CN114615161A - Sleep monitoring method and monitoring device thereof - Google Patents
Sleep monitoring method and monitoring device thereof Download PDFInfo
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- H—ELECTRICITY
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- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L43/00—Arrangements for monitoring or testing data switching networks
- H04L43/04—Processing captured monitoring data, e.g. for logfile generation
- H04L43/045—Processing captured monitoring data, e.g. for logfile generation for graphical visualisation of monitoring data
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/02—Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
- A61B5/024—Detecting, measuring or recording pulse rate or heart rate
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- A61B5/103—Detecting, measuring or recording devices for testing the shape, pattern, colour, size or movement of the body or parts thereof, for diagnostic purposes
- A61B5/11—Measuring movement of the entire body or parts thereof, e.g. head or hand tremor, mobility of a limb
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- A—HUMAN NECESSITIES
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- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
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- A61B5/103—Detecting, measuring or recording devices for testing the shape, pattern, colour, size or movement of the body or parts thereof, for diagnostic purposes
- A61B5/11—Measuring movement of the entire body or parts thereof, e.g. head or hand tremor, mobility of a limb
- A61B5/113—Measuring movement of the entire body or parts thereof, e.g. head or hand tremor, mobility of a limb occurring during breathing
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L43/00—Arrangements for monitoring or testing data switching networks
- H04L43/06—Generation of reports
- H04L43/062—Generation of reports related to network traffic
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Abstract
The invention relates to a sleep monitoring method, which comprises the steps of obtaining vital sign data of a user I; processing the vital sign data to obtain visual data for reference; sending the processed visual data to a system background through a network; the system background induces and sorts the visual data to form a state report of the user I during sleep, and the state report is sent to a terminal APP of the user II; the user II determines whether to take measures to intervene in the sleep state of the user I or not according to the state report; the system background sorts and analyzes the collected visual data, and vital sign parameters of the user I in a normal sleep state are obtained through multiple collection and are used as a basis for judging the normal state; when the acquired vital sign data of the user I is different from the archived data, the system background sends a first alarm to the user II, and the user II judges whether to intervene in the sleep of the user I or not; when user II decides to intervene in the sleep of user I, user II issues a second alert to user I.
Description
Technical Field
The invention relates to a human body state monitoring method.
Background
The medical resources of China are in short supply, and the burden of medical care personnel and family members can be reduced by developing an intelligent call monitoring network of a hospital or a family, so that the working efficiency and the service quality are improved. Especially, for infants and the elderly who have continuously increased proportion and can not take care of themselves in modern society, how to effectively and timely monitor the physical conditions of the infants and the elderly is an increasingly prominent problem.
The heart rate breathing equipment devices on the market do not achieve the effect that family members and caregivers can timely acquire state information of the cared person, and a monitoring belt is required to be placed on a bed of the cared person at present, and particularly needs to be placed at a position close to the heart of the cared person. The person to be looked after is said to try on pressing this kind of monitoring area under the area, monitors the sleep state of the person to be looked after through the sensor, when looking after the person to be looked after and looking over the condition of the person to be looked after, obtains the sleep state data of the person to be looked after through the cell-phone bluetooth connection monitoring area, judges the sleep state through the sleep state data, is convenient for take proper measure and intervenes next sleep. Such a monitoring scheme can only be generally used for research and analysis after sleeping, but for example, a large part of old people are prone to sleep problems such as sleep apnea syndrome and the like, and must intervene in time when similar sleep problems occur, but the existing sleep monitoring scheme does not have the function of intervening in sleeping.
The living habits of the old are different from those of the young, the old hopes to sleep in a familiar environment, the monitoring belt is more obtrusive compared with common bedding for the old, and investigation shows that most of old users can lay common bedding on the monitoring belt so as to avoid dirtying the monitoring belt or reduce discomfort brought by the monitoring belt, so that the monitoring data of the monitoring belt is not accurate and can be used for reference reduction, and in turn, the users lose trust, so that the use rate of the monitoring belt is adversely affected.
