CN206560432U - It is established in the Sleep Apnea monitoring analysis system of Internet of Things - Google Patents

Abstract

The utility model is a kind of Sleep Apnea monitoring analysis system for being established in Internet of Things, including arrangement for detecting and cloud server, and arrangement for detecting includes device, movable detecting unit and transmission unit.Device is used for the blood oxygen concentration data for detecting testee, movable detecting unit is used for the activity data for detecting testee, transmission unit is connected with device and movable detecting unit, for transmitting blood oxygen concentration data and activity data to cloud server, blood oxygen concentration data and activity data are received by cloud server again, and analyze testee it is movable when blood oxygen concentration data, obtain Sleep Apnea index, and according to Sleep Apnea pointer, produce a form.

Description

It is established in the Sleep Apnea monitoring analysis system of Internet of Things

Technical field

The utility model is related to a kind of Sleep Apnea monitoring analysis system for being established in Internet of Things, and it includes to use and worn The blood oxygen concentration data and activity data of formula arrangement for detecting detecting testee are worn, and assist analysis tested using cloud server Person it is inactive when blood oxygen concentration data, obtain Sleep Apnea pointer, and produce form and slept testee is presented The order of severity that dormancy stops.

Background technology

Sleep Apnea disease (sleep apnea), is a clinical medical professional term originally, by decades Research and development, is gradually understood and is applied by more people at present.Sleep Apnea disease can be along with multiple during making sleep Interval hypoxia (intermittent hypoxia), but party is still unaware, perhaps can feel it is not sleep well but not with For meaning.Although it is demonstrated experimentally that intermittent anoxic will not cause severe or death immediately, for a long time getting off that high blood can be formed Pressure.According to sanitarian data, including the problems such as the insomnia of the mankind, hypertension, nerve degeneration, it is considered at present with sleep Apnea disease is relevant.The reason for Sleep Apnea disease, is quite a lot of, wherein fat and respiratory tract obst ruction is all significant risk The factor.

However, the inspection of Sleep Apnea disease is very cumbersome and expensive at present, it is necessary to after the wait of some months, enter The sleep inspection chamber for entering specialty carries out complete sleep inspection, and what is checked every time is incured a considerable or great expense, and the paster of many instruments is sticked To user's body, a variety of physiological data of detection user finally passes through various physiological datas by medical practitioner, artificial to judge to use The Sleep Apnea disease order of severity at family.The real people's ratio for having an opportunity to carry out this inspection is considerably less, from these a small number of Case is difficult to estimate out accurate prevalence rate, it is also difficult to other changes because carrying out accurate correlation analysis, follow-up treatment and prevention It is all hard to carry on.Therefore, time-consuming and cumbersome traditional medical sleep detection is solved, cost and stand-by period are reduced, as full generation Boundary's treatment and a big problem of screening Sleep Apnea disease.

The content of the invention

The purpose of this utility model is to provide a kind of Sleep Apnea monitoring analysis system for being established in Internet of Things, so as to The problem of prior art is present is solved, that is, needs that to the diagnosis that hospital carries out a sleep-disorder the whole night dependency number can be learnt According to it not only causes inconvenience during sufferer progress diagnosis and treatment, while also needing to spend quite high diagnosis and treatment cost.

A kind of Sleep Apnea monitoring analysis system for being established in Internet of Things that the utility model is provided includes a detecting Device and a cloud server.Arrangement for detecting is connected with testee, and it includes a device, a movable detecting unit And a transmission unit.

Above-mentioned device is used for the blood oxygen concentration data for detecting the testee；Above-mentioned movable detecting unit is used to detect Survey the activity data of the testee；Above-mentioned transmission unit is connected with device and movable detecting unit, for transmitting Blood oxygen concentration data and activity data.

Above-mentioned cloud server is used to receive blood oxygen concentration data and activity data, blood oxygen when analysis testee is inactive Concentration data, obtains Sleep Apnea index, and according to the Sleep Apnea pointer, produces form.

It is preferred that above-mentioned arrangement for detecting can include a heartbeat detecting unit, for detect the heartbeat data of testee there is provided Doctor is used as the auxiliary diagnosis for Sleep Apnea.

