloud-based multi-functional inflatable mattress of claim 9, wherein, in particular,

the heart rate measuring module comprises a heart rate sensor based on photoelectric transmission measurement;

the massage module comprises air bags arranged according to regions, the air bags are controlled by a motor to be deflated and deflated, and the motor is operated at a corresponding frequency according to a preselected gear to inflate and deflate so as to massage a user;

the heating module comprises a temperature control circuit formed on the basis of a heating element and a temperature regulator, and is used for heating the inflatable mattress according to a preselected temperature;

the display module comprises a display circuit formed on the basis of a display screen and is used for displaying the weather of the city according to a preselected target city.

Images