Disclosure of Invention
In order to solve the technical problems, a sleep monitoring method is provided, and the technical scheme is as follows:
acquiring vital sign data of a user I;
processing the vital sign data to obtain visual data for reference;
sending the processed visual data to a system background through a network;
inducing and sorting the collected visual data by a system background to form a state report of the user I during sleeping, and sending the state report to a terminal APP of the user II;
the user II determines whether measures are taken to intervene in the sleep state of the user I according to the state report received by the terminal APP;
the system background sorts and analyzes the collected visual data, acquires vital sign parameters of the user I in a normal sleep state after multiple collection, and stores the vital sign parameters as a basis for judging the normal state; when the acquired vital sign data of the user I is different from the archived data, the system background sends a first alarm to the user II, and the user II judges whether to intervene in the sleep of the user I or not; and when the user II decides to intervene in the sleep of the user I, the user II sends a second alarm to the user I through the terminal APP.
On the basis of the technical scheme, equipment capable of influencing the sleep state of the user I is arranged at the periphery of the user I, a terminal of a user II is connected with the equipment capable of influencing the sleep state of the user I through a network, and when the user II judges that the sleep of the user I needs to be interfered, the equipment is remotely controlled by the terminal to influence the sleep state of the user I;
such devices include, but are not limited to, ventilators.
On the basis of the technical scheme, the equipment also comprises equipment capable of adjusting the environmental comfort level of the user I.
On the basis of the technical scheme, the equipment is intelligent internet household equipment.
Sleep monitor device, its characterized in that, including:
the monitoring module is used for acquiring vital sign data of the user I, performing primary processing on the vital sign data and forming visual data for reference after the primary processing;
the system background is used for receiving the visual data acquired by the monitoring module, carrying out induction and arrangement on the acquired visual data to obtain a state report of the user I in the sleep state, and finally sending the report;
the terminal is held by a user II, and an APP on the terminal is used for receiving a state report sent by a system background;
the monitoring module at least comprises a sensor unit, a circuit control unit, a data processing unit, a first data transceiving unit and a sleep intervention unit;
the system background at least comprises a second data receiving and transmitting unit and a central working unit;
the sensor unit acquires heart rate data, breathing data, bed-leaving or bed-turning or body-turning and frequency data of the user I during sleeping, the data processing unit performs primary processing on the data to form visual data, the visual data is sent to the second data transceiver unit through the first data transceiver unit, and the central working unit performs sorting analysis and archiving on the visual data received by the second data transceiver unit to obtain a state report of the user I; when the visual data received by the central working unit and the previously filed data come in and go out, an instruction can be sent to the circuit control unit through the second data transceiving unit, and the circuit control unit starts the sleep intervention unit to intervene the sleep of the user I;
on this state report still sent the APP at user II terminal through second data transceiver unit, user II also can judge whether to connect first data transceiver unit through APP according to the state report, APP sends the instruction to circuit control unit through first data transceiver unit, starts sleep intervention unit by circuit control unit and intervenes user I's sleep.
On the basis of the technical scheme, the first data receiving and transmitting unit at least comprises a WIFI module, a 4G network module and a Bluetooth module.
On the basis of the technical scheme, the sleep intervention unit at least comprises a breathing machine.
On the basis of the technical scheme, the sleep intervention unit further comprises a device for adjusting the environmental comfort level of the user I.
On the basis of the technical scheme, the equipment for adjusting the environmental comfort level of the user I is an intelligent Internet home.
On the basis of the technical scheme, the monitoring module further comprises a substrate layer, a protective layer and a fabric assembly, the sensor unit, the circuit control unit, the data processing unit and the first data receiving and transmitting unit are all arranged in the substrate layer, the protective layer wraps the substrate layer, a through hole is formed in the edge of the protective layer, and the through hole extends along the length direction of the protective layer;
the fabric component is made of fabric, the fabric is provided with thread holes, and the through holes in the protective layer are fixed together with the thread holes through sewing threads.
Has the advantages that: the invention provides a sleep monitoring method, which well solves the problem that the sleep state of a monitored person cannot be acquired by family members and carers in the existing method, simultaneously provides a means for intervening the sleep state of the monitored person for the monitored person, can control the on and off of traditional medical equipment such as a respirator and the like by controlling an intelligent socket, can also directly arrange intelligent internet equipment to influence or intervene the sleep, fully utilizes the existing resources, increases the acceptance of users and increases the reliability in operation. Still fuse monitoring device and bedding simultaneously, increase the convenience, further increase the user acceptance again, make the user can use for a long time.
