CN107961017A

CN107961017A - The sleep monitor method, apparatus and server of anti-chronic hypoxia

Info

Publication number: CN107961017A
Application number: CN201711463539.0A
Authority: CN
Inventors: 吴家隐; 吴家祺
Original assignee: Foshan Magic Cloud Technology Co Ltd
Current assignee: Foshan Magic Cloud Technology Co Ltd
Priority date: 2017-12-29
Filing date: 2017-12-29
Publication date: 2018-04-27

Abstract

The present invention provides a kind of sleep monitor method of anti-chronic hypoxia, the described method includes：Blood oxygen saturation is obtained, the blood oxygen saturation is monitored by being worn on the wearable device with children under guardianship；Judge whether children under guardianship are in abnormality according to the blood oxygen saturation；If children under guardianship are in abnormality, exception information is sent to terminal, the exception information includes the blood oxygen saturation and children under guardianship identify.The present invention solves the problems, such as to be difficult to meet sleep monitor demand in a manner of solving manually to guard in the prior art in the prior art, there is provided a kind of the sleep monitor method, apparatus and server of the anti-chronic hypoxia for gathering blood oxygen saturation and sending abnormal state information in time.

Description

The sleep monitor method, apparatus and server of anti-chronic hypoxia

Technical field

The present invention relates to monitoring arts, in particular to the sleep monitor method, apparatus and clothes of a kind of anti-chronic hypoxia Business device.

Background technology

In winter, since weather is colder, partly crawl into one's bed inner sleep, be easy to cause chronic hypoxia.Meanwhile indoor often pass Door and window is closed, room air is poor, and especially the winter in cold, this may also cause indoor chronic hypoxia.For respiratory disease, For obstructive sleep apnea syndrome patient, it is easier to produce chronic hypoxia.Chronic hypoxia can cause child development Delay, influences brain development, attends class absent minded, easily drowsiness.In addition, the cardiovascular system that chronic hypoxia can also influence System, triggers the diseases such as hypertension.Chronic hypoxia in order to prevent, parent or nursing staff need the sleep to children under guardianship to supervise Shield.And it can not often be looked after in kindergarten or noon support class lunch break, parent in kindergarten, children.And teacher is also not suitable for frequency during lunch break Numerous disengaging lobby, with interruption-free to children sleeping.In addition, teacher needs to look after several children, it is also difficult to looks after in time every It is personal.

The problem of being difficult to meet sleep monitor demand for the above-mentioned mode manually guarded in the prior art, not yet carry at present Go out effective solution.

The content of the invention

It is contemplated that above-mentioned technical problem is solved at least to a certain extent.

It is existing to solve an embodiment of the present invention provides the sleep monitor method, apparatus and server of a kind of anti-chronic hypoxia There is the problem of mode manually guarded in technology is difficult to meet sleep monitor demand.

One side according to embodiments of the present invention, there is provided a kind of sleep monitor method of anti-chronic hypoxia, the side Method includes：

Blood oxygen saturation is obtained, the blood oxygen saturation is monitored by being worn on the wearable device with children under guardianship；

Judge whether children under guardianship are in abnormality according to the blood oxygen saturation；

If children under guardianship are in abnormality, send exception information includes the blood oxygen saturation to terminal, the exception information Degree and children under guardianship's mark.

It is described to judge whether children under guardianship are in abnormality according to the blood oxygen saturation in a kind of preferable scheme Step further includes：

The blood oxygen saturation collected is compared with blood oxygen saturation threshold value；

If the blood oxygen saturation is less than blood oxygen saturation threshold value, judge that the children under guardianship are in the abnormal shape of anoxic State.

In a kind of preferable scheme, the method further includes：

Obtain children under guardianship current location；

Gather the real-time video of children under guardianship position；

The real-time video of children under guardianship position is sent to terminal.

In a kind of preferable scheme, acquisition children under guardianship current location step further includes：

Position acquisition instruction is sent to be used to make wearable device obtain children under guardianship to wearable device, the position acquisition instruction Current location and return；

Receive the current location of the children under guardianship.

