CN106691458A - Method for optimizing blood oxygen data - Google Patents

Abstract

A method for optimizing blood oxygen data comprises the steps that firstly, basic blood oxygen samples are collected, a basic blood oxygen sample database is built, a basic blood oxygen sample curve is formed, and the basic blood oxygen sample database and the basic blood oxygen sample curve are transmitted to a database; secondly, the blood oxygen data monitored by an intelligent wearable device of a user is transmitted to a server, wherein the server is used for planning and calculating the blood oxygen data and the basic blood oxygen sample curve which are transmitted to the server within a period of time again, and a first blood oxygen curve is obtained; thirdly, superposition is conducted on the basic blood oxygen sample curve and the first blood oxygen curve in the same coordinate system, and a first blood oxygen curve band is obtained. In this way, the steps are circularly executed, and the blood oxygen data is continually optimized so as to provide a reference for the health of people in the same time period, same area and same type.

Description

A kind of method of oximetry data optimization

Technical field

It is more particularly to a kind of to be based on Intelligent worn device and service the present invention relates to a kind of method of the optimization of oximetry data The optimization method of the oximetry data of device.

Background technology

Blood oxygen abbreviation SPO2H refers to the oxygen in blood, and human normal oxygen content is 90% or so.Arterial blood 150- 230ml/L;Venous blood 110-180ml/L.Position is different, and venous oxygen content can have very big difference.The arterial blood of same people Oxygen content 50ml/L about higher than venous oxygen content, male is higher than women.The equipment tested blood oxygen is typically all at present Large-scale Medical Devices, one is variant measurement standard, and two is that oximetry data collects difficulty, causes statistically to have difficulties.And And, oximetry data is for sex, the region of people（Such as Asia and Europe）, age level, weight it is all variant, in statistics On, the statistics only for oximetry data can cause blood oxygen reference data less accurate.

The content of the invention

The present invention is intended to provide a kind of method of oximetry data optimization, can be directed to sex, the region of people（Such as Asia and Europe Continent）, age level, weight first people is screened, then depict the reference value of blood oxygen respectively for different variables, So that people can make the judgement of relative efficiency after measurement draws data to the health status of oneself.

Technical scheme is as follows：

A kind of method of oximetry data optimization, it is characterised in that the method comprises the following steps：

Step one, collects basic blood oxygen sample, sets up basic blood oxygen sample database, forms basic blood oxygen sample curve, and will The basic blood oxygen sample database and basic blood oxygen sample curve are transmitted to database；

Step 2, the oximetry data of user's intelligence wearable device monitoring is transmitted to server, when the server is to one section Interior transmission to the oximetry data of server is planned calculating again with basic sample curve, obtains the first blood oxygen curve；

Step 3, lamination process is carried out by the basic blood oxygen sample curve and the first blood oxygen curve in the same coordinate system, is obtained To the first blood oxygen curve belt；

Step 4, the server to described a period of time after the same cycle again a period of time in transmit to server Oximetry data is planned calculating again with the first blood oxygen curve, obtains the second blood oxygen curve；

Step 5, lamination process is carried out by the first blood oxygen curve belt and the second blood oxygen curve in the same coordinate system, is obtained Second blood oxygen curve belt；

Step 6, repeat step four and five, obtains N blood oxygen curve belts.

Further, the basic blood oxygen curve y=f（A, b, c, d）, wherein, a represents the weight of people, and b represents people Age level, c represents the region difference of people, and d represents the sex of people, and y can be a, in b, c and d any one or it is any many The function of individual variable.

Further, the planning again is calculated as the average variance computing based on the basic sample curve, or right Average variance computing including the oximetry data in all databases including basic blood oxygen sample.

Further, the lamination process is the basic blood oxygen sample curve and the first blood oxygen for taking the identical point value of identical variable The blood oxygen region of curve, all of blood oxygen region forms the first blood oxygen curve belt.

The method that the method optimized using a kind of oximetry data described in claim carries out healthy judgement, its feature exists In the personal oximetry data that intelligent wearable device is detected is delivered to server by user, if the personal oximetry data is located at In the N blood oxygen curve belts, then judge that personal oximetry data is health status；If the personal oximetry data is located at described the Outside N blood oxygen curve belts, then personal oximetry data exception is judged.

Realize a kind of oximetry data optimization system of the method for described oximetry data optimization, it is characterised in that the system System includes intelligent wearable device and server；The intelligent wearable device at least includes blood oxygen detection module and transmission mould Block, the server includes comparison module, computing module and memory module.The transport module can be mini-usb transmission moulds Block, or WIFI transport modules.During the intelligent wearable device can be Intelligent bracelet, intelligent watch and smart mobile phone One or more.

By above-mentioned method and system, recorded first certainly on the mobile terminal that people bind on bracelet or with bracelet Oneself sex, body weight, region and age range, can be according to existing blood oxygen curve after measurement draws the oximetry data of oneself With judging the health status of oneself, and the data that can be measured oneself be imported into the oximetry data storehouse of server, optimize blood Reference is made in oxygen database, the judgement to follow-up people.