Drawings
Fig. 1 is a schematic diagram of a sleep monitor device according to the present invention.
Fig. 2 is a schematic diagram of the sleep intervention unit of the monitoring module according to the present invention.
Fig. 3 is a schematic diagram of a detailed structure of each component of fig. 1 of the present invention.
Fig. 4 is a schematic diagram of a specific structure of a first data transceiver unit according to the present invention.
Fig. 5 is a schematic perspective view of the structure of the protective layer and the fabric assembly of the monitoring module of the present invention combined with each other.
Fig. 6 is a schematic perspective view of a structure of a modification of fig. 5 of the present invention.
Detailed Description
The embodiment aims to provide a sleep monitoring method, which well solves the problem that the sleep state of a monitored person cannot be acquired by family and caregivers in time in the existing method.
The embodiment breaks through the barrier between the monitored person and the monitor, and the state of the monitored person is presented to the monitor.
As shown in fig. 1 to 4, one end of a user I (i.e. a monitored person) uses a monitoring module to acquire original vital sign data, and the original vital sign data is acquired by a sensor unit 4. it is well known that the heart rate and the breathing state of a person during sleep are different from those during waking, so that the sleep state of the user I can be determined by acquiring the heart rate data and the breathing data by the sensor unit 4. The sensor unit 4 can adopt any known and feasible scheme, and can adopt a single sensor, such as a piezoelectric film, which collects a weak signal generated by the user I during sleeping, and performs signal simulation, signal amplification and signal filtering processing on the weak signal through the data processing unit to form intuitive data capable of being directly analyzed; the sensor can be combined by a plurality of sensors with different purposes, such as a temperature sensor, a humidity sensor and a piezoelectric film, according to the needs.
The original vital sign data generally shows vibration information, the processing of the vital sign data refers to data formed by extracting and amplifying the vibration information, the amplified data graph is very similar to a data graph displayed by a medical electrocardiogram monitor, for example, data such as the number of breaths per minute of respiratory frequency and the number of heartbeats per minute of heartbeat frequency can be visually judged, and theoretically, the sleep condition of the user I can be directly judged through the intuitive data. However, since the user II cannot directly observe the state of the user I, and may not provide a relatively accurate state of the user I only by means of the respiration data and the heartbeat data, other data still needs to be collected, for example, in (I) bed/bed exit monitoring (including frequency of bed exit and bed exit), body movement state monitoring; and secondly, recording data such as whether the patient turns over and the frequency of turning over.
The multiple visual data are sent to a system background second data receiving and sending unit by the first data receiving and sending unit, and the first data receiving and sending unit and the second data receiving and sending unit are connected through a network and have the performance of receiving data and sending data. The server is arranged on the system background and can sort and analyze the visual data acquired by the second data transceiver unit, the visual data displayed in a graphic form is converted into a status report of characters or a status report of combination of the characters and the graphics, for example, the acquired heartbeat graphic data is analyzed, the interval time of any two breaths is found to be 4.4 seconds and belongs to the normal breathing frequency, if the interval time is 3 seconds, the user I can enter a dream or generate breathing hassle due to other reasons, and the condition that the user needs to further judge the monitored person is provided.
It should be noted that the system background can also collect big data information of the user, the sleep state data (both intuitive data and status reports) of different users are filed on behalf of the user, the normal sleep data of the user is used as a judgment standard, the recently collected sleep data of the user is compared, if the collected sleep data is more different than the normal sleep data of the user, the system background can automatically judge that the sleep state of the user I has problems and needs intervention, the user I is prompted to return to the normal sleep state, the situation is recorded in the big data with the user on the background, and the big data is used as a special situation of the user to be analyzed and filed, so that the user II can refer to the big data. Or the system background can also send a message to the user II, and the user II judges whether the user I needs to intervene or not through the APP on the operation terminal.
The intervention is made by a sleep intervention unit, and the specific measures of the intervention can wake up the user I in the mode of the most original buzzer alarm or in the mode of vibration and the like.