In a kind of preferable scheme, acquisition children under guardianship current location step includes

Monitor default real-time video trigger event；

When default real-time video trigger event occurs, children under guardianship current location is obtained.

In a kind of preferable scheme, the default real-time video trigger event includes receiving the reality transmitted by terminal When video request, real-time video request includes children under guardianship and identifies.

In a kind of preferable scheme, the real-time video trigger event is in abnormality for children under guardianship.

In a kind of preferable scheme, the real-time video step of the collection children under guardianship position includes：

Inquiry visual range includes the picture collection device identification of the children under guardianship position；

The picture collection device identification for including the children under guardianship position to visual range sends video capture instruction, described Video capture instruction is used to make picture collection device shooting real-time video and returns.

Receive the real-time video that picture collection device is returned.

Another aspect according to embodiments of the present invention, there is provided a kind of sleep monitor method of anti-chronic hypoxia, it is described Method includes：

Exception information is received, the blood oxygen saturation that the exception information is monitored by server according to wearable device is judged Children under guardianship are in transmitted after abnormality, and the exception information includes the blood oxygen saturation and children under guardianship identify；

Exception information window is created, the exception information window shows exception information, including blood oxygen saturation, abnormality.

In a kind of preferable scheme, the method further includes：

The exception information window further includes real-time video trigger control, and the real-time video trigger control sends band after being triggered There is the real-time video request that children under guardianship identify to server, the real-time video request includes children under guardianship's mark, for touching Send out the real-time video trigger event of server；

Receive the real-time video of children under guardianship；

Real-time video window is created, the real-time video window is used for the real-time video for showing children under guardianship.

In a kind of preferable scheme, the method further includes：

Receive the real-time video of the children under guardianship transmitted by server；

The exception information window further includes real-time video control, and the real-time video control exposure children under guardianship's regards in real time Frequently.

Other side according to embodiments of the present invention, there is provided a kind of sleep monitor server of anti-chronic hypoxia, institute Stating device includes：

Acquisition module, for obtaining blood oxygen saturation, the blood oxygen saturation wearable is set by be worn on children under guardianship Standby monitoring；

Judgment module, for judging whether children under guardianship are in abnormality according to the blood oxygen saturation；

Sending module, if being in abnormality for children under guardianship, send exception information includes to terminal, the exception information The blood oxygen saturation and children under guardianship's mark.

In a kind of preferable scheme, described device further includes：

Comparison module, for the blood oxygen saturation collected to be compared with threshold value；

Determination module, if being less than threshold value for the blood oxygen saturation, judges that the children under guardianship are in abnormality.

In a kind of preferable scheme, described device further includes：

The acquisition module, is additionally operable to obtain children under guardianship current location；

Acquisition module, for gathering the real-time video of children under guardianship position；

The sending module, is additionally operable to the real-time video of children under guardianship position being sent to terminal.

In specific implementation process, acquisition children under guardianship current location step further includes：

The sending module, is additionally operable to send position acquisition instruction to wearable device, and the position acquisition instruction is used to making can Wearable device obtains the current location of children under guardianship and return；

Receiving module, for receiving the current location of the children under guardianship.

In a kind of preferable scheme, described device further includes：

Monitoring modular, for monitoring default real-time video trigger event；

The acquisition module, is additionally operable to when default real-time video trigger event occurs, and obtains children under guardianship current location.

In a kind of preferable scheme, described device further includes：

Enquiry module, includes the picture collection device identification of the children under guardianship position for inquiring about visual range；

The sending module, the picture collection device identification for being additionally operable to include to visual range the children under guardianship position are sent out Video capture is sent to instruct, the video capture instruction is used to make picture collection device shooting real-time video and returns.

The receiving module, is additionally operable to receive the real-time video that picture collection device is returned.

