CN109036563B - Control analysis system and method based on mattress - Google Patents

Abstract

The embodiment of the invention discloses a control analysis system and a control analysis method based on a mattress, wherein the system comprises the following components: the setting is on the mattress and support speech control and speech chat service's speech device, the controlling means of setting on the mattress, and integrated detection device and the collection system in human intelligent monitoring system, wherein: the control device controls the mattress to start a functional mode according to a detection result sent by the detection device, and performs switch control on the detection device or the acquisition device in a specific functional mode; the detection device detects the state of the mattress after the functional mode of the mattress is started and sends an indication signal to the acquisition device; the acquisition device correspondingly acquires the physiological data of the user so as to carry out data analysis; the problem that the human intelligent monitoring system and the mattress lack information interaction and the collected user physiological data lack accuracy can be solved, interaction control between the human intelligent monitoring system and the mattress can be achieved, and the collection and analysis accuracy of the user physiological data is improved.

Description

Control analysis system and method based on mattress

Technical Field

The embodiment of the invention relates to the technical field of home furnishing, in particular to a control analysis system and method based on a mattress.

Background

Along with the promotion of people's health consciousness, a large amount of multi-functional mattress products have appeared on the market, and the function that can realize includes alleviating pressure and supplementary sleep etc..

However, these mattress products cannot realize the detection of the physiological data of the user due to the lack of a memory function, even though various devices that can detect the physiological data of the user are mechanically mounted on the multifunctional mattress product, the information interaction is lacked, and the physiological data collected while the user is in different states lacks accuracy.

Disclosure of Invention

The embodiment of the invention provides a control analysis system and method based on a mattress, and aims to solve the problems that in the prior art, an intelligent human body monitoring system and the mattress lack of information interaction, and the collected physiological data of a user lack of accuracy.

In a first aspect, an embodiment of the present invention provides a mattress-based control analysis system, including:

the controlling means of setting on the mattress, and integrated detection device and the collection system in human intelligent monitoring system, wherein:

the control device is used for controlling the mattress to start a functional mode according to a detection result sent by the detection device, wherein the functional mode comprises a massage mode, a sleep awakening mode and a sleep promoting mode;

the detection device is used for detecting the state of the mattress after the functional mode of the mattress is started and sending an indication signal to the acquisition device according to the state of the mattress, wherein the state of the mattress comprises a motion state and a non-motion state;

the acquisition device is used for acquiring the physiological data of the user according to the indication signal so as to analyze the data.

In a second aspect, an embodiment of the present invention further provides a control analysis method based on a mattress, which is implemented based on the control analysis system based on a mattress provided in the embodiment of the present invention, and the method includes:

the control device controls the mattress to start a functional mode according to a detection result sent by the detection device, wherein the functional mode comprises a massage mode, a sleep awakening mode and a sleep promoting mode;

the detection device detects the state of the mattress after the functional mode of the mattress is started, and sends an indication signal to the acquisition device according to the state of the mattress, wherein the state of the mattress comprises a motion state and a non-motion state;

the acquisition device acquires the physiological data of the user according to the indication signal so as to analyze the data.

The embodiment of the invention provides a control analysis system and a control analysis method based on a mattress, wherein the system comprises a control device arranged on the mattress, a detection device and a collection device which are integrated in an intelligent human body monitoring system, wherein the control device is used for controlling the mattress to start a massage mode, a sleep awakening mode or a sleep promoting mode according to a detection result sent by the detection device; the detection device is used for detecting the state of the mattress after the functional mode of the mattress is started and sending an indication signal to the acquisition device; the acquisition device is used for acquiring the physiological data of the user according to the indication signal so as to analyze the data. The embodiment of the invention solves the problems that in the prior art, the human intelligent monitoring system and the mattress lack of information interaction and the collected physiological data of the user lack of accuracy, so that the analysis result aiming at the physiological data of the user is inaccurate, realizes the interactive control of the human intelligent monitoring system and the mattress, improves the collection and analysis accuracy of the physiological data of the user, and further accurately monitors the health condition of the user; in addition, the mattress supports voice control and voice chat service, and can provide more humanized and intelligent service for users.