Brief description of the drawings

Its example embodiment is described in detail by referring to accompanying drawing, above and other target of the invention, feature and advantage will Become more fully apparent.

Fig. 1 is basic blood oxygen sample curve.

Fig. 2 is the first blood oxygen curve.

Fig. 3 is the first blood oxygen curve belt obtained based on basic blood oxygen sample curve and the first blood oxygen curve operations.

Fig. 4 is the second blood oxygen curve.

Fig. 5 is the second blood oxygen curve belt obtained based on the first blood oxygen curve belt and the second blood oxygen curve operations.

Specific embodiment

Example embodiment is described more fully with referring now to accompanying drawing.However, example embodiment can be with various shapes Formula is implemented, and is not understood as limited to example set forth herein；Conversely, thesing embodiments are provided so that the present invention will more Fully and completely, and by the design of example embodiment those skilled in the art is comprehensively conveyed to.Accompanying drawing is only the present invention Schematic illustrations, be not necessarily drawn to scale.Identical reference represents same or similar part in figure, thus Repetition thereof will be omitted.

Additionally, described feature, structure or characteristic can be combined in one or more implementations in any suitable manner In mode.In the following description, there is provided many details fully understand so as to be given to embodiments of the present invention.So And, it will be appreciated by persons skilled in the art that technical scheme can be put into practice and omit in the specific detail Or more, or can be using other methods, constituent element, device, step etc..In other cases, it is not shown in detail or describes Known features, method, device, realization or operation are to avoid that a presumptuous guest usurps the role of the host so that each aspect of the present invention thickens.

As illustrated in the accompanying drawings from 1 to 3, first, basic blood oxygen sample curve 1, existing sample are formed according to existing sample data Any existing methods such as data can be detected by stochastical sampling, the oximetry data of purchase professional institution are obtained, by basic blood Oxygen sample database is transmitted to server.When a certain coordinate is having less than 10 oximetry datas, 10 sample datas are taken Average variance；When a certain coordinate has the M oximetry data more than 10, remove a maximum and a minimum value, take this It is left the M-2 average variance of sample data.The relation between oximetry data y and the weight a of people is only pointed out in Fig. 1, In fact, oximetry data also other physical parameters including people, such as age level b of people, the region c of people（Such as Asian, Europe People from continent and American）, the parameter such as the sex d of people, above-mentioned parameter can all bring regular ability difference to the oximetry data of colony people. Can even is that, basic blood oxygen curve y=f（A, b, c, d）, wherein, a represents the weight of people, and b represents the age level of people, C represents the region difference of people, and d represents the sex of people, and y can be a, the letter of any one or any number of variables in b, c and d Number.

Secondly, after setting up basic blood oxygen sample database and basic blood oxygen sample curve, when user's purchase is surveyed with blood oxygen After measuring the Intelligent worn device of function, such as Intelligent bracelet, intelligent watch or smart mobile phone, Oximetry function, Yong Huke are opened With in real time WIFI means or it is delayed by data wire by way of the oximetry data of the user is transmitted to server, to base This blood oxygen sample database is supplemented.Server is in a period of time（Such as one month or a season）Transmit to server Oximetry data planned calculating again with basic sample curve, obtain the first blood oxygen curve 2.Again the planning is calculated as Based on the average variance computing of the basic sample curve, or to including in all databases including basic blood oxygen sample The average variance computing of oximetry data.

Secondly, the basic blood oxygen sample curve 1 and the first blood oxygen curve 2 are carried out into lamination process, obtains first Blood oxygen curve belt 101.The lamination process be take the identical point value of identical variable basic blood oxygen sample curve and the first blood oxygen it is bent The blood oxygen region of line, all of blood oxygen region forms the first blood oxygen curve belt.

Again, as shown in accompanying drawing 4-5, in the next cycle period within above-mentioned a period of time, then to being adopted in the period The oximetry data of collection adds to database, and the oximetry data gathered in the period is carried out again with the first blood oxygen curve Planning is calculated, and obtains the second blood oxygen curve 3.Again the planning is calculated as the average variance based on the first blood oxygen curve and transports Calculate, or to the average variance computing including the oximetry data in all databases including basic blood oxygen sample.

Again, the first blood oxygen curve belt 101 and the second blood oxygen curve 3 are carried out at overlapping in the same coordinate system Reason, obtains the second blood oxygen curve belt；Described lamination process is to take the He of the first blood oxygen curve belt 101 of the identical point value of identical variable The blood oxygen region of the second blood oxygen curve 3, all of blood oxygen region forms the second blood oxygen curve belt 102.

Then, it is continuously replenished in next cycle repeatedly, and the oximetry data and the blood oxygen of N-1 that will constantly supplement are bent Line is planned calculating again, or to the mean square including the oximetry data in all databases including basic blood oxygen sample Difference operation, obtains N blood oxygen curves.

So, by continuous data filling and computing, certain body weight, certain age bracket, identical can constantly be optimized The reference value of the oximetry data of the crowd of regional areas and sex.

Further, based on the reference value, the personal oximetry data that intelligent wearable device is detected is delivered to service by user Device, if the personal oximetry data is located in the N blood oxygen curve belts, judges that personal oximetry data is health status；If The personal oximetry data is located at outside the N blood oxygen curve belts, then judge personal oximetry data exception.