In this embodiment, the monitoring and intervening sleep object is mainly for middle-aged and elderly users, and different intervening means can be customized for different sleep problems of the middle-aged and elderly users, for example, there are many middle-aged and elderly users, especially obese middle-aged and elderly users, who suffer from sleep problems such as sleep apnea syndrome, the corresponding intervening means can be performed through a breathing machine, the breathing machine can be set to be powered on to start air supply, and then whether the power is on or not is controlled by APP on a system background and a terminal, when the sleep apnea occurs to the user I, the displayed intuitive data have apnea of breathing and heartbeat data, the system background starts sleep intervention after comparing with the normal sleep data of the user, that is, the breathing machine is controlled to be powered on to supply air, the user I is helped to obtain oxygen, and the sleep quality is improved. The intervention means is except a respirator, other means capable of visualizing the sleep state can be adopted, for example, when the environment of the user I is not comfortable enough, the turnover frequency is possibly increased obviously, sweating, trembling and respiratory tract discomfort caused by nasal cavity drying \ moisture can cause the respiratory frequency change, and the like, modes such as a dryer (dehumidifier), a humidifier, an air conditioner, a fan, indoor electric heating equipment and the like can be used as means for intervening the sleep, and due to the technical progress, the intelligent home is gradually popularized, so that the sleep intervening of a system background or APP control remote control equipment is more convenient.
The first data receiving and sending unit and the second data receiving and sending unit have the same functions and are used for receiving and sending data, the first data receiving and sending unit needs to be communicated with the second data receiving and sending unit of a system background, the corresponding first data receiving and sending unit at least needs to be provided with wifi equipment connected with wifi, meanwhile, in consideration of the fact that wifi signals are prone to instability and the like, 4G network communication equipment also needs to be provided, and finally, in consideration of the requirements of overhauling or firmware upgrading, a Bluetooth module can be further installed and is connected with a mobile phone through Bluetooth to be upgraded. And the data transmission capability similar to 'mobile phone touch and transmit' based on near field communication can be arranged according to market requirements.
The embodiment provides a sleep monitoring method, which comprises the following implementation steps;
step one, acquiring vital sign data of a user I;
step two, processing the vital sign data to obtain visual data for reference;
step three, sending the processed visual data to a system background through a network;
step four, the system background induces and collates the collected visual data to form a state report of the user I during sleeping, and the state report is sent to a terminal APP of the user II; wherein, the method also comprises a step of four zero one or a step of four zero two;
fourthly, the system background sorts and analyzes the visual data collected for a long time to obtain vital sign parameters of the user I in the normal sleep state for archiving, and the archiving is used as a judgment basis;
when the vital sign parameters of the user I are acquired in real time and compared with the archived data, if the vital sign parameters are different, the system background judges that the user I has a problem in sleeping, and can directly send a first alarm to the user II;
fourthly, the system background sorts and analyzes the visual data collected for a long time to obtain vital sign parameters of the user I in the normal sleep state for archiving, and the archiving is used as a judgment basis;
when the vital sign parameters of the user I are acquired in real time and compared with the archived data, if the vital sign parameters are different from the archived data, the system background directly sends a second alarm to the user I and simultaneously sends a first alarm to the user II;
step five, determining whether measures are taken to intervene in the sleep state of the user I by the user II according to the state report received by the terminal APP;
if the sleep state needs to be intervened, a second alarm can be sent to the user I through the terminal APP remote control arrangement; wherein, the method also comprises a step of one from fifty to zero or a step of two from fifty to zero or a step of three from fifty to zero;
fifthly, when the APP of the user II receives a first alarm sent by a system background, the user II does not need to judge and can send a second alarm to the user I through the terminal APP at the first time;
fifthly, setting a condition for sending a first alarm to a system background through a terminal APP by a user II according to a state report received by the terminal APP;
the above implementation steps are the working principle of this embodiment, and this embodiment combines with a reasonable implementation framework according to this working principle to obtain the sleep monitoring method described in this embodiment. In the implementation step, step four and step five both have a plurality of substeps, wherein step four utilizes the computing power of the system background, has provided the data processing and the visual function of the data after processing, and step four zero one and step four zero two are on the basis of step four, arrange the sleep data received continuously into the sleep big data, summarize the law of sleeping, offer the reference for users; and step four, zero and one gives the system background the authority less than step four, zero and two, the user II can select step four, zero and one to realize the intervention, and step four, zero and two can select the step. The difference between the step IV and the step IV is that the former is a necessary condition for realizing sleep intervention, and the latter is a necessary condition for endowing a system background authority, so that a second alarm can be directly sent to the user I by the system background without passing through the user II under an emergency condition, the user I is prompted to wake up from sleep or a buzzing alarm is started, and people around the user I can look after the user I; meanwhile, the user II is also required to send a first alarm to provide the user II with attention to the user I, and the user II can still take intervention measures as a backup response when the user I is unattended, so that various requirements of the user can be used.