Drawings

Fig. 1 is a schematic structural diagram of a mattress-based control analysis system according to an embodiment of the present invention;

fig. 2 is a flowchart of a mattress-based control analysis method according to a second embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

Fig. 1 is a schematic structural diagram of a mattress-based control and analysis system according to an embodiment of the present invention, which is applicable to a situation where a mattress is controlled to enable different functional modes and then physiological data of a user is detected and analyzed, and the system may be implemented in a software and/or hardware manner.

As shown in fig. 1, the mattress-based control analysis system provided by the present implementation may include: a control device 103 arranged on the mattress 105, and a detection device 101 and a collection device 102 integrated in the human body intelligent monitoring system, wherein:

the control device 103 is used for controlling the mattress 105 to start functional modes according to the detection result sent by the detection device 101, wherein the functional modes include a massage mode, a sleep wake-up mode and a sleep promoting mode. Mattress 105 may be a multi-functional smart mattress, including a dynamic mattress, that is differentiated from a conventional mattress.

Optionally, the detection result at least includes one of the following:

the detection result of the bed time, the morning and evening time, the detection simulation result of the breathing frequency and the heartbeat frequency of the user or the preset morning starting time.

The detection device 101 may detect the bed time of the user based on a pressure sensing detection technology or a vibration detection technology, or recognize the morning and evening time by using a time clock in the detection device 101, or detect the respiratory frequency, the heartbeat frequency, and the like of the user by using a physiological detection unit inside the detection device 101, or receive the morning and evening time preset by the user, and based on at least one detection result, the control device 103 may determine the functional mode of the mattress 105 that needs to be started currently according to a preset logical relationship, and send a functional operation instruction to the mattress, thereby realizing the control of the functional start of the mattress through a human intelligent monitoring system.

The detection means 101 is adapted to detect the state of the mattress 105 after the mattress 105 has started the functional mode and to send an indication signal to the acquisition means 102 depending on the state of the mattress 105, wherein the state of the mattress 105 comprises a movement state and a non-movement state. That is, based on the detection device 101, the functional mode of the mattress 105 can be selectively controlled, and the differentiated collection of the user physiological data when the mattress is in different states can be realized.

The acquisition device 102 is used for acquiring the physiological data of the user according to the indication signal so as to analyze the data.

When the mattress 105 is activated to the massage mode, the sleep-wake mode or the sleep-promoting mode, the mattress 105 is in a motion state with different degrees and performs the massage, sleep-wake or sleep-promoting functions within a preset time, and after the preset time is over, the mattress functions are over, for example, after a preset 15 minutes, the massage functions of the mattress 105 are stopped. When the mattress 105 is in motion, the user is correspondingly in motion at the bed; when the mattress 105 is in the non-moving state, the bed user is correspondingly in the non-moving state, and there is a difference in the physiological data of the user between the moving state and the non-moving state. If the method in the prior art is adopted, the states of the mattress 105 are not distinguished, the physiological data of the user are directly collected and analyzed, the physiological data of the user in different states are necessarily collected in a cross way, and further the analysis result of the physiological data of the user in different states is inaccurate. It should be noted that, the advantage of selecting the mattress as the user physiological data acquisition environment in this embodiment is that the user and the environment are both in a relatively stable state, and the corresponding user physiological data is also relatively stable, thereby ensuring the reliability and accuracy of physiological data acquisition.