Further, the oximetry data optimization system of the method for oximetry data optimization is realized, it is characterised in that the system bag Include intelligent wearable device and server；The intelligent wearable device at least includes blood oxygen detection module and transport module, institute Stating server includes comparison module, computing module and memory module.The transport module can be mini-usb transport modules, Can be WIFI transport modules.The intelligent wearable device can be in Intelligent bracelet, intelligent watch and smart mobile phone Item is multinomial.

Further, as shown in accompanying drawing 3 and 5, blood oxygen curve belt is made explanations again, in same variable（Variable can be One or more）Same value under, first, under the same value, basic blood oxygen sample curve, the first blood oxygen curve difference One oximetry data of correspondence, this two oximetry datas of curve have two different numerical value or same numerical value, then this two Individual different numerical value just constitutes the maximum and minimum value of the blood oxygen band under the same value, or this same numerical value structure Into the value of the blood oxygen band under the same value, to the same variable（Variable can be one or more）Span carry out Extension, has just obtained the first blood oxygen curve belt 101 in accompanying drawing 3.Secondly, equally, under another same value, the first blood oxygen is bent The blood oxygen curve 3 of tape 101 and second corresponds to the span of an oximetry data and the point value of oximetry data respectively, takes another at this In the case of same variable-value, the maximum and minimum value of blood oxygen numerical value are taken, as the blood oxygen of another same variable-value The scope of data, if maximum and minimum value are equal, then the point value is just as the oximetry data of another same variable-value Point value, to the same variable（Variable can be one or more）Span be extended, just obtained in accompanying drawing 5 Two blood oxygen curve belts 102.

Finally it should be noted that：Various embodiments above is merely illustrative of the technical solution of the present invention, rather than its limitations；To the greatest extent Pipe has been described in detail with reference to foregoing embodiments to the present invention, it will be understood by those within the art that：Its according to The technical scheme described in foregoing embodiments can so be modified, or which part or all technical characteristic are entered Row equivalent；And these modifications or replacement, the essence of appropriate technical solution is departed from various embodiments of the present invention technology The scope of scheme.

Claims (8)

1. a kind of method that oximetry data optimizes, it is characterised in that the method comprises the following steps：

Step one, collects basic blood oxygen sample, sets up basic blood oxygen sample database, forms basic blood oxygen sample curve, and will The basic blood oxygen sample database and basic blood oxygen sample curve are transmitted to database；

Step 2, the oximetry data of user's intelligence wearable device monitoring is transmitted to server, when the server is to one section Interior transmission to the oximetry data of server is planned calculating again with basic sample curve, obtains the first blood oxygen curve；

Step 3, lamination process is carried out by the basic blood oxygen sample curve and the first blood oxygen curve in the same coordinate system, is obtained To the first blood oxygen curve belt；

Step 4, the server to described a period of time after the same cycle again a period of time in transmit to server Oximetry data is planned calculating again with the first blood oxygen curve, obtains the second blood oxygen curve；

Step 5, lamination process is carried out by the first blood oxygen curve belt and the second blood oxygen curve in the same coordinate system, is obtained Second blood oxygen curve belt；

Step 6, repeat step four and five, obtains N blood oxygen curve belts.

2. the method that a kind of oximetry data according to claim 1 optimizes, it is characterised in that the basic blood oxygen curve y= f（A, b, c, d）, wherein, a represents the weight of people, and b represents the age level of people, and c represents the region difference of people, and d represents people Sex, y can be a, the function of any one or any number of variables in b, c and d.

3. the method that a kind of oximetry data according to claim 1 optimizes, it is characterised in that the planning again is calculated as Based on the average variance computing of the basic sample curve, or to including in all databases including basic blood oxygen sample The average variance computing of oximetry data.

4. the method that a kind of oximetry data according to any one of claim 1-3 claim optimizes, it is characterised in that The lamination process is the blood oxygen region of basic blood oxygen sample curve and the first blood oxygen curve for taking the identical point value of identical variable, institute Some blood oxygen regions form the first blood oxygen curve belt.

5. the method for being optimized using a kind of oximetry data described in any one of claim 1-4 claim carries out healthy judgement Method, it is characterised in that the personal oximetry data that intelligent wearable device is detected is delivered to server by user, if described People's blood oxygen data are located in the N blood oxygen curve belts, then judge that personal oximetry data is health status；If the personal blood oxygen Data are located at outside the N blood oxygen curve belts, then judge personal oximetry data exception.

6. realize that the oximetry data of the method that a kind of oximetry data described in any one of claim 1-4 claim optimizes is excellent Change system, it is characterised in that the system includes intelligent wearable device and server；The intelligent wearable device is at least wrapped Blood oxygen detection module and transport module are included, the server includes comparison module, computing module and memory module.

7. system according to claim 6, it is characterised in that the transport module can be mini-usb transport modules, Can also be WIFI transport modules.

8. the system according to claim 6 or 7, the intelligent wearable device can be Intelligent bracelet, intelligent watch and One or more in smart mobile phone.