Compared with prior art, have the advantages of technical solution of the present invention：

1st, by monitoring blood oxygen saturation, it can in time see whether to be in anaerobic condition, notify to supervise at any time in anaerobic condition People is protected, prevents chronic hypoxia；

2nd, by obtaining the real-time video of children under guardianship, guardian need not frequently pass in and out lobby and can be obtained in time from video The reason for knowing parahypnosis, prepares so as to carry out intervention, is conducive to sleep and grows up；

3rd, regarding in real time for children under guardianship can be checked at the first time when noting abnormalities by real-time video window or control Frequently, cumbersome operation is avoided, saves intervention time.

The present invention solves to be difficult to meet sleep monitor in a manner of solving manually to guard in the prior art in the prior art A kind of the problem of demand, there is provided sleep prison for the anti-chronic hypoxia for gathering blood oxygen saturation and sending abnormal state information in time Maintaining method, device and server.

Brief description of the drawings

Fig. 1 is the sleep monitor method flow diagram of the anti-chronic hypoxia of the embodiment of the present invention.

Fig. 2 is that the sleep monitor method of the anti-chronic hypoxia of the embodiment of the present invention judges to be guarded according to the physiological data Whether people is in abnormality flow chart of steps.

Fig. 3 is the sleep monitor method flow diagram of the anti-chronic hypoxia of further embodiment of this invention.

Fig. 4 is that the sleep monitor method of the anti-chronic hypoxia of the embodiment of the present invention obtains children under guardianship current location step stream Cheng Tu.

Fig. 5 is that the sleep monitor method of the anti-chronic hypoxia of the embodiment of the present invention gathers the real-time of children under guardianship position Video flow chart of steps.

Fig. 6 is the sleep monitor method flow exception information flow chart of steps of the anti-chronic hypoxia of the embodiment of the present invention.

Fig. 7 is that the sleep monitor method of the anti-chronic hypoxia of the embodiment of the present invention creates real-time video window step flow Figure.

Fig. 8 is that the sleep monitor method of the anti-chronic hypoxia of the embodiment of the present invention creates real-time video control steps flow chart Figure.

Fig. 9 is the sleep monitor server architecture schematic diagram of the anti-chronic hypoxia of the embodiment of the present invention.

Figure 10 is the sleep monitor terminal structure schematic diagram of the embodiment of the present invention.

Figure 11 is the sleep monitor server architecture schematic diagram of the embodiment of the present invention.

Figure 12 is the sleep monitor system structure diagram of the anti-chronic hypoxia of the embodiment of the present invention.

Figure 13 is the wearable device structure diagram of the embodiment of the present invention.

Figure 14 is the wearable device structure diagram of further embodiment of this invention.

Figure 15 is the wearable device oximeter structure diagram of further embodiment of this invention.

Figure 16 is the picture collection apparatus structure schematic diagram of the embodiment of the present invention.

Figure 17 is the picture collection device master component structure diagram of the embodiment of the present invention.

Wherein：1st, the sleep monitor device of anti-chronic hypoxia；2nd, sleep monitor terminal；3rd, sleep monitor server；4th, may be used Wearable device；5th, picture collection device；101st, acquisition module；102nd, judgment module；103rd, sending module；104th, comparison module； 105th, determination module；106th, acquisition module；107th, receiving module；108th, monitoring modular；109th, enquiry module；201st, mould is received Block；202nd, creation module；203rd, sending module；204th, display module；322nd, central processing unit；326th, power supply；330th, storage is situated between Matter；332nd, memory；341st, operating system；342nd, application program；344th, data；350th, wired or wireless network interface；356、 Keyboard；358th, input/output interface；402nd, first processor；403rd, first memory；404th, the first communication component；405th, position Component；412nd, oximeter；421st, the first LED light；422nd, the second LED light；423rd, photoelectric detection module；501st, master component； 502nd, the second communication component；503rd, camera；504th, electro-motor；505th, digital hall sensor；510th, second processor； 511st, second memory.