The following is illustrative of the massage, sleep-wake and sleep-promotion modes of the mattress 105:

example one: the detection device 101 detects the bed time of a human body, when the bed time is detected to exceed a preset time threshold value, the control device 103 determines that the mattress 105 starts a massage mode, when the mattress 105 starts a massage function, the mattress 105 is in a motion state, physiological data of a user in the motion state, such as breathing or heartbeat frequency, is collected, experience feedback of the user on the massage function of the mattress 105 and the health condition of the user can be analyzed through data analysis, but the collected data are not suitable for sleep quality analysis of the user; when the execution time of the massage mode is finished, the collection of the physiological data of the user is finished at the same time, when the detection device 101 detects that the mattress 105 is in the non-motion state, the physiological data collection function of the user is started again, and if the user enters the sleep state, the sleep data of the user can be accurately collected.

Example two: if the time clock in the detection device 101 detects that the current time is morning, the control device 103 controls the mattress 105 to execute the sleep wake-up mode, and when entering the sleep wake-up mode, the mattress 105 is in a gentle movement state to wake up the user; in addition, according to the morning start time preset by the user, the mattress 105 may enter a sleep wake-up mode within a preset time that is earlier than the morning start time to wake up the user. By collecting physiological data of the user in the sleep wake-up mode, experience feedback of the user to the sleep wake-up function of the mattress 105 and the sleep condition of the user in a light sleep state can be obtained through data analysis. When the execution time of the sleep-wakeup mode is finished, the collection of the physiological data of the user is finished at the same time, and when the detection device 101 detects that the mattress 105 is in the non-motion state, the function of collecting the physiological data of the user is started again.

Example three: if the time clock in the detection device 101 detects that the current time is night, the control device 103 controls the mattress 105 to execute the sleep promoting mode, when the sleep promoting mode is entered, the mattress 105 is in a state of gentle movement, at the moment, the physiological data of the user is collected, statistical analysis can be performed on the data of the user about to enter the sleep stage, and whether the user has an insomnia state or not is judged. When the execution time of the sleep promoting mode is finished, the collection of the physiological data of the user is finished at the same time, and when the detection device 101 detects that the mattress 105 is in a non-motion state, the function of collecting the physiological data of the user is started again.

Example four: detecting the breathing frequency, the heartbeat frequency and the like of the user by using a physiological detection unit in the detection device 101, determining the current state of the user through analog analysis of data, for example, determining that the user is currently in a light sleep state, and when the morning time is close, the control device 103 can control the mattress 105 to execute a sleep awakening mode, and be in a light and slow motion state, collecting the physiological data of the user at the moment, and analyzing the experience feedback of the user on the sleep awakening function of the mattress 105; when it is determined that the user is currently awake, the control device 103 may control the mattress 105 to perform a massage function, and to be in a slightly strenuous exercise state, collect physiological data of the user at that time, and analyze the user's experience feedback on the massage function of the mattress 105, but the data collected at this time is not suitable for analyzing the user's sleep condition.

As can be seen from the above examples, the control device 103 can control the mattress 105 to automatically select different functional modes based on the detection device 101 and in combination with the user status; and the physiological data of the user can be acquired and analyzed in a differentiated manner according to the state of the mattress by considering the difference of the front and back movement states of the functional mode of the mattress. That is, the technical scheme of the embodiment can realize information interaction and function complementation between the mattress 105 and the human intelligent monitoring system, and ensure the accuracy of physiological data acquisition and analysis in different states of the user on the basis of ensuring the realization of dynamic functions of massage, sleep promotion, sleep awakening and the like of the mattress 105.

Optionally, the collecting device 102 is specifically configured to:

according to the indication signal sent when the detection device 101 detects that the mattress 105 is in the non-motion state, the sleep data of the user are collected.

When the user enters the sleep state, the detection device 101 may detect that the mattress 105 is in the non-moving state, and at this time, send an indication signal to the acquisition device 102, and the acquisition device 102 acquires physiological data including the sleep data of the user according to the indication signal. Wherein the quality of sleep of the user can be determined by analyzing the sleep data of the user. In addition, in the embodiment, only the sleep data of the user when the mattress 105 is in the non-motion state is collected, so that the influence of the physiological data of the user collected when the mattress 105 is in the motion state on the sleep data of the user can be avoided, the real reliability of the sleep data can be ensured, and further, the comparison between the obtained sleep quality analysis result of the user in the sleep state and the physiological data of the user in the non-sleep state is more accurate.

