CN109589090A - One kind is for detecting the dormant detection system of user and detection method - Google Patents

Abstract

The present invention relates to one kind for detecting the dormant detection system of user and detection method, including wearable Intelligent monitoring device, and heart rate, blood oxygen and the body for monitoring user move data；Server, the server and wearable Intelligent monitoring device communicate to connect, data are moved for receiving and storing heart rate, blood oxygen and body that wearable Intelligent monitoring device monitors, server includes analysis module, and the analysis module is analyzed for realizing the sleep state of user.The present invention is for detecting the dormant detection system of user and detection method, it acquires heart rate, blood oxygen and body in real time in sleep procedure using wearable Intelligent monitoring device and moves parameter, it acquires real-time data transmission and carries out analytical judgment sleep state to server end, its analytical judgment method is to move in data basis that heart rate and oximetry data is combined to be analyzed based on body, judge the true sleep state of user, accuracy relatively individually moves data according to body and promotes 90% or more.

Description

One kind is for detecting the dormant detection system of user and detection method

Technical field

The present invention relates to medical treatment & health technical fields, and in particular to one kind is for detecting the dormant detection system of user And detection method.

Background technique

Sleep is the needs of life, so people cannot not sleep, and the sleep lacked daily will also be filled, and otherwise can It pays for, is had to like debt also the same.Basic law when ortho is that normal adult is being slept initially Into NREM, from the superficial to the deep, probably after 60~90 minutes, REM is changed into, the REM duration only has 10~15 minutes left sides Then the right side changes into NREM again, be periodically alternately present NREM and REM like this, and a night occurs 4~6 times, is until regaining consciousness Only.

If sleep it is bad be easy to cause Gives-an-eye on daytime to sleep, tired murky, dejected irritability, study idea is low, judgment is not normal, The problems such as reagency is blunt, absent minded seriously may cause immunity degradation, cardiovascular disease, diabetes, endocrine The diseases such as imbalance, melancholia, gastro-intestinal problems, accelerated ageing, sexual deterioration.Therefore, concern sleep health, which is one, to neglect Depending on the problem of.

And in existing sleep health detection equipment, a kind of sleep as disclosed in China Patent Publication No. CN107638165A Detection method and device, comprising: sleep signal is acquired by the sensor of mobile terminal；The sleep signal of acquisition is carried out Pretreatment；According to pretreated sleep signal founding mathematical models, sleep state is exported based on the mathematical model.The device Sleep signal is acquired by the sensor of mobile terminal, without using existing complicated and bulky detection device, Yong Hu It can be detected when family's sleep, and not need to attach complicated signal wire with, but the detection of device foundation is logical It crosses body and moves sleep state in data analysis sleep procedure, the dynamic authenticity influence of error receptor is very big, causes sleep detection quasi- True property is poor.

For this purpose, the present invention, which provides one kind, moves data based on body, analyzed in conjunction with heart rate and oximetry data, judges that wrist-watch is worn The true sleep state of wearer, improve detection accuracy for detecting the dormant detection system of user and detection method.

Summary of the invention

It is an object of the invention to overcome the deficiencies of the prior art and provide and it is a kind of for detecting the dormant inspection of user Examining system and detection method acquire the dynamic ginseng of heart rate, blood oxygen and body using wearable Intelligent monitoring device in real time in sleep procedure Number, acquisition real-time data transmission to server end carry out analytical judgment sleep state, and analytical judgment method is based on the dynamic number of body It combines heart rate and oximetry data to be analyzed on the basis of, judges the true sleep state of user, accuracy is relatively individually according to body Dynamic data promote 90% or more.