And step five, subjectively judging whether to intervene the sleep of the user I according to the state report on the basis that the user II receives the state report in real time, wherein the step five zero one to the step five two are all modes for intervening the automatic sleep of the user I in the system background, and the step five two substeps are all established on the basis that the system background collects the user big data.
In the existing monitoring method, the judgment condition of big data formation is generally not transferred according to the will of a user, namely the user cannot intervene the big data formation and the judgment made by the big data, but the implementation step provides the communication between the big data of the system background and the user, compared with the step five, the step five zero one to the step five zero two are that the user II obtains summary according to the status report after receiving the status report for a long time, and the obtained summary is used for reversely sending a first alarm or automatically processing the data range in which the system background can process, and the data range needs to inform the user II and distribute the authority to process the data range according to the actual situation of the user, so that the sleep monitoring method really realizes the differential treatment according to the different actual situations of the user.
Step five, step one provides an emergency state authorization, namely on the basis of step four and the substeps thereof, the judgment obtained by the background of the system according to the big data is directly used as an emergency alarm, namely, the user II does not need to independently operate to trigger a second alarm, the APP automatically sends the second alarm to the user I, and the first alarm is only used for reminding the user II to pay attention to the user I; the condition that the fifth step is proper is that the elderly who are weak and sick, the elderly who are generally over 80 years old have serious illness before the sleep detection method is used for the first time, or the elderly still have serious illness but have controlled illness, and the like; and fifthly, after the user II receives the first alarm for too many times and checks that intervention is not needed, the condition that the system background sends the first alarm is modified, and the normal sleep parameters of the user I are corrected for the system background, so that the system background is helped to further perfect the normal sleep parameters for the specific user.
Example two.
As shown in fig. 5, the present embodiment further provides a sleep monitoring device, wherein a fabric component 3, such as a carpet or a bed sheet, is combined with a substrate layer and a protective layer 2 including a sensor unit 4, a circuit control unit, a data processing unit, and a first data transceiving unit, so as to solve the problem that an elderly user refuses to use the device to monitor sleep, integrate an electronic element for monitoring sleep into a common carpet or bed sheet, and enable the elderly user to treat the electronic element as a bedding article in daily use, thereby enabling the elderly user to monitor sleep for a long time in an intangible manner. The monitoring module of this embodiment has substrate layer, protective layer 2, fabric assembly 3, sensor unit 4, circuit control unit, data processing unit, first data transceiver unit all set up in the substrate layer, the outer parcel of substrate layer has protective layer 2, the edge of protective layer 2 has been seted up and has been perforated 5, perforated 5 extends along the length direction of protective layer 2; the fabric component 3 is a cloth which can be directly laid on a bed, the cloth is provided with a thread hole 6, a perforation 5 on the protective layer 2 is fixed with the thread hole 6 through a suture 7, the problem that the sleep monitoring device is easy to shift or fall off from the bed can be avoided, and the fabric component also has attractive appearance. Stitches 7 are removable and when fabric assembly 3 needs to be cleaned stitches 7 can be removed to disconnect fabric assembly 3 from protective layer 2. The fabric member 3 may also be a blanket directly, which is laid on a bed to provide better comfort.
As shown in fig. 6, the present embodiment also provides a modification that the fabric member 3 has a plurality of fabric members 3, and by selecting the fabric members 3 of different sizes, the difference in the monitoring range of the monitoring module is realized, for example, by fitting the fabric member 3 having a longer length on one side of the protecting layer 2 and fitting the fabric member 3 having a shorter length on the other side of the protecting layer 2, the range of sleep monitoring when the fabric member 3 is laid on the bed is closer to the head of the bed or the head of the user, and vice versa, can be further.