On the basis of the above technical solution, optionally, the control device 103 is further configured to control the detection device 101 or the collection device 102 to be in a power-off state when the detection device 101 detects that the mattress 105 is in the motion state.

Specifically, in the present embodiment, it is preferred to collect only the physiological data of the user with the mattress 105 in the non-moving state. When the mattress 105 is in a motion state, the control device 103 controls the detection device 101 or the acquisition device 102 to be in a power-off state, which is equivalent to cutting off the detection or data acquisition function of the human intelligent monitoring system in the motion state, and when the mattress 105 is in a non-motion state, the function of the human intelligent monitoring system is recovered, so that the phenomenon that the mattress 105 acquires the physiological data of the user in the motion state and the non-motion state to generate cross influence and the acquired data is distorted is avoided.

Optionally, the collecting device 102 is further configured to send the collected user physiological data to the background server or the control device 103 through wireless communication, so that the background server or the control device 103 performs data analysis;

correspondingly, the control device 103 is further configured to: when the detection device 101 detects that the mattress 105 is in the motion state, the acquisition device 102 is controlled to refuse to transmit the acquired physiological data of the user to the background server or the control device 103.

The physiological data of the user collected by the collection device 102 can be sent to the background server for storage and data analysis through wireless communication such as WIFI or bluetooth, and can also be sent to the control device 103 for storage and data analysis through wireless communication such as WIFI or bluetooth. Of course, sending to the backend server may relieve the data storage and analysis processing pressure of the control device compared to sending to the control device 103. The acquisition device 102 may still maintain the data acquisition function when the mattress 105 is in motion, but the acquisition device 102 may be controlled by the control device 103 to refuse to send acquired data to the background server or control device 103, and data that is not sent out may be optionally discarded for the acquisition device 102. The physiological data of the user at this time is collected, but is not used for analyzing the physiological data, and does not interfere with the analysis result of the physiological data of the user collected when the mattress 105 is in the non-motion state.

Optionally, the control device 103 is further configured to: when the detection device 101 detects that the mattress 105 is in the motion state, the acquisition device 102 and the background server are controlled to be in a communication interruption state, or the acquisition device 102 and the control device 103 are controlled to be in a communication interruption state.

When the mattress is in the communication interruption state, the user physiological data acquired by the acquisition device 102 still cannot be successfully transmitted to the background server or the control device 103 for data storage and analysis, and the data which is not successfully transmitted to the background server or the control device 103 can be optionally discarded, so that interference on the analysis result of the user physiological data acquired when the mattress 105 is in the non-motion state due to the fact that the user physiological data acquired when the mattress 105 is in the motion state is avoided.

According to the above analysis, the control device 103 can not only realize the selective control of the functional mode of the mattress 105, but also realize the control of the acquisition device 102 and the detection device 101 of the human intelligent monitoring system, and realize the interactive control of the mattress 105 and the human intelligent monitoring system.

The following takes the human body intelligent monitoring system as a sleep tracking belt as an example for illustrative purposes:

when the mattress 105 is in the massage movement state, the control device 103 controls the acquisition device 102 of the sleep tracking belt to be in the abnormal working state, which specifically comprises: the power supply for the acquisition device 102 is stopped, or the acquisition device 102 is controlled to be in a communication interruption state with the control device 103 or the background server respectively, or the acquisition device 102 is controlled to refuse to send the acquired physiological data of the user to the control device 103 or the background server, so that the acquisition device 102 is powered off and does not acquire or acquire the physiological data of the user within the massage duration time of the mattress 105, and the acquired sleep data of the user can be prevented from being distorted. When the mattress 105 finishes the massage function, the normal working state of the acquisition device 102 of the sleep tracking belt is restored through the control device 103, including the normal power supply, normal transmission and normal communication functions, and the monitoring and acquisition of the sleep data of the user are started, so that the accurate acquisition of the sleep data of the user is ensured.