The purpose of the present invention is achieved through the following technical solutions:

One kind is used to detect the dormant detection system of user, including

Wearable Intelligent monitoring device, heart rate, blood oxygen and body for monitoring user move data；

Server, the server and wearable Intelligent monitoring device communicate to connect, for receiving and storing wearable intelligence Heart rate, blood oxygen and the body that energy monitoring device monitors move data, and server includes analysis module, and the analysis module is based on following Algorithm realizes the sleep state analysis of user:

It defines body and moves parameter: mov (i), blood oxygen parameter: spo2 (i), hrv parameter: hr (i)；

Body moves transforming function transformation function:

Wherein f_k(k=1,2,3 ... 2n+1) are coefficient function；

Blood oxygen transforming function transformation function:

Wherein N=2n+1；

Heart rate transforming function transformation function:

Wherein N=2n+1；

Defined parameters value: sleep (i)；

Wherein α is weight parameter, and β is impact factor；

Define sleep state S₀For waking state, S₁For hypophypnosis state, S₂For deep sleep；

Define thresh₀₁For awake and hypophypnosis decision threshold, thresh₁₂Determine for hypophypnosis and deep sleep Threshold value；

In sleep (i) > thresh₀₁When, then sleep state is S₀；

In sleep (i) < thresh₁₂When, then sleep state is S₂；

In thresh₁₂≤sleep(i)≤thresh₀₁Sleep state is S₁。

Further, the detection system further includes app client, and the app client is connect with server, for connecing Receive the sleep state result that simultaneously display server is analyzed.

Further, the app client is monitored for the wearable Intelligent monitoring device of query service device storage Heart rate, blood oxygen and body move data.

Further, the app client is installed and used for wearable Intelligent monitoring device, mobile communication equipment or PC.

Further, the wearable Intelligent monitoring device is intellectual monitoring bracelet, intellectual monitoring wrist-watch or intellectual monitoring Ring.

One kind is for detecting the dormant detection method of user, comprising the following steps:

S1. the heart rate for obtaining user, blood oxygen and body are monitored by wearable Intelligent monitoring device and moves data；

S2. data are moved according to heart rate, blood oxygen and the body that monitoring obtains, defines body and moves parameter: mov (i), blood oxygen parameter: Spo2 (i), hrv parameter: hr (i)；

Body moves transforming function transformation function:

Wherein f_k(k=1,2,3 ... 2n+1) are coefficient function；

Blood oxygen transforming function transformation function:

Wherein N=2n+1；

Heart rate transforming function transformation function:

Wherein N=2n+1；

Defined parameters value: sleep (i)；

Wherein α is weight parameter, and β is impact factor；

Define sleep state S₀For waking state, S₁For hypophypnosis state, S₂For deep sleep；

Define thresh₀₁For awake and hypophypnosis decision threshold, thresh₁₂Determine for hypophypnosis and deep sleep Threshold value；

In sleep (i) > thresh₀₁When, then sleep state is S₀；

In sleep (i) < thresh₁₂When, then sleep state is S₂；

In thresh₁₂≤sleep(i)≤thresh₀₁Sleep state is S₁。

Further, the wearable Intelligent monitoring device is intellectual monitoring bracelet, intellectual monitoring wrist-watch or intellectual monitoring Ring.

The beneficial effects of the present invention are: the present invention is for detecting the dormant detection system of user and detection method, it is sharp It acquires heart rate, blood oxygen and body in real time in sleep procedure with wearable Intelligent monitoring device and moves parameter, acquire real-time data transmission Analytical judgment sleep state is carried out to server end, analytical judgment method is to move to combine heart rate and blood in data basis based on body Oxygen data are analyzed, and judge the true sleep state of user, and accuracy relatively individually moves data according to body and promotes 90% or more.

Detailed description of the invention

Fig. 1 is the present invention for detecting the module connection diagram of the dormant detection system of user；

Fig. 2 is that the sleep state body that test example of the present invention detects moves datagram；

Fig. 3 is the sleep state blood oxygen saturation data figure that test example of the present invention detects；

Fig. 4 is the sleep state heart rate data figure that test example of the present invention detects；

Fig. 5 is the sleep state figure that the test example prior art of the present invention moves data analysis based on body；

Fig. 6 is the sleep state figure that test example of the present invention uses the method for the present invention analysis.

Specific embodiment

Technical solution of the present invention is described in further detail with reference to the accompanying drawing, but protection scope of the present invention is not limited to It is as described below.