The utility model is described in detail below in conjunction with the accompanying drawings.

Brief description of the drawings

Fig. 1 is the system architecture schematic diagram of the utility model preferred embodiment.

Fig. 2 is the method flow schematic diagram of the analysis Apnea of the utility model preferred embodiment.

Description of reference numerals：10- devices；20- activity detecting units；30- transmission units；40- mobile terminals； 50- cloud servers；100- arrangement for detecting.

Embodiment

Fig. 1 shows of the present utility model for a kind of Sleep Apnea monitoring analysis system frame for being established in Internet of Things Structure, it includes an arrangement for detecting 100, a mobile terminal 40 and a cloud server 50, and wherein arrangement for detecting 100 is worn for one Formula device is worn, is connected with the testee, is worn in the finger tip of any finger of the testee, in the present embodiment, the detecting Device 100 includes the movable transmission unit 30 of detecting unit 20 and one of a device 10, one, the device 10, Blood oxygen concentration data to detect the testee, activity data of the movable detecting unit 20 to detect the testee, Yu Ben In utility model, movable detecting unit 20 is an accelerometer, but the utility model is not limited.Transmission unit 30 and blood oxygen Detecting unit 10 is connected with movable detecting unit 20, to transmit blood oxygen concentration data and activity by wired or wireless way Data are to cloud server 50；Cloud server 50 receives blood oxygen concentration data and activity data, and analyzes the non-of testee Blood oxygen concentration data when movable, obtain a Sleep Apnea index, cloud server 50 according to the Sleep Apnea pointer, A form is produced, wherein, Sleep Apnea index is that blood oxygen declines index or Apnea index.

In the above, the blood oxygen concentration data are transferred to mobile whole by transmission unit 30 in a wired or wireless manner End 40, preferably can be used the wireless transmission methods such as infrared ray, bluetooth, ZigBee, ANT, and will be non-by mobile terminal 40 Blood oxygen concentration data are transferred to cloud server 50 and analyzed in a wired or wireless manner when movable, and cloud server 50 The form produced after analysis can be sent to Internet of things device, such as intelligent mobile phone, PDA, lithographic computer or computer, It is shared with kith and kin or allows doctor to carry out further diagnosis research.And the mobile terminal 40, it is for an intelligence in the present embodiment Type mobile phone, it also can pass through wired or wireless data for computer, lithographic computer, PDA or radio base station etc. are various The mode of transmission receives blood oxygen concentration data and the activity data that wireless transmission unit 30 is transmitted, and passes through mobile terminal 40 Blood oxygen concentration data and activity data are transferred to the cloud server 50.

The utility model construction feature, institute's application technology method and expected effect reached are further appreciated that to provide, hereby The utility model occupation mode is described below in detail：

The method flow of the analysis Apnea of the utility model shown in Figure 2, arrangement for detecting 100 is a Wearable Device, it is worn in the finger tip of any finger of the testee, the blood oxygen to detect testee using device 10 Concentration data, the frequency that blood oxygen concentration data will be 1 point per second is collected, and by movable detecting unit 20, such as acceleration Count to detect the activity data of testee, then blood oxygen concentration data and active data transmission to cloud server 50 are divided Analysis.Cloud server 50 first determines whether whether blood oxygen concentration data drop to a certain degree, such as 4 percentage points, but this practicality It is new to be not limited.When judging that blood oxygen concentration data drop to 4 percentage points, that is, determine whether whether the same time has Activity data, if without activity data, being judged as a blood oxygen falling event, one evening of persistent collection data it Afterwards, number of times can be declined according to total blood oxygen and lying bed Time Calculation goes out a blood oxygen and declines index (oxygen desaturation Index, ODI), blood oxygen declines index=total blood oxygen and declines number of times/lying bed time.If but blood oxygen concentration data drop to 4 hundred There is activity data the same time of branch, then will back calculate certain time according to the time for detecting the decline of blood oxygen concentration data It is interior, such as 5 seconds, but the utility model is not limited, if activity data is more than acquiescence threshold value (i.e. threshold value) in 5 seconds, Judge that body is active, exclude this blood oxygen concentration data, acquiescence threshold value can be according to used movable detecting unit 20 are set, and so that the utility model uses accelerometer as an example, may be set to 5, but the utility model is not limited.And work as When activity data is less than acquiescence threshold value in 5 seconds, then this is judged for respiration break event, in one evening of persistent collection After data, an Apnea index (apnea-hypopnea can be gone out according to total Apnea number of times and lying bed Time Calculation Index, AHI), Apnea index=total Apnea number of times/lying bed time.Cloud server 50 declines index according to blood oxygen And Apnea index, form is produced, the order of severity of Sleep Apnea is specifically presented in form, according to determining for international educational circles Under justice, Apnea index (blood oxygen decline index) represents the number of times of each hour anoxic, and the definition of anoxic is blood oxygen concentration 4 percentage points of drop.Apnea index (blood oxygen decline index) is less than 5 and represented normally, is represented slightly between 5 to 15,15 arrive Moderate is represented between 30, is severe Apnea more than 30, in the utility model, above-mentioned blood oxygen declines index and Apnea Index can all be used as Sleep Apnea index.The form further can be sent to doctor or kith and kin by cloud server 50 Internet of things device, such as intelligent mobile phone, PDA, lithographic computer or computer, can be shared with kith and kin or allow doctor to enter traveling The diagnosis research of one step.