Embodiment

Attached drawing is only for illustration, it is impossible to is interpreted as the limitation to this patent.

Technical scheme is described further with reference to the accompanying drawings and examples.

Embodiment 1

As shown in Figure 1, one side according to embodiments of the present invention, there is provided a kind of sleep monitor method of anti-chronic hypoxia, The described method includes：

S110：Blood oxygen saturation is obtained, the blood oxygen saturation is monitored by being worn on the wearable device with children under guardianship；

S120：Judge whether children under guardianship are in abnormality according to the blood oxygen saturation；

S130：If children under guardianship are in abnormality, send exception information includes the blood oxygen to terminal, the exception information Saturation degree and children under guardianship's mark.

Pass through the blood oxygen saturation of children under guardianship, it can be determined that sleep state, and it is sent to terminal.Terminal is by school or family It is long to use, can be with timely processing when finding to be in abnormality.

As shown in Fig. 2, in specific implementation process, it is described to judge whether children under guardianship are according to the blood oxygen saturation Abnormality step further includes：

Specifically, the blood oxygen saturation threshold value is 92%.

For normal person in sleep procedure, blood oxygen saturation is more than 95%, to be abnormal if blood oxygen saturation is less than 92%. In clinic, the blood oxygen saturation for being frequently found some obstructive sleep apnea syndrome infants only has 60%, this belongs to weight Spend anoxic.By monitoring blood oxygen saturation, it can in time see whether to be in anaerobic condition, notify to supervise at any time in anaerobic condition Protect people.

As shown in figure 3, in specific implementation process, the method further includes：

S140：Obtain children under guardianship current location；

S150：Gather the real-time video of children under guardianship position；

S160：The real-time video of children under guardianship position is sent to terminal.

By obtaining the real-time video of children under guardianship, the reason for guardian can know parahypnosis from video in time, Prepare so as to carry out intervention, it is not necessary to frequently pass in and out lobby, be conducive to sleep.

In specific implementation process, acquisition children under guardianship current location step includes

Monitor default real-time video trigger event；

As shown in figure 4, in specific implementation process, acquisition children under guardianship current location step further includes：

S141：Position acquisition instruction is sent to be used to make wearable device obtain quilt to wearable device, the position acquisition instruction The current location of guardian and return；

S142：Receive the current location of the children under guardianship.

The wearable device can pass through the indoor positioning technologies such as WiFi, bluetooth or GPS, base station location, satellite positioning The current location of children under guardianship is obtained Deng outdoor positioning technology.

In specific implementation process, the default real-time video trigger event includes receiving real-time transmitted by terminal Video request, the real-time video request include children under guardianship's mark.

In specific implementation process, the real-time video trigger event is in abnormality for children under guardianship.

As shown in figure 5, in specific implementation process, the real-time video step bag of the collection children under guardianship position Include：

S151：Inquiry visual range includes the picture collection device identification of the children under guardianship position；

S152：The picture collection device identification transmission video capture for including the children under guardianship position to visual range refers to Order, the video capture instruction are used to make picture collection device shooting real-time video and return.

S153：Receive the real-time video that picture collection device is returned.

A kind of as shown in fig. 6, another aspect according to embodiments of the present invention, there is provided sleep monitor of anti-chronic hypoxia Method, the described method includes：

S210：Receive exception information, the blood oxygen saturation that the exception information is monitored by server according to wearable device Judge that children under guardianship are in transmitted after abnormality, the exception information includes the blood oxygen saturation and children under guardianship Mark；

S220：Exception information window is created, the exception information window shows exception information, including blood oxygen saturation, abnormal shape State.

As shown in fig. 7, in specific implementation process, the method further includes：

S221：The exception information window further includes real-time video trigger control, after the real-time video trigger control is triggered Send the real-time video request with children under guardianship's mark includes children under guardianship's mark to server, the real-time video request, Real-time video trigger event for trigger the server；

S222：Receive the real-time video of children under guardianship；

S223：Real-time video window is created, the real-time video window is used for the real-time video for showing children under guardianship.