Embodiment

As shown in Figure 1, a kind of be used to detect the dormant detection system of user, including

Wearable Intelligent monitoring device, heart rate, blood oxygen and body for monitoring user move data；

Server, the server and wearable Intelligent monitoring device communicate to connect, for receiving and storing wearable intelligence Heart rate, blood oxygen and the body that energy monitoring device monitors move data, and server includes analysis module, and the analysis module is based on following Algorithm realizes the sleep state analysis of user:

It defines body and moves parameter: mov (i), blood oxygen parameter: spo2 (i), hrv parameter: hr (i)；

Body moves transforming function transformation function:

Wherein f_k(k=1,2,3 ... 2n+1) are coefficient function；

Blood oxygen transforming function transformation function:

Wherein N=2n+1；

Heart rate transforming function transformation function:

Wherein N=2n+1；

Defined parameters value: sleep (i)；

Wherein α is weight parameter, and β is impact factor；

Define sleep state S₀For waking state, S₁For hypophypnosis state, S₂For deep sleep；

Define thresh₀₁For awake and hypophypnosis decision threshold, thresh₁₂Determine for hypophypnosis and deep sleep Threshold value；

In sleep (i) > thresh₀₁When, then sleep state is S₀；

In sleep (i) < thresh₁₂When, then sleep state is S₂；

In thresh₁₂≤sleep(i)≤thresh₀₁Sleep state is S₁。

Specifically, the detection system further includes app client, and the app client is connect with server, for receiving And the sleep state result that display server is analyzed.

Specifically, the heart that the app client is monitored for the wearable Intelligent monitoring device of query service device storage Rate, blood oxygen and body move data.

Specifically, the app client is installed and used for wearable Intelligent monitoring device, mobile communication equipment or PC.

Specifically, the wearable Intelligent monitoring device is that intellectual monitoring bracelet, intellectual monitoring wrist-watch or intellectual monitoring are guarded against Refer to.

When use:

S1. the heart rate for obtaining user, blood oxygen and body are monitored by wearable Intelligent monitoring device and moves data；

S2. data are moved according to heart rate, blood oxygen and the body that monitoring obtains, defines body and moves parameter: mov (i), blood oxygen parameter: Spo2 (i), hrv parameter: hr (i)；

Body moves transforming function transformation function:

Wherein f_k(k=1,2,3 ... 2n+1) are coefficient function；

Blood oxygen transforming function transformation function:

Wherein N=2n+1；

Heart rate transforming function transformation function:

Wherein N=2n+1；

Defined parameters value: sleep (i)；

Wherein α is weight parameter, and β is impact factor；

Define sleep state S₀For waking state, S₁For hypophypnosis state, S₂For deep sleep；

Define thresh₀₁For awake and hypophypnosis decision threshold, thresh₁₂Determine for hypophypnosis and deep sleep Threshold value；

In sleep (i) > thresh₀₁When, then sleep state is S₀；

In sleep (i) < thresh₁₂When, then sleep state is S₂；

In thresh₁₂≤sleep(i)≤thresh₀₁Sleep state is S₁。

Test example

It allows laboratory technician to be worn by wearable Intelligent monitoring device to sleep, be adopted using the monitoring of wearable Intelligent monitoring device Collect blood oxygen saturation data, heart rate data and body of the laboratory technician in sleep procedure and moves data, data monitoring collection result such as Fig. 2 Shown in~4, it is then utilized respectively the analysis method (working principle are as follows: data are moved according to body that the prior art moves data based on body Amplitude and duration judge sleep state, and body moves that data amplitude is small and duration a length of deep sleep, take second place shallowly to sleep, then Secondary is awake), data are moved according to collected body, the sleep state of laboratory technician is analyzed, analyzes result as shown in figure 5, reality -- awake -- deep sleep that the person of testing is in sleep procedure are as follows: deep sleep；Determination method of the invention is utilized simultaneously, according to adopting Blood oxygen saturation data, heart rate data and the body collected moves data, analyze the sleep state of laboratory technician, analysis knot Fruit is as shown in fig. 6, laboratory technician in sleep procedure is that deep sleep -- shallowly sleeps that -- deep sleep -- shallowly sleeps -- deep sleep.

To sum up, it can be deduced that, sleep detection analysis method of the invention is based only upon body compared with the prior art and moves data Determination method, precision is high, and accuracy rate is high.