In addition, the user can also utilize a handheld remote controller and the like to forcibly close the human intelligent monitoring system and the mattress 105 respectively, so that the physiological data of the user cannot be collected or sent to a background server, and the effect of protecting the personal privacy of the user is achieved. At the same time, the effect of closing the mattress 105 when the user does not need the mattress 105 to provide the functions of massage, promotion of sleep or sleep awakening, etc. can be achieved.

Further, on the basis of the above technical solution, the control analysis system based on the mattress 105 provided in this embodiment further includes a display device 104, which is used for receiving and displaying the data analysis result of the control device 103 or the background server through wireless communication, wherein the display device 104 includes a terminal with a display function.

After the control device 103 or the background server completes analysis of the user physiological data acquired by the mattress 105 in the motion state or the non-motion state, the analysis result can be sent to the display device 104 by using wireless communication technologies such as WIFI or bluetooth for storage and visual display, so that the user can conveniently check the analysis result. The display device 104 may include a smart terminal such as a mobile phone, a personal computer, and an IPAD.

Optionally, the detection device 101 is further configured to determine whether a user is present on the mattress 105 according to a preset pressure threshold, a breathing frequency threshold, and/or a heartbeat frequency threshold;

correspondingly, the control means 103 is also arranged to control the mattress 105 to be in a powered-off state when the detection means 101 detects that no user is present on the mattress 105.

Specifically, the mattress 105 may be provided with a detection device such as a pressure sensor or a vibration detector, and the detection device may determine whether the user is in the bed state according to a comparison between the detected pressure and a preset pressure threshold; whether the user is in a bed state can also be judged according to the comparison between the breathing frequency and/or the heartbeat frequency of the user detected by the human body intelligent monitoring system and the corresponding threshold value, and pets such as cats, dogs and the like or other articles and the like are not in the bed, so that the target object on the intelligent recognition mattress 105 and the automatic recognition of the in-bed and out-of-bed states of the user are realized. For example, the preset pressure threshold is set to be 20KG, and when the detected pressure value is greater than 20KG, and the detected breathing frequency and the detected heartbeat frequency are combined, it is determined that the user is in a bed state, but not pets such as cats and dogs or other articles are in the bed. And, when it is detected that the user is in the bed state, the detection result may be transmitted to the control device 103 so that the control device 103 maintains the power-on state of the mattress 105 accordingly. When the user is not in bed, the control device 103 turns off the power supply of the mattress 105, so that the energy-saving effect can be realized, and meanwhile, the science and technology and humanization of the mattress 105 are improved.

Optionally, the system further comprises a voice device 106 arranged on the mattress, wherein the voice device 106 comprises a voice control unit and a voice chat unit; wherein:

a voice control unit for controlling the mattress 105 and the human intelligent monitoring system by user voice;

and the voice chat unit is used for executing the voice chat function with the user when the user is in the bed state.

Illustratively, the voice of the user may be collected and stored in advance as a standard voice, when the user is in a room, the start of the functional mode of the mattress 105 may be controlled by voice based on a voice matching technology, and the working state of the human body intelligent monitoring system may also be controlled by voice, for example, the human body intelligent monitoring system is controlled to be powered off or powered on, the collection device 102 is controlled to be in normal or abnormal communication, and the like. In addition, when the user is in a bed state, for example, the mattress is in a non-motion state at the moment, the voice chat unit can be started to perform voice chat with the user, more humanized voice service is provided for the user, and specifically, stories can be told for the user through voice interaction, music can be played, and the like.