As shown in figure 8, in specific implementation process, the method further includes：

S230：Receive the real-time video of the children under guardianship transmitted by server；

S231：The exception information window further includes real-time video control, the reality of the real-time video control exposure children under guardianship When video.

It can check that children under guardianship's is real-time at the first time when noting abnormalities by real-time video window or control Video, avoids cumbersome operation, saves intervention time.

The embodiment of the present invention solves to be difficult to satisfaction and sleeps in a manner of solving manually to guard in the prior art in the prior art A kind of the problem of dormancy monitoring demand, there is provided sleep monitor side for gathering blood oxygen saturation and send abnormal state information in time Method.

Embodiment 2

As shown in figure 9, one side according to embodiments of the present invention, there is provided a kind of sleep monitor device 1 of anti-chronic hypoxia, Described device 1 includes：

Acquisition module 101, for obtaining blood oxygen saturation, the blood oxygen saturation is wearable with children under guardianship by being worn on Monitoring of equipment；

Judgment module 102, for judging whether children under guardianship are in abnormality according to the blood oxygen saturation；

Sending module 103, if being in abnormality for children under guardianship, sends exception information to terminal, the exception information Identified including the blood oxygen saturation and children under guardianship.

As shown in figure 9, in specific implementation process, the physiological data includes blood oxygen saturation, and described device 1 is also wrapped Include：

Comparison module 104, the blood oxygen saturation for being additionally operable to be collected compare with blood oxygen saturation threshold value；

Determination module 105, if being additionally operable to the blood oxygen saturation is less than blood oxygen saturation threshold value, judges the children under guardianship Abnormality in anoxic.

Specifically, the blood oxygen saturation threshold value is 92%.

For normal person in sleep procedure, blood oxygen saturation is more than 95%, to be abnormal if blood oxygen saturation is less than 92%. In clinic, the blood oxygen saturation for being frequently found some obstructive sleep apnea syndrome patient only has 60%, this belongs to weight Spend anoxic.By monitoring blood oxygen saturation, it can in time see whether to be in anaerobic condition, notify to supervise at any time in anaerobic condition Protect people.

As shown in figure 9, in specific implementation process, described device 1 further includes：

The acquisition module 101, is additionally operable to obtain children under guardianship current location；

Acquisition module 106, for gathering the real-time video of children under guardianship position；

The sending module 103, is additionally operable to the real-time video of children under guardianship position being sent to terminal.

As shown in figure 9, in specific implementation process, acquisition children under guardianship current location step further includes：

The sending module 103, is additionally operable to send position acquisition instruction to wearable device, the position acquisition instruction is for making Wearable device obtains the current location of children under guardianship and return；

Receiving module 107, for receiving the current location of the children under guardianship.

Monitoring modular 108, for monitoring default real-time video trigger event；

The acquisition module 101, is additionally operable to when default real-time video trigger event occurs, and obtains children under guardianship's present bit Put.

As shown in figure 9, in specific implementation process, the default real-time video trigger event includes receiving terminal institute The real-time video request of transmission, the real-time video request include children under guardianship's mark.

In specific implementation process, described device 1 further includes：

Enquiry module 109, includes the picture collection device identification of the children under guardianship position for inquiring about visual range；

The sending module 103, is additionally operable to the picture collection device mark for including the children under guardianship position to visual range Know and send video capture instruction, the video capture instruction is used to make picture collection device shooting real-time video and returns.

The receiving module 107, is additionally operable to receive the real-time video that picture collection device is returned.

The embodiment of the present invention solves to be difficult to satisfaction and sleeps in a manner of solving manually to guard in the prior art in the prior art The problem of dormancy monitoring demand, there is provided a kind of anti-chronic hypoxia for gathering blood oxygen saturation and sending abnormal state information in time Sleep monitor server.