Claims (10)
1. The sleep monitoring method is characterized in that:
acquiring vital sign data of a user I;
processing the vital sign data to obtain visual data for reference;
sending the processed visual data to a system background through a network;
the system background induces and sorts the collected visual data to form a state report of the user I during sleep, and sends the state report to a terminal APP of the user II;
the user II determines whether measures are taken to intervene in the sleep state of the user I according to the state report received by the terminal APP;
the system background sorts and analyzes the collected visual data, acquires vital sign parameters of the user I in a normal sleep state after multiple collection, and stores the vital sign parameters as a basis for judging the normal state; when the acquired vital sign data of the user I is different from the archived data, the system background sends a first alarm to the user II, and the user II judges whether to intervene in the sleep of the user I or not; and when the user II decides to intervene in the sleep of the user I, the user II sends a second alarm to the user I through the terminal APP.
2. The sleep monitoring method as claimed in claim 1, characterized in that, the periphery of the user I has a device capable of affecting the sleep state thereof, the terminal of the user II is connected with the device affecting the sleep state of the user I through the network, when the user II judges that the intervention on the sleep of the user I is needed, the device is remotely controlled by the terminal to affect the sleep state of the user I;
such devices include, but are not limited to, ventilators.
3. The sleep monitoring method as claimed in claim 1, characterized in that the device influencing the sleep state of the user I further comprises a device capable of adjusting the environmental comfort of the user I.
4. The sleep monitoring method as claimed in claim 1, wherein the device affecting the sleep state of the user I is an intelligent internet home device.
5. A sleep monitoring device for realizing sleep monitoring by using the sleep monitoring method is characterized by comprising the following components:
the monitoring module is used for acquiring vital sign data of the user I, performing primary processing on the vital sign data and forming visual data for reference after the primary processing;
the system background is used for receiving the visual data acquired by the monitoring module, carrying out induction and arrangement on the acquired visual data to obtain a state report of the user I in the sleep state, and finally sending the report;
the terminal is held by a user II, and an APP on the terminal is used for receiving a state report sent by a system background;
the monitoring module at least comprises a sensor unit, a circuit control unit, a data processing unit, a first data transceiving unit and a sleep intervention unit;
the system background at least comprises a second data receiving and transmitting unit and a central working unit;
the sensor unit acquires heart rate data, breathing data, bed-leaving or bed-turning or body-turning and frequency data of the user I during sleeping, the data processing unit performs primary processing on the data to form visual data, the visual data is sent to the second data transceiver unit through the first data transceiver unit, and the central working unit performs sorting analysis and archiving on the visual data received by the second data transceiver unit to obtain a state report of the user I; when the visual data received by the central working unit and the previously filed data go in and out, an instruction can be sent to the circuit control unit through the second data transceiver unit, and the circuit control unit starts the sleep intervention unit to intervene the sleep of the user I;
on this state report still sent the APP at user II terminal through second data transceiver unit, user II also can judge whether to connect first data transceiver unit through APP according to the state report, APP sends the instruction to circuit control unit through first data transceiver unit, starts sleep intervention unit by circuit control unit and intervenes user I's sleep.
6. The sleep monitoring device as claimed in claim 5, wherein the first data transceiver unit at least comprises a WIFI module, a 4G network module and a Bluetooth module.
7. The sleep monitoring device as claimed in claim 5, characterized in that the sleep intervention unit comprises at least a ventilator.
8. The sleep monitoring device as claimed in claim 7, characterized in that the sleep intervention unit further comprises means for adjusting the environmental comfort of the user I.
9. The sleep monitoring device as claimed in claim 8, characterized in that the means for adjusting the environmental comfort of the user I is a smart internet home.
10. The sleep monitor device as claimed in claim 5, wherein the monitor module further comprises a substrate layer, a protective layer, and a fabric assembly, the sensor unit, the circuit control unit, the data processing unit, and the first data transceiver unit are all disposed in the substrate layer, the protective layer is wrapped around the substrate layer, a through hole is formed in the edge of the protective layer, and the through hole extends along the length direction of the protective layer;
the fabric component is made of fabric material, a thread hole is formed in the fabric material, and the through hole in the protective layer is fixed together with the thread hole through a suture.
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