The technical scheme of the embodiment provides a control analysis system based on a mattress, wherein a control device 103 is used for controlling the mattress to start a massage mode, a sleep awakening mode or a sleep promoting mode according to a detection result sent by a detection device 101; the detection device 101 is used for detecting the state of the mattress 105 after the mattress 105 starts the functional mode, and sending an indication signal to the acquisition device 102, so as to realize the differentiated acquisition of the physiological data of the user. The technical scheme of the embodiment solves the problems that the intelligent human body monitoring system and the mattress 105 lack information interaction and the collected physiological data of the user lack accuracy in the prior art, realizes interactive control of the intelligent human body monitoring system and the mattress 105, improves the collection and analysis accuracy of the physiological data of the user, and then accurately monitors the health condition of the user. Moreover, when the mattress 105 is in a motion state, the control device 103 controls the acquisition device 102 to be in a state of abnormal power supply, abnormal data transmission function or abnormal communication function, so as to ensure the accuracy and reliability of acquiring and analyzing the physiological data of the user, especially the sleep data of the user when the mattress 105 is in a non-motion state; in addition, based on detection device 101 can realize that the target object on mattress 105 is discerned to the intelligence, automatic identification user is in bed and the state of leaving the bed to and the different functions of automatic selection mattress 105, guaranteed under mattress 105 different states, the corresponding physiological data of user's state of pertinence collection, avoided the distortion of user's physiological data under different states, moreover, mattress 105 can also control and provide the voice chat service for the user through the pronunciation.

Example two

Fig. 2 is a flowchart of a control and analysis method based on a mattress according to a second embodiment of the present invention, which is applicable to a situation where a detection and analysis are performed on physiological data of a user after the mattress is controlled to enable different functional modes. The method can be realized based on the control analysis system based on the mattress provided by the embodiment of the invention, the construction mode of the modules and the connection among the modules are the same as the embodiment, and the description is omitted in this embodiment.

As shown in fig. 2, the method for analyzing mattress-based control provided by this embodiment may include:

s210, the control device controls the mattress to start a functional mode according to the detection result sent by the detection device, wherein the functional mode comprises a massage mode, a sleep awakening mode and a sleep promoting mode.

Optionally, the detection result at least includes one of the following:

the detection result of the bed time, the morning and evening time, the detection simulation result of the breathing frequency and the heartbeat frequency of the user or the preset morning starting time.

And S220, the detection device detects the state of the mattress after the functional mode of the mattress is started, and sends an indication signal to the acquisition device according to the state of the mattress, wherein the state of the mattress comprises a motion state and a non-motion state.

And S230, the acquisition device acquires the physiological data of the user according to the indication signal so as to analyze the data.

Optionally, the acquiring device acquires the physiological data of the user according to the indication signal, and includes:

and acquiring sleep data of the user according to an indication signal sent when the detection device detects that the mattress is in a non-motion state.

On the basis of the above technical solution, optionally, the method further includes:

when the detection device detects that the mattress is in the motion state, the detection device or the acquisition device is controlled to be in the power-off state.

Optionally, the method further includes: the acquisition device transmits the acquired user physiological data to a background server or a control device through wireless communication so that the background server or the control device can analyze the data;

correspondingly, the method further comprises the following steps: when the detection device detects that the mattress is in a motion state, the control device controls the acquisition device to refuse to send the acquired user physiological data to the background server or the control device.

Optionally, the method further includes: when the detection device detects that the mattress is in a motion state, the control device controls the acquisition device and the background server to be in a communication interruption state, or controls the acquisition device and the control device to be in a communication interruption state.

Optionally, the method further includes: and the display device receives and displays the data analysis result of the control device or the background server through wireless communication, wherein the display device comprises a terminal with a display function.

Optionally, the method further includes: the detection device judges whether a user exists on the mattress according to a preset pressure threshold, a preset breathing frequency threshold and/or a preset heartbeat frequency threshold;

correspondingly, the method further comprises the following steps: when the detection device detects that no user is on the mattress, the control device controls the mattress to be in a power-off state.