Embodiment 3

As shown in Figure 10, other side according to embodiments of the present invention, there is provided a kind of sleep monitor terminal 2, the terminal 2 Including：

Receiving module 201, for receiving exception information, what the exception information was monitored by server according to wearable device Blood oxygen saturation judges that children under guardianship are in transmitted after abnormality, and the exception information includes the blood oxygen saturation And children under guardianship's mark；

Creation module 202, for creating exception information window, the exception information window shows that exception information, including blood oxygen are satisfied With degree, abnormality.

In specific implementation process, the exception information window further includes real-time video trigger control, and the terminal 2 is also wrapped Include：

Sending module 203, sends regarding in real time with children under guardianship's mark after being triggered for the real-time video trigger control Server is arrived in frequency request, and the real-time video request includes children under guardianship's mark, and the real-time video for trigger the server triggers Event；

The receiving module 201, is additionally operable to receive the real-time video of children under guardianship；

The creation module 202, is additionally operable to create real-time video window, the real-time video window is used to show children under guardianship's Real-time video.

In specific implementation process, the exception information window further includes real-time video control, and the terminal 2 further includes：

The receiving module 201, is additionally operable to receive the real-time video of the children under guardianship transmitted by server；

Display module 204, is additionally operable to the real-time video of the real-time video control exposure children under guardianship.

The embodiment of the present invention solves to be difficult to satisfaction and sleeps in a manner of solving manually to guard in the prior art in the prior art The problem of dormancy monitoring demand, there is provided a kind of anti-chronic hypoxia for gathering blood oxygen saturation and sending abnormal state information in time Sleep monitor terminal.

Embodiment 4

The one side of another embodiment according to the present invention, as shown in figure 11, additionally provides children sleeping monitoring server 3, institute Stating server 3 includes：

Figure 11 is the structure diagram of server 3 in the embodiment of the present invention.Server 3 can produce ratio because configuration or performance are different Larger difference, can include one or more central processing units（Central processing units, CPU）322 （For example, one or more processors）With memory 332, one or more storage application programs 342 or data 344 Storage medium 330（Such as one or more mass memory units）.Wherein, memory 332 and storage medium 330 can be with It is of short duration storage or persistently storage.One or more program modules can be included by being stored in the program of storage medium 330（Figure Show and do not mark）, each module can be including operating the series of instructions in server 3.Further, central processing unit 322 could be provided as communicating with storage medium 330, and the series of instructions operation in storage medium 330 is performed on server 3. The central processing unit 322 is used to run application program 342, wherein, perform the above method when the application program 342 is run All or part of step.

Server 3 can also include one or more power supplys 326, one or more wired or wireless networks connect Mouthfuls 350, one or more input/output interfaces 358, one or more keyboards 356, and/or, one or one with Upper operating system 341.Operating system 341 can be Linux, Windows, Unix etc..

In a kind of one exemplary embodiment, server 3 is the hardware realization of the sleep monitor device of the anti-chronic hypoxia Form.

Embodiment 5

As shown in figure 12, a kind of another aspect according to embodiments of the present invention, there is provided sleep monitor system of anti-chronic hypoxia System, the system comprises：

Terminal 2 according to embodiment 3；

Server 3 according to embodiment 4；

Wearable device 4, for monitoring the blood oxygen saturation and returning to server 3.

In specific implementation process, the terminal 2, the wearable device 4 are logical with the sleep monitor server 3 respectively Letter connection.

In specific implementation process, the wearable device 4 is additionally operable to monitoring blood oxygen saturation and is sent to the service Device 3.The wearable device 4 can be realized as the wearable product of the intelligence such as Intelligent bracelet, Intelligent foot ring, intelligent watch, smart cap.

As shown in figure 13, specifically, the wearable device includes：Wearable device body and it is arranged at described wearable First processor 402, first memory 403, the first communication component 404 and oximeter 412 on apparatus body；

The first processor 402 is commonly used in the integrated operation of the wearable device 4, and such as data communication and record operate Associated operation.402 operation program of first processor, described program complete above-mentioned function when running.