The above is only a preferred embodiment of the present invention, it should be understood that the present invention is not limited to described herein Form should not be regarded as an exclusion of other examples, and can be used for other combinations, modifications, and environments, and can be at this In the text contemplated scope, modifications can be made through the above teachings or related fields of technology or knowledge.And those skilled in the art institute into Capable modifications and changes do not depart from the spirit and scope of the present invention, then all should be in the protection scope of appended claims of the present invention It is interior.

Claims (7)

1. one kind is for detecting the dormant detection system of user, which is characterized in that including

Wearable Intelligent monitoring device, heart rate, blood oxygen and body for monitoring user move data；

Server, the server and wearable Intelligent monitoring device communicate to connect, for receiving and storing wearable intelligence prison Heart rate, blood oxygen and the body that measurement equipment monitors move data, and server includes analysis module, and the analysis module is based on following algorithm Realize the sleep state analysis of user:

It defines body and moves parameter: mov (i), blood oxygen parameter: spo2 (i), hrv parameter: hr (i)；

Body moves transforming function transformation function:

Wherein f_k(k=1,2,3 ... 2n+1) are coefficient function；

Blood oxygen transforming function transformation function:

Wherein N=2n+1；

Heart rate transforming function transformation function:

Wherein N=2n+1；

Defined parameters value: sleep (i)；

Wherein α is weight parameter, and β is impact factor；

Define sleep state S₀For waking state, S₁For hypophypnosis state, S₂For deep sleep；

Define thresh₀₁For awake and hypophypnosis decision threshold, thresh₁₂For hypophypnosis and deep sleep decision threshold；

In sleep (i) > thresh₀₁When, then sleep state is S₀；

In sleep (i) < thresh₁₂When, then sleep state is S₂；

In thresh₁₂≤sleep(i)≤thresh₀₁Sleep state is S₁。

2. according to claim 1 a kind of for detecting the dormant detection system of user, which is characterized in that the inspection Examining system further includes app client, and the app client is connect with server, analyzes to obtain for receiving simultaneously display server Sleep state result.

3. according to claim 2 a kind of for detecting the dormant detection system of user, which is characterized in that described Heart rate, blood oxygen and body of the app client for the wearable Intelligent monitoring device of query service device storage to monitor move data.

4. according to claim 2 a kind of for detecting the dormant detection system of user, which is characterized in that described App client is installed and used for wearable Intelligent monitoring device, mobile communication equipment or PC.

5. according to claim 1 a kind of for detecting the dormant detection system of user, which is characterized in that it is described can Wearing Intelligent monitoring device is intellectual monitoring bracelet, intellectual monitoring wrist-watch or intellectual monitoring ring.

6. one kind is for detecting the dormant detection method of user, which comprises the following steps:

S1. the heart rate for obtaining user, blood oxygen and body are monitored by wearable Intelligent monitoring device and moves data；

S2. data are moved according to heart rate, blood oxygen and the body that monitoring obtains, defines body and moves parameter: mov (i), blood oxygen parameter: spo2 (i), hrv parameter: hr (i)；

Body moves transforming function transformation function:

Wherein f_k(k=1,2,3 ... 2n+1) are coefficient function；

Blood oxygen transforming function transformation function:

Wherein N=2n+1；

Heart rate transforming function transformation function:

Wherein N=2n+1；

Defined parameters value: sleep (i)；

Wherein α is weight parameter, and β is impact factor；

Define sleep state S₀For waking state, S₁For hypophypnosis state, S₂For deep sleep；

Define thresh₀₁For awake and hypophypnosis decision threshold, thresh₁₂For hypophypnosis and deep sleep decision threshold；

In sleep (i) > thresh₀₁When, then sleep state is S₀；

In sleep (i) < thresh₁₂When, then sleep state is S₂；

In thresh₁₂≤sleep(i)≤thresh₀₁Sleep state is S₁。

7. according to claim 6 a kind of for detecting the dormant detection method of user, which is characterized in that it is described can Wearing Intelligent monitoring device is intellectual monitoring bracelet, intellectual monitoring wrist-watch or intellectual monitoring ring.