Optionally, the method further includes: a voice control unit in the voice control device controls the mattress and the human body intelligent monitoring system through user voice;

optionally, the method further includes: when the user is in the bed state, a voice chat unit in the voice control device performs a voice chat function with the user.

According to the technical scheme of the embodiment, the control device controls the mattress to start the functional mode according to the detection result sent by the detection device, and performs switch control on the detection device or the acquisition device in the specific functional mode; the detection device detects the state of the mattress after the functional mode of the mattress is started and sends an indication signal to the acquisition device; the acquisition device acquires the physiological data of the user according to the indication signal so as to carry out data analysis, and solves the problems that in the prior art, the intelligent human body monitoring system and the mattress lack information interaction and the acquired physiological data of the user lack accuracy, and further the analysis result of the physiological data of the user is inaccurate, so that the interactive control of the intelligent human body monitoring system and the mattress is realized, the acquisition and analysis accuracy of the physiological data of the user is improved, and the health condition of the user is accurately monitored.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (5)

1. A mattress-based control analysis system, comprising:

the controlling means of setting on the mattress, and integrated detection device and the collection system in human intelligent monitoring system, wherein:

the control device is used for controlling the mattress to start a functional mode according to a detection result sent by the detection device, wherein the functional mode comprises a massage mode, a sleep awakening mode and a sleep promoting mode;

the detection device is used for detecting the state of the mattress after the functional mode of the mattress is started and sending an indication signal to the acquisition device according to the state of the mattress, wherein the state of the mattress comprises a motion state and a non-motion state;

the control device is also used for controlling the detection device or the acquisition device to be in a power-off state when the detection device detects that the mattress is in the motion state;

the detection device is also used for judging whether a user exists on the mattress according to a preset pressure threshold, a preset breathing frequency threshold and/or a preset heartbeat frequency threshold;

correspondingly, the control device is also used for controlling the mattress to be in a power-off state when the detection device detects that no user exists on the mattress;

the acquisition device is used for acquiring user physiological data according to the indication signal so as to analyze the data;

the system also comprises a voice device, wherein the voice device comprises a voice control unit and a voice chat unit;

the voice device collects and stores voice of a user in advance, and the collected voice of the user is used as standard voice;

the voice control unit is used for controlling the mattress and the human body intelligent monitoring system through user voice;

the voice chat unit is used for executing a voice chat function with the user when the user is in a bed state;

the acquisition device is also used for sending the acquired user physiological data to a background server or the control device through wireless communication so as to facilitate the data analysis of the background server or the control device;

correspondingly, the control device is also used for: when the detection device detects that the mattress is in a motion state, the acquisition device is controlled to refuse to send the acquired user physiological data to the background server or the control device;

the control device is further configured to: when the detection device detects that the mattress is in a motion state, the acquisition device and the background server are controlled to be in a communication interruption state, or the acquisition device and the control device are controlled to be in a communication interruption state.

2. The system of claim 1, wherein the detection result comprises at least one of:

the detection result of the bed time, the morning and evening time, the detection simulation result of the breathing frequency and the heartbeat frequency of the user or the preset morning starting time.

3. The system of claim 1, wherein the collection device is specifically configured to:

and acquiring sleep data of a user according to an indication signal sent by the detection device when the mattress is detected to be in a non-motion state.

4. The system of claim 1, further comprising a display device for receiving and displaying the data analysis result of the control device or the background server through wireless communication, wherein the display device comprises a terminal with a display function.

5. A mattress-based control analysis method implemented on the mattress-based control analysis system of any one of claims 1 to 4, the method comprising:

the control device controls the mattress to start a functional mode according to a detection result sent by the detection device, wherein the functional mode comprises a massage mode, a sleep awakening mode and a sleep promoting mode;

the detection device detects the state of the mattress after the functional mode of the mattress is started, and sends an indication signal to the acquisition device according to the state of the mattress, wherein the state of the mattress comprises a motion state and a non-motion state;

the acquisition device acquires the physiological data of the user according to the indication signal so as to analyze the data.

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