The first memory 403 is electrically connected with the first processor 402, and the first memory is configured as storing Various types of data are to support the operation in wearable device 4.The example of these data includes being used in wearable device 4 The instruction of any application program or method of operation, user data and picture, Voice ＆ Video etc..First memory 403 can be with Realized by any kind of volatibility or non-volatile memory device or combinations thereof, such as static RAM （SRAM）, electrically erasable programmable read-only memory（EEPROM）, Erasable Programmable Read Only Memory EPROM（EPROM）, may be programmed Read-only storage（PROM）, read-only storage（ROM）, magnetic memory, flash memory.

Specifically, the first processor 402 can be realized by Arduino, and it is Arduino UNO that type, which is in,.

First communication component 404 is configured to facilitate wired or wireless way between wearable device 4 and other equipment Communication.Wearable device 4 can access the wireless network based on communication standard, such as WiFi, 2G or 3G, 4G, 5G, or their group Close.In one exemplary embodiment, the first communication component 404 is received from external broadcasting management system via broadcast channel Broadcast singal or broadcast related information.In one exemplary embodiment, first communication component 404 further includes near-field communication （NFC）Module, to promote junction service.For example, radio frequency identification can be based in NFC module（RFID）Technology, Infrared Data Association （IrDA）Technology, ultra wide band（UWB）Technology, bluetooth（BT）Technology and other technologies are realized.Implement in a kind of exemplary implementation In example, first communication component 404 is realized based on NB-IOT technologies.As shown in figure 14, it is described in specific implementation process First communication component, 404 model Quectel BC95.

Specifically, as shown in figure 15, the oximeter 412 includes setting with skin contact part the first LED light 421, the One LED light 422 and photoelectric detection module 423.First LED light, 421 and first LED light 421 is respectively used to orientation to human body Skin launches light.The photoelectric detection module 423 is used to receive the optical signal that human body skin reflex is returned, then will be received Optical signal is changed into corresponding electric signal.After filtered, amplification and analog-to-digital conversion, oximetry data is transferred to first processor 402。

As shown in figure 12, in specific implementation process, the system also includes：

The wearable device 4, is additionally operable to obtain the current location of children under guardianship and returns to server 3；

And picture collection device 5, for receiving video capture instruction, shooting real-time video is instructed according to the video capture and is returned Return to server 3.

In specific implementation process, the terminal 2, wearable device 4, picture collection device 5 are supervised with the sleep respectively Shield server 3 communicates to connect.

In specific implementation process, the wearable device 4 further includes positioning component 405, and positioning component 405 is used to obtain The current geographic position of wearable device 4.The positioning component 405 can be based on the indoor positioning technologies such as WiFi, bluetooth or The outdoor positioning technology such as GPS, base station location, satellite positioning.

Specifically, as shown in figure 16, the picture collection device 5 be included in master component 501, the second communication component 502, Camera 503, electro-motor 504 and digital hall sensor 505.The master component 501 respectively with the second communication component 502nd, camera 503, electro-motor 504, digital hall sensor 505 are electrically connected.The electro-motor 504 is in the master control group Camera 503 is enabled to adjust camera angle under the driving of part 501, the camera angle includes shooting grease head highness, takes the photograph As head direction and or distance.Be provided with magnet on camera 503, on the picture collection device where camera with camera Digital hall sensor 505 is additionally provided with the corresponding position of upper magnet, the angle of camera is changing when camera rotates, The distance of 503 upper magnet 505 of camera and digital hall sensor 505 also changes therewith, and digital hall sensor 505 at this time Hall value change also with the distance between digital hall sensor 505 and magnet and change, therefore can be according to Hall value To judge the rotation angle of camera and be sent to master component 501.Picture captured by camera 503 is passed to master component 501, And the sleep monitor server is sent to by the second communication component 502.Specifically, as shown in figure 17, the master component 501 are stored with journey including second processor 510 and the second memory 511 being electrically connected with the controller, the second memory 511 Sequence module, described program module realize above-mentioned function when performing.