In addition, in a preferred embodiment, arrangement for detecting 100 provided by the utility model can also be detectd comprising a heartbeat Unit (not shown) is surveyed, its heartbeat data to detect testee, heart beat detection unit is detectd by the finger fingertip of testee Pulse is surveyed to obtain heartbeat data, the transmission means of heartbeat data is identical with above-mentioned data transfer mode, and not in this to go forth. Resulting heartbeat data can provide doctor as the auxiliary diagnosis for Sleep Apnea.

Described above is only a preferable possible embodiments of the present utility model, therefore all application the utility model specifications and power Equivalent structure change carried out by profit requirement, ought to fall within protection domain of the present utility model.

Claims (10)

1. a kind of Sleep Apnea monitoring analysis system for being established in Internet of Things, it is adaptable to monitor testee, it includes：

One arrangement for detecting, is connected with testee, comprising:

One device, the blood oxygen concentration data for detecting testee；

One movable detecting unit, the activity data for detecting testee；And

One transmission unit, is connected with device and movable detecting unit, for transmitting blood oxygen concentration data and activity Data；And

One cloud server, for receiving blood oxygen concentration data and activity data, blood oxygen concentration number when analysis testee is inactive According to, obtain Sleep Apnea index, and according to Sleep Apnea pointer, produce form, and by the form send to One Internet of things device.

2. monitoring analysis system as claimed in claim 1, it is characterised in that Sleep Apnea index is that blood oxygen declines index Or Apnea index.

3. monitoring analysis system as claimed in claim 1, it is characterised in that movable detecting unit is an accelerometer.

4. monitoring analysis system as claimed in claim 1, it is characterised in that transmission unit is by blood oxygen concentration data and movable number Wired or wireless way is transferred to a mobile terminal according to this, and by the mobile terminal by the blood oxygen concentration data and the activity Data are transferred to cloud server in a wired or wireless manner.

5. monitoring analysis system as claimed in claim 4, it is characterised in that the mobile terminal is computer, lithographic plate calculating Machine, PDA, intelligent mobile phone or router.

6. monitoring analysis system as claimed in claim 1, it is characterised in that the arrangement for detecting wears appointing in the testee The finger tip of one finger.

7. monitoring analysis system as claimed in claim 1, it is characterised in that the cloud server is in a wired or wireless fashion The form is transmitted to Internet of things device.

8. monitoring analysis system as claimed in claim 1, it is characterised in that the Internet of things device be intelligent mobile phone, PDA, lithographic computer or computer.

9. monitoring analysis system as claimed in claim 1, it is characterised in that the arrangement for detecting also includes a heart beat detection list Member, the heartbeat data for detecting the testee.

10. monitoring analysis system as claimed in claim 1, it is characterised in that the transmission unit is by heartbeat data with wired Or be wirelessly transferred to a mobile terminal, and by the mobile terminal by the heartbeat data in a wired or wireless manner It is transferred to cloud server.