The mode that the embodiment of the present invention solves the problems, such as manually to guard in the prior art is difficult to meet sleep monitor demand, Provide a kind of sleep monitor system for the anti-chronic hypoxia for gathering blood oxygen saturation and sending abnormal state information in time.

Obviously, the above embodiment of the present invention is only intended to clearly illustrate example of the present invention, and is not pair The restriction of embodiments of the present invention.For those of ordinary skill in the field, may be used also on the basis of the above description To make other variations or changes in different ways.There is no necessity and possibility to exhaust all the enbodiments.It is all this All any modification, equivalent and improvement made within the spirit and principle of invention etc., should be included in the claims in the present invention Protection domain within.

Claims

A kind of 1. sleep monitor method of anti-chronic hypoxia, it is characterised in that the described method includes：

Blood oxygen saturation is obtained, the blood oxygen saturation is monitored by being worn on the wearable device with children under guardianship；

Judge whether children under guardianship are in abnormality according to the blood oxygen saturation；

If children under guardianship are in abnormality, send exception information includes the blood oxygen saturation to terminal, the exception information Degree and children under guardianship's mark.
2. the sleep monitor method of anti-chronic hypoxia according to claim 1, it is characterised in that described according to the blood oxygen Saturation degree judges whether children under guardianship further include in abnormality step：

The blood oxygen saturation collected is compared with blood oxygen saturation threshold value；

If the blood oxygen saturation is less than blood oxygen saturation threshold value, judge that the children under guardianship are in the abnormal shape of anoxic State.
3. the sleep monitor method of anti-chronic hypoxia according to claim 2, it is characterised in that the method further includes：

Obtain children under guardianship current location；

Gather the real-time video of children under guardianship position；

The real-time video of children under guardianship position is sent to terminal.
4. the sleep monitor method of anti-chronic hypoxia according to claim 3, it is characterised in that the acquisition children under guardianship Current location step further includes：

Position acquisition instruction is sent to be used to make wearable device obtain children under guardianship to wearable device, the position acquisition instruction Current location and return；

Receive the current location of the children under guardianship.
5. the sleep monitor method of anti-chronic hypoxia according to claim 4, it is characterised in that the collection children under guardianship The real-time video step of position includes：

Inquiry visual range includes the picture collection device identification of the children under guardianship position；

The picture collection device identification for including the children under guardianship position to visual range sends video capture instruction, described Video capture instruction is used to make picture collection device shooting real-time video and returns；

Receive the real-time video that picture collection device is returned.
6. a kind of sleep monitor device of anti-chronic hypoxia, it is characterised in that described device includes：

Acquisition module, for obtaining physiological data, the physiological data is supervised by being worn on the wearable device with children under guardianship Survey；

Judgment module, for judging whether children under guardianship are in abnormality according to the physiological data；

Sending module, if being in abnormality for children under guardianship, send exception information includes to terminal, the exception information The physiological data and children under guardianship's mark.
7. the sleep monitor device of anti-chronic hypoxia according to claim 6, it is characterised in that described device further includes：

Comparison module, for the blood oxygen saturation collected to be compared with threshold value；

Determination module, if being less than threshold value for the blood oxygen saturation, judges that the children under guardianship are in abnormality.
8. a kind of sleep monitor device of anti-chronic hypoxia, it is characterised in that described device further includes：

The acquisition module, is additionally operable to obtain children under guardianship current location；

Acquisition module, for gathering the real-time video of children under guardianship position；

The sending module, is additionally operable to the real-time video of children under guardianship position being sent to terminal.
9. a kind of storage medium, is stored thereon with computer program, it is characterised in that power is realized when the program is executed by processor Profit requires the step of one of 1 to 5 the method.
10. a kind of sleep monitor server of anti-chronic hypoxia, including processor, storage medium, it is characterised in that the storage The step of media storage has program, which is used to realize one of claim 1 to 5 the method when